AOC’s Hydropel H125-A Series is a
thixotropic, pre-promoted, 100% epoxy
based vinyl ester formulation.
Application
AOC s Hydropel H125-A Series is designed for use
in the manufacturing of boats, backing
thermoformed acrylic, and construction of other
various composite parts, using hand lay up and
spray up techniques.

Typical Cast Mechanical Properties*
1
See Back Page

Test Unit of Measure Nominal Test Method
Tensile Strength psi/MPa 13,600/94 ASTM D638
Tensile Modulus psi/GPa 530,000/3.7 ASTM D638
Tensile Elongation % 6.0 ASTM D638
Flexural Strength psi/MPa 22,300/154 ASTM D790
Flexural Modulus psi/GPa 560,000/3.9 ASTM D790
Heat Distortion
Temp.
F/ C @ 264 psi 239/115 ASTM D648
*Typical properties are not to be construed as specifications.
Typical Liquid Properties*
2
See Back Page

Test Unit of Measure Nominal
Viscosity @ 25 C/77 F LV
Spindle #3 @ 60 rpm
cps 625
Thix Index 6/60
– 2.9
Styrene Content
% 35
25 C Gel Time, 100g
1.5% MEKP-925H
minutes 42
Total Cure Time
minutes 9
Peak Exotherm
F/ C 347/175

Benefits
Provides maximum resistance to osmotic
blistering even when used for only the skin
coat

Outstanding strength and toughness of the
composite

Provides excellent resistance to cracking
caused by flexural failure of the laminate

Meets MACT requirements for low HAP
resins in the marine industry

2
Americas
+1 866 319 8827
americas@aocformulations.com
AOC is a registered trademark of the AOC group of companies.

The user is held responsible for checking the quality, safety and all
other properties of our products prior to use. The information and recommendations contained herein
are to the best of our knowledge accurate and reliable, but no rights whatsoever may be derived by any
party other than those expressly agreed to with a selling entity of the AOC group of companies in a
legally binding agreement. AOC hereby makes no warranty of any kind, express or implied, including
those of merchantability and fitness for purpose. Unless explicitly agreed to in writing by AOC other-
wise, all offers, quotations, sales and deliveries of AOC products are subject to the general conditions of
sale of AOC. Altek

, Atlac

, Atryl

, Beyone

, Chroma-Tek

,, Daron

, Firepel

, Hydropel

, MoldTru

,
NeoMould

, Neoxil

, Palatal

, Palapreg

, Pultru

, SynoliteVibrin

, Vicast

, Vipel

, the AOC

name, the
AOC logo and the Trusted Solutions

logo are the registered trademarks of the AOC group of companies.

For more information: aocformulations.com
Performance Guidelines
A. Keep full strength catalyst levels
between 1.25% – 2.0% of the total for-
mulation weight.

B. Maintain shop temperatures be-
tween 65 F/18 C and 90 F/32 C and
humidity between 40% and 90%. Con-
sistent shop conditions contribute to
consistent gel times and will help the
fabricator make a high quality part.

Storage Guidelines
Resins are stable for three months
from date of production when stored
in the original containers away from
sunlight at no more than 70 F/21 C.

During the hot summer months, no
more than two months stability at
86 F/30 C should be anticipated. After
extended storage, some drift may occur
in gel time and viscosity.

Storage in plastic totes made out of
materials such as polyethylene (PE) or
polypropylene (PP), in particular translu-
cent PE/PP, will accelerate gel formation
and result in a significantly reduced stor-
age stability.

Storage of this formulation outdoors
in translucent plastic totes may reduce
the storage stability to only a few
weeks. AOC cannot assume responsi-
bility for gel formation under these
storage conditions.
Application Guidelines
Due to the curing characteristics of the
Hydropel H125-A Series formulation, it
is desirable to complete all secondary
bonding as soon as possible. Exposure
of the laminate to sunlight will result in
severe secondary bonding problems.
After 24 hours of cure, it may become
necessary to abrade the laminate to
insure good secondary bonding, espe-
cially if the surface of the laminate has
been allowed to become resin rich.
Low fiberglass content and resin pud-
dling should be avoided with this
product.

To assure adequate bonding to acryl-
ics, fabricators should pre-wet the
acrylic surface with a thin pass of cata-
lyzed resin prior to lamination.

The ability of an unsaturated polyester
resin to bond to acrylic is influenced
by many factors. Resin is only one of
the factors. The type and color of the
acrylic used and the conditions during
the thermoforming process are but a
few of the factors that affect the ability
of the resin to bond to the acrylic.
Therefore, it is vitally important that
the fabricator evaluates for themselves
the fitness of this product for their
processes.

To ensure a high quality fabricated
part, AOC recommends that fabrica-
tors utilize Best Practice Guidelines
for polyester resins, vinyl ester resins,
acrylic sheet.
ISO 9001:2015 Certified
The Quality Management Systems at
every AOC manufacturing facility have
been certified as meeting ISO
9001:2015 standards. This certification
recognizes that each AOC facility has an
internationally accepted model in place
for managing and assuring quality. We
follow the practices set forth in this
model to add value to the products we
make for our customers.

Material Safety
See the appropriate Safety Data Sheet
for guidelines.

Test Methods

(1.) Based on tests at 77 F/25 C and 50% relative
humidity. All tests performed on unreinforced
cured resin castings. Thixotropic components, if
applicable, are excluded from casting samples.
Castings were post cured.

(2.) The gel times shown are typical but may be
affected by catalyst, promoter, inhibitor concen-
tration, resin, mold, and shop temperature. Varia-
tions in gelling characteristics can be expected
between different lots of catalysts and at ex-
tremely high humidities. Pigment and/or filler can
retard or accelerate gelation. It is recommended
that the fabricator check the gelling characteris-
tics of a small quantity of resin under actual oper-
ating conditions prior to use.
Hydropel H125-A Series
Vinyl Ester Formulation
Pub. H125-A Series
Last update: August 8, 2024
2024 AOC

Section 2. Hazards identification
Prevention
P201: Obtain special instructions before use.
P202: Do not handle until all safety precautions have been read and understood.
P280: Wear protective gloves/protective clothing/eye protection/face protection.
P210: Keep away from heat, sparks and hot surfaces. – No smoking.
P240: Ground/bond container and receiving equipment.
P241: Use explosion-proof electrical/ventilating/lighting/material-handling equipment.
P242: Use only non-sparking tools.
P243: Take precautionary measures against static discharge.
P233: Keep container tightly closed.
P271: Use only outdoors or in a well-ventilated area.
P260: Do not breathe vapor or mist.
P270: Do not eat, drink or smoke when using this product.
P264: Wash hands thoroughly after handling.
Response
P314: Get medical attention if you feel unwell.
P308+P313: IF exposed or concerned: Get medical attention.
P304+P340: IF INHALED: Remove victim to fresh air and keep at rest in a position comfortable for breathing.
P312: Call a POISON CENTER or physician if you feel unwell.
P370+P378: In case of fire: Use dry chemical, CO , water spray (fog) or foam.
P301+P310: IF SWALLOWED: Immediately call a POISON CENTER or doctor/physician.
P331: Do NOT induce vomiting.
P308+P313: IF exposed or concerned: Get medical advice/attention.
P303+P361+P353: IF ON SKIN (or hair): Take off immediately all contaminated clothing. Rinse skin with water or shower.
P362+P364: Take off contaminated clothing and wash it before reuse.
P332+P313: If skin irritation occurs: Get medical attention.
P305+P351+P338: IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if present and easy to do. Continue
rinsing.
P337+P313: If eye irritation persists: Get medical attention.
P391: Collect spillage.
Storage
P405: Store locked up.
P403+P235: Store in a well-ventilated place. Keep cool.
P233: Keep container tightly closed.
Disposal
P501: Dispose of contents and container in accordance with all local, regional, national and international regulations.
P101: If medical advice is needed, have product container or label at hand.
P102: Keep out of reach of children.
Hazards not otherwise classified
None known.
Section 3. Composition/information on ingredients
Ingredient name CAS number %
There are no additional ingredients present which, within the current knowledge of the supplier and in the concentrations applicable, are
classified as hazardous to health or the environment and hence require reporting in this section.
Substance/mixture
Occupational exposure limits, if available, are listed in Section 8.
Mixture.
styrene 100-42-5 44.0
N-methyl-2-pyrrolidone 872-50-4 0.3
cobalt bis(2-ethylhexanoate) 136-52-7 0.3
Section 4. First aid measures
Immediately flush eyes with plenty of water for at least 15 minutes, occasionally lifting the upper and lower eyelids. Use of buffered baby
shampoo will aid in removal. If irritation persists, get medical attention.
Move the victim to a safe area as soon as possible. Allow the victim to rest in a well-ventilated area. If breathing is difficult, give oxygen.
If the victim is not breathing, perform mouth-to-mouth resuscitation. Seek immediate medical attention.
Eye contact
Skin contact
Inhalation
Description of necessary first aid measures
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Section 4. First aid measures
Wash out mouth with water. Remove dentures if any. Stop if the exposed person feels sick as vomiting may be dangerous. Do not
induce vomiting unless directed to do so by medical personnel. If vomiting occurs, the head should be kept low so that vomit does not
enter the lungs. Seek immediate medical attention.
In case of contact, immediately flush skin with plenty of water. Remove contaminated clothing and shoes. If irritation persists, seek
medical attention. Wash contaminated clothing before reuse. Clean shoes thoroughly before reuse.
Ingestion
Notes to physician
Treat symptomatically. Contact poison treatment specialist immediately if large quantities have been ingested or inhaled.
Most important symptoms/effects, acute and delayed
See toxicological information (Section 11)
Indication of immediate medical attention and special treatment needed, if necessary
Irritating to mouth, throat and stomach.
Causes serious eye irritation.
Causes skin irritation.
Harmful if inhaled. May cause respiratory irritation. May cause drowsiness or dizziness.
Eye contact
Skin contact
Inhalation
Ingestion
Over-exposure signs/symptoms
Eye contact
Inhalation
Skin contact
Ingestion
Adverse symptoms may include the following: pain or irritation, watering, redness.
Adverse symptoms may include the following: respiratory tract irritation, coughing.
Adverse symptoms may include the following: irritation, redness.
Adverse symptoms may include the following: Irritating to mouth, throat and stomach.
Section 5. Fire-fighting measures
Fire water contaminated with this material must be contained and prevented from being discharged to any waterway, sewer or drain.
Hazardous thermal decomposition products
Specific hazards arising from the chemical
Decomposition products may include the following materials: carbon dioxide
Flammable liquid and vapor. In a fire or if heated, a pressure increase will occur and the container may burst, with the risk of a
subsequent explosion. The vapor/gas is heavier than air and will spread along the ground. Vapors may accumulate in low or confined
areas or travel a considerable distance to a source of ignition and flash back. Runoff to sewer may create fire or explosion hazard. This
material is harmful to aquatic life with long lasting effects. Fire water contaminated with this material must be contained and prevented
from being discharged to any waterway, sewer or drain.
Fire-fighters should wear appropriate protective equipment and self-contained breathing apparatus (SCBA) with a full face-piece operated
in positive pressure mode.
Special protective equipment for fire-fighters
Use dry chemical, CO , water spray (fog) or foam.
Extinguishing media
Do not use water jet.
Suitable extinguishing media
Unsuitable extinguishing media
Special protective actions for fire-fighters
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Section 6. Accidental release measures
Environmental precautions
Personal precautions, protective equipment and emergency procedures
Stop leak if without risk. Move containers from spill area. Approach release from upwind. Prevent entry into sewers, water courses,
basements or confined areas. Wash spillages into an effluent treatment plant or proceed as follows. Contain and collect spillage with non-
combustible, absorbent material e.g. sand, earth, vermiculite or diatomaceous earth and place in container for disposal according to local
regulations (see Section 13). Use spark-proof tools and explosion-proof equipment. Dispose of via a licensed waste disposal contractor.
Contaminated absorbent material may pose the same hazard as the spilled product. Note: see Section 1 for emergency contact
information and Section 13 for waste disposal.
Avoid dispersal of spilled material and runoff and contact with soil, waterways, drains and sewers. Inform the relevant authorities if the
product has caused environmental pollution (sewers, waterways, soil or air). Water polluting material. May be harmful to the environment
if released in large quantities.
Stop leak if without risk. Move containers from spill area. Dilute with water and mop up if water-soluble. Alternatively, or if water-insoluble,
absorb with an inert dry material and place in an appropriate waste disposal container. Use spark-proof tools and explosion-proof
equipment. Dispose of via a licensed waste disposal contractor.
Methods and materials for containment and cleaning up
For non-emergency personnel
For emergency responders
No action shall be taken involving any personal risk or without suitable training. Evacuate surrounding areas. Do not touch or walk
through spilled material. Shut off all ignition sources. No flares, smoking or flames in hazard area. Avoid breathing vapor or mist.
Provide adequate ventilation.
If specialised clothing is required to deal with the spillage, take note of any information in Section 8 on suitable and unsuitable materials.
Wear appropriate respirator when ventilation is inadequate. Put on appropriate personal protective equipment. See also the information in
“For non-emergency personnel”.
Small spill
Large spill
Section 7. Handling and storage
Advice on general occupational hygiene
Conditions for safe storage, including any incompatibilities
Eating, drinking and smoking should be prohibited in areas where this material is handled, stored and processed. Workers should wash
hands and face before eating, drinking and smoking. Remove contaminated clothing and protective equipment before entering eating
areas. See also Section 8 for additional information on hygiene measures.
Store in accordance with local regulations. Store in a segregated and approved area. Store in original container protected from direct
sunlight in a dry, cool and well-ventilated area, away from incompatible materials (see Section 10) and food and drink. Eliminate all
ignition sources. Segregate from oxidizing materials. Keep container tightly closed and sealed until ready for use. Containers that have
been opened must be carefully resealed and kept upright to prevent leakage. Do not store in unlabeled containers. Use appropriate
containment to avoid environmental contamination. Refer to the product label and/or technical data sheet for further information.
Protective measures
Put on appropriate personal protective equipment (see Section 8). Eating, drinking and smoking should be prohibited in areas where this
material is handled, stored and processed. Workers should wash hands and face before eating, drinking and smoking. Remove
contaminated clothing and protective equipment before entering eating areas. Do not breathe vapor or mist. Do not ingest. Avoid contact
with eyes, skin and clothing. Avoid release to the environment. Use only with adequate ventilation. Wear appropriate respirator when
ventilation is inadequate. Do not enter storage areas and confined spaces unless adequately ventilated. Keep in the original container or
an approved alternative made from a compatible material, kept tightly closed when not in use. Store and use away from heat, sparks,
open flame or any other ignition source. Use only non-sparking tools. Take precautionary measures against electrostatic discharges.
Empty containers retain product residue and can be hazardous. Do not reuse container.
Precautions for safe handling
styrene ACGIH TLV (United States, 1/2021). Ototoxicant.
TWA: 10 ppm 8 hours.
STEL: 20 ppm 15 minutes.
OSHA PEL Z2 (United States, 2/2013).
TWA: 100 ppm 8 hours.
CEIL: 200 ppm
AMP: 600 ppm 5 minutes.
NIOSH REL (United States, 10/2020).
TWA: 50 ppm 10 hours.
TWA: 215 mg/m 10 hours.
STEL: 100 ppm 15 minutes.
Section 8. Exposure controls/personal protection
Ingredient name Exposure limits
Control parameters
Occupational exposure limits
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Section 8. Exposure controls/personal protection
STEL: 425 mg/m 15 minutes.
N-methyl-2-pyrrolidone OARS WEEL (United States, 1/2021). Absorbed through skin.
TWA: 15 ppm 8 hours.
STEL: 120 mg/m 15 minutes.
STEL: 30 ppm 15 minutes.
TWA: 60 mg/m 8 hours.
cobalt bis(2-ethylhexanoate) OSHA PEL (United States).
TWA: 0.1 mg/m
ACGIH TLV (United States, 1/2021). Skin sensitizer. Inhalation
sensitizer.
TWA: 0.02 mg/m , (as Co) 8 hours.
Hand protection
Use a properly fitted, air-purifying or air-fed respirator complying with an approved standard if a risk assessment indicates this is
necessary. Respirator selection must be based on known or anticipated exposure levels, the hazards of the product and the safe working
limits of the selected respirator.
Chemical-resistant, impervious gloves complying with an approved standard should be worn at all times when handling chemical products
if a risk assessment indicates this is necessary.
Safety eyewear complying with an approved standard should be used when a risk assessment indicates this is necessary to avoid
exposure to liquid splashes, mists or dusts.
Eye/face protection
Respiratory protection
Body protection
Personal protective equipment for the body should be selected based on the task being performed and the risks involved and should be
approved by a specialist before handling this product.
Appropriate engineering controls
Use only with adequate ventilation. Use process enclosures, local exhaust ventilation or other engineering controls to keep worker
exposure to airborne contaminants below any recommended or statutory limits. The engineering controls also need to keep gas, vapor or
dust concentrations below any lower explosive limits. Use explosion-proof ventilation equipment.
Wash hands, forearms and face thoroughly after handling chemical products, before eating, smoking and using the lavatory and at the end
of the working period. Appropriate techniques should be used to remove potentially contaminated clothing. Ensure that eyewash stations
and safety showers are close to the workstation location.
Hygiene measures
Individual protection measures
Other skin protection
Appropriate footwear and any additional skin protection measures should be selected based on the task being performed and the risks
involved and should be approved by a specialist before handling this product.
Section 9. Physical and chemical properties
Physical state
Melting point
Vapor pressure
Relative density
Vapor density
Solubility
Liquid.
23.8 F / 30.6 C (Styrene)
1.1 (Water = 1)
3.6 (Air = 1) (Styrene )
5.0 mm Hg@ 68 F / 20 C (Styrene)
Slight.
Aromatic.Odor
pH
Amber.Color
Evaporation rate < 1 (Butyl acetate = 1) Auto-ignition temperature Flash point 914 F / 490 C (Styrene) 88 F / 31 C (Styrene) Not available. Not applicable. Viscosity Not available. 0.01 - 0.1 ppm (Styrene)Odor threshold Partition coefficient: n-octanol/water Appearance Boiling point 293 F / 145 C (Styrene) Flammability (solid, gas) Not applicable. Lower and upper explosive (flammable) limits Lower: 1.1% Upper: 6.1% (Styrene) Molecular weight 1,000 to 15,000 Decomposition temperature Not available. Page: 5 of 9Date of issue: 04/15/2022 Date of previous issue: 12/07/2021XNA-2112:2539 (Version: 2.0) XP1756 Section 10. Stability and reactivity Hazardous decomposition products Conditions to avoid Avoid all possible sources of ignition (spark or flame). Do not pressurize, cut, weld, braze, solder, drill, grind or expose containers to heat or sources of ignition. Under normal conditions of storage and use, hazardous decomposition products should not be produced. The product is stable. Stable under recommended storage and handling conditions (see Section 7). Chemical stability Reactive or incompatible with the following materials: oxidizing materials Incompatible materials Possibility of hazardous reactions Under normal conditions of storage and use, hazardous reactions will not occur. Reactivity No specific test data related to reactivity available for this product or its ingredients. Section 11. Toxicological information Acute toxicity styrene LC50 Inhalation Gas. Rat 2770 ppm 4 hours LC50 Inhalation Vapor Rat 11800 mg/m 4 hours LC50 Inhalation Vapor Rat 5634.2 ppm 4 hours LD50 Oral Rat 2650 mg/kg - N-methyl-2-pyrrolidone LD50 Dermal Rabbit 8000 mg/kg - LD50 Oral Mouse 5320 mg/kg - LD50 Oral Rabbit 3500 mg/kg - LD50 Oral Rat 3914 mg/kg - LD50 Oral Rat 3914 mg/kg - cobalt bis(2-ethylhexanoate) LD50 Dermal Rabbit >5 g/kg –
LD50 Oral Rat 1.22 g/kg –
Ingredient name Result Species Dose Exposure
Carcinogenicity
Mutagenicity
Teratogenicity
Reproductive toxicity
Irritation/Corrosion
styrene Eyes – Mild irritant Human – 50 ppm –
Eyes – Moderate irritant Rabbit – 24 hours 100 mg-
Eyes – Severe irritant Rabbit – 100 mg –
Skin – Mild irritant Rabbit – 500 mg –
Skin – Moderate irritant Rabbit – 100 % –
N-methyl-2-pyrrolidone Eyes – Moderate irritant Rabbit – 100 mg –
Ingredient name Result Score Exposure Observation
Sensitization
Species
Specific target organ toxicity (single exposure)
Information on toxicological effects
Classification
styrene – 2A Reasonably anticipated to be a human carcinogen.
cobalt bis(2-ethylhexanoate) – 2B Reasonably anticipated to be a human carcinogen.
Ingredient name NTPIARCACGIH
No data on skin sensitization due to this product.
No known significant effects or critical hazards.
1) Negative Study A published study concluded that the mechanism for producing cancer in mice exposed to styrene
is not applicable in human metabolism. (June 2013 Pharmacology & Toxicology 66 (2013))
2) Negative Study A recent update to an extensive study of reinforced plastic workers from 1948-1977 concluded that
there was no coherent evidence that styrene exposure increased risk of cancer (March 2013 Epidemiology Vol. 24
Issue 2)
3) Positive Study Styrene induced pulmonary toxicity and carcinogenicity in mice was shown to be caused by a
metabolite of styrene, probably styrene oxide. (Dec.2001 Toxicology Vol.169 Issue 2)
Suspected of damaging the unborn child.
No known significant effects or critical hazards.
May cause respiratory irritation.
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Section 11. Toxicological information
Inhalation
Harmful if inhaled. May cause respiratory irritation. May cause drowsiness or dizziness.
Irritating to mouth, throat and stomach.
Ingestion
Skin contact
Causes skin irritation.
Causes serious eye irritation.
Eye contact
Symptoms related to the physical, chemical and toxicological characteristics
Skin contact
Ingestion
Adverse symptoms may include the following: respiratory tract irritation, coughing.
Adverse symptoms may include the following: Irritating to mouth, throat and stomach.
Adverse symptoms may include the following: irritation, redness.
Eye contact
Adverse symptoms may include the following: pain or irritation, watering, redness.
Specific target organ toxicity (repeated exposure)
Aspiration hazard
Potential acute health effects
A study of long term effects of workers exposed to styrene levels in the range of 25-35 ppm, 8 hour TWA, indicated a possible mild
hearing loss.
May be fatal if swallowed and enters airways.
Inhalation
Section 12. Ecological information
LogPow BCF Potential
Bioaccumulative potential
Other adverse effects
No known effect according to our database.
styrene 0.35 13.49 low
N-methyl-2-pyrrolidone -0.46 – low
cobalt bis(2-ethylhexanoate) – 15600 high
Toxicity
styrene Acute EC50 78000 g/l Marine water Algae – Skeletonema costatum 96 hours
Acute EC50 4700 g/l Fresh water Daphnia – Daphnia magna 48 hours
Acute LC50 52 mg/l Marine water Crustaceans – Artemia salina 48 hours
Acute LC50 4020 g/l Fresh water Fish – Pimephales promelas 96 hours
N-methyl-2-pyrrolidone Acute LC50 1.23 ppm Fresh water Daphnia – Daphnia magna 48 hours
Acute LC50 832 ppm Fresh water Fish – Lepomis macrochirus 96 hours
Ingredient name SpeciesResult Exposure
Persistence and degradability
Soil/water partition coefficient (KOC)
Not available.
Mobility in soil
Not available.
Ingredient name
Section 13. Disposal considerations
The generation of waste should be avoided or minimized wherever possible. Empty containers or liners may retain some product residues.
Dispose of surplus and non-recyclable products via a licensed waste disposal contractor. Disposal of this product, solutions and any by-
products should at all times comply with the requirements of environmental protection and waste disposal legislation and any regional local
authority requirements. Avoid disposal. Attempt to use product completely in accordance with intended use. Waste packaging should be
recycled. Incineration or landfill should only be considered when recycling is not feasible.
Disposal methods
The information in this section contains generic advice and guidance. The list of Identified Uses in Section 1 should be consulted for any
available use-specific information provided in the Exposure Scenario(s).
Special precautions
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Section 13. Disposal considerations
This material and its container must be disposed of in a safe way. Care should be taken when handling emptied containers that have not been
cleaned or rinsed out. Empty containers or liners may retain some product residues. Do not cut, weld or grind used containers unless they
have been cleaned thoroughly internally. Avoid dispersal of spilled material and runoff and contact with soil, waterways, drains and sewers.
Section 14. Transport information
Resin Solution
3
III
UN1866UN number
Proper shipping name
Transport hazard class(es)
Packing group
DOT /TDG / IMDG/IMO / ICAO/IATA and National regulations.
Additional information US regulations require the reporting of spills when the amount exceeds the Reportable
Quantity (RQ) for specific components of this material. See CERCLA in Section 15,
Regulatory Information, for the Reportable Quantities.
Environmental hazards Marine pollutant: No.
Special precautions for user Transport within user s premises: always transport in closed containers that are upright and
secure. Ensure that persons transporting the product know what to do in the event of an
accident or spillage.
IMDGEmergency schedules (EmS): F-E, S-E
Remarks: FP- 31 C
IATANo additional information.
Section 15. Regulatory information
International regulations lists
All components are active or exempted.
SARA 313
Ingredient name
styrene 100-42-5
cobalt bis(2-ethylhexanoate) 136-52-7
Form R – Reporting
requirements
SARA 311/312
United States inventory (TSCA 8b)
Australia (AICS) Not determined.
Canada (DSL) All components are listed or exempted.
China (IECSC) All components are listed or exempted.
Europe (EINECS) Not determined.
Japan (ENCS) Not determined.
Republic of Korea (KECI) Not determined.
New Zealand (NZIoC) Not determined.
Philippines (PICCS) At least one component is not listed.
Taiwan (CSNN) All components are listed or exempted.
CAS number
California Prop. 65
State regulations
styrene – 1000 lbs. (453.6 kg)CERCLA RQ –
WARNING: This product can expose you to chemicals including Styrene, which is known to the State of California to cause cancer, and
N-methylpyrrolidone, which is known to the State of California to cause birth defects or other reproductive harm. For more information go
to www.P65Warnings.ca.gov.
Per the June 13, 2016 Federal Register notice, EPA harmonized the EPCRA 311/312 hazard categories with the 2012 OSHA hazard
communication standard for classifying and labeling of chemicals (i.e. GHS). Please refer to Section 2 of the SDS to identify the appropriate
hazard categories for reporting purposes.
U.S. Federal regulations
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Section 16. Other information
History
Version
Prepared by
AOC is a registered trademark of the AOC group of companies.
The information contained in this data sheet is based on laboratory data and field experience. We believe this information to be reliable, but do not
guarantee its applicability to the user s process or assume any liability for occurrences arising out of its use. The user, by accepting the products
as described herein, agrees to be responsible for thoroughly testing each such product before committing it to production.
Altek , Atryl , Atryl TCA , Chroma-Tek , EcoTek , FirePel , Hydropel , Moldtru , PulTru , Vibrin , Vicast , Vipel , the AOC name, the
AOC logo, and the Trusted Solutions logo are registered trademarks of the AOC group of companies.
Our recommendations should not be construed as inducements to infringe any patent or violate any law, safety code or insurance regulation.
The information and recommendations contained herein are to the best of our knowledge accurate and reliable, but no rights whatsoever may be
derived by any party other than those expressly agreed to with a selling entity of the AOC group of companies in a legally binding agreement. AOC
hereby makes no warranty of any kind, express or implied, including those of merchantability and fitness for purpose. Unless explicitly agreed to in
writing by AOC otherwise, all offers, quotations, sales and deliveries of AOC products are subject to the general conditions of sale of AOC.
Notice to reader
Date of previous issue
Indicates information that has changed from previously issued version.
Key to abbreviations ATE = Acute Toxicity Estimate
BCF = Bioconcentration Factor
GHS = Globally Harmonized System of Classification and Labelling of Chemicals
IATA = International Air Transport Association
IBC = Intermediate Bulk Container
IMDG = International Maritime Dangerous Goods
LogPow = logarithm of the octanol/water partition coefficient
MARPOL = International Convention for the Prevention of Pollution From Ships, 1973 as modified by
the Protocol of 1978. (“Marpol” = marine pollution)
UN = United Nations
04/15/2022
12/07/2021
2.0
National Fire Protection Association (U.S.A.)
Reprinted with permission from NFPA 704-2001, Identification of the Hazards of Materials for Emergency Response Copyright 1997, National Fire Protection Association, Quincy, MA 02269. This
reprinted material is not the complete and official position of the National Fire Protection Association, on the referenced subject which is represented only by the standard in its entirety.
Copyright 2001, National Fire Protection Association, Quincy, MA 02269. This warning system is intended to be interpreted and applied only by properly trained individuals to identify fire, health and
reactivity hazards of chemicals. The user is referred to certain limited number of chemicals with recommended classifications in NFPA 49 and NFPA 325, which would be used as a guideline only. Whether
the chemicals are classified by NFPA or not, anyone using the 704 systems to classify chemicals does so at their own risk.
AOC Corporate Regulatory Affairs
This Safety Data Sheet (SDS) and its content are the confidential and proprietary information of AOC and it may not be modified, altered,
deconstructed, or presented in any other manner, without the explicit authorization of AOC and/or its legal counsel.
1
3
2
Health
Special
Instability
Flammability
Date of issue
Page: 9 of 9Date of issue: 04/15/2022
Date of previous issue: 12/07/2021XNA-2112:2539 (Version: 2.0)
XP1756

AOC’s Altek H800-TVA-18 is a promot-
ed, thixotropic, unsaturated laminating
resin.

Application
The Altek H800-TVA-18 is specifically designed to
deliver superior surface aesthetics and provide a
proven resin system that reduces VOC emissions
when compared to standard orthophthalic resin
systems.

Altek H800-TVA-18 is non-air inhibited and cures
tack free when properly initiated, making it ideal for
use in fiberglass repairs.

Typical Cast Mechanical Properties*
1
See Back Page

Test Unit of Measure Nominal ISO Methods
Tensile Strength psi/MPa 8,900/61.4 ASTM D638
Tensile Modulus psi/GPa 530,000/3.6 ASTM D638
Tensile Elongation % 1.9 ASTM D638
Flexural Strength psi/MPa 14,200/97.3 ASTM D790
Flexural Modulus psi/GPa 580,000/3.9 ASTM D790
Heat Distortion Temp. F/ C @264 psi 212/100 ASTM D648
*Typical properties are not to be construed as specifications.
Typical Liquid Properties*
2
See Back Page
Test Unit of Measure Nominal
Viscosity @77 F/25 C LVF Brookfield,
Spindle #3 @ 60 rpm
cps 600
Thix Ratio, 6/60 – 3.0
Styrene Content % 32
Gel Time, @77 F/25 C ,1.25% DDM-9 minutes 18
Gel to Peak minutes 10
Peak Exotherm F/ C 350/177
Benefits
Improved Cosmetic Appearance
Altek H800-TVA-18 provides a unique, uniform
curing profile with low shrinkage characteris-
tics. This minimizes the cosmetic imperfections
on a gel coat surface caused by print-through
or backup reinforcement members.

Excellent Glass-Wetting Properties
The carefully formulated chemical properties of
Altek H800-TVA-18 provides increased compat-
ibility between glass sizing and the resin sys-
tem. Altek H800-TVA-18 s superior glass wet-
ting ability improves case of roll-out and en-
hances the mechanical properties of the glass
reinforcement composite.

2
Americas
+1 866 319 8827
americas@aocresins.com AOC is a registered trademark of the AOC group of companies.

The user is held responsible for checking the quality, safety and all
other properties of our products prior to use. The information and recommendations contained herein
are to the best of our knowledge accurate and reliable, but no rights whatsoever may be derived by any
party other than those expressly agreed to with a selling entity of the AOC group of companies in a
legally binding agreement. AOC hereby makes no warranty of any kind, express or implied, including
those of merchantability and fitness for purpose. Unless explicitly agreed to in writing by AOC other-
wise, all offers, quotations, sales and deliveries of AOC products are subject to the general conditions of
sale of AOC. Altek

, Atlac

, Atryl

, Beyone

, Chroma-Tek

,, Daron

, Firepel

, Hydropel

, MoldTru

,
NeoMould

, Neoxil

, Palatal

, Palapreg

, Pultru

, Synolite , Vibrin

, Vicast

, Vipel

, the AOC

name, the
AOC logo and the Trusted Solutions

logo are the registered trademarks of the AOC group of companies.

For more information: aocresins.com
Performance Guidelines
A. Keep full strength catalyst levels
between 1.0% – 2.0% of the total
resin weight.

B. Maintain shop temperatures
between 65 F/18 C and 90 F/32 C and
humidity between 40% and 90% will
help the fabricator make a high quality
part. Consistent shop conditions
contribute to consistent gel times
viscosity.

Storage Guidelines
Resins are stable for three months
from date of production when stored
in the original containers away from
sunlight at no more than 70 F/21 C.

During the hot summer months, no
more than two months stability at
86 F/30 C should be anticipated. After
extended storage, some drift may
occur in gel time.

Storage in plastic totes made out of
materials such as polyethylene (PE) or
polypropylene (PP), in particular trans-
lucent PE/PP, will accelerate gel for-
mation and result in a significantly re-
duced storage stability.

Storage of this resin outdoors in trans-
lucent plastic totes may reduce the
storage stability to only a few weeks.
AOC cannot assume responsibility for
gel formation under these storage
conditions.
Application Guidelines
Due to the excellent curing character-
istics of Altek H800-TVA-18 resin,
complete all secondary bonding as
soon as possible. Exposing the lami-
nate to sunlight will result in severe
secondary bonding problems. After 24
hours of cure, it may be necessary to
abrade the laminate to insure good
secondary bonding, especially if the
surface of the laminate is resin rich.
Avoid low fiberglass content and resin
puddling with this product.

To assure adequate bonding to gel
coats, fabricators should pre-wet the
gel coat surface with a thin pass of
catalyzed resin prior to lamination.

Chemical resistance studies indicate
that dicyclopentadiene resins such as
Altek H800-TVA-18 have very poor
resistance to certain hydrophobic liq-
uids, such as hydrocarbons. Fuel stor-
age tanks should not be produced
with the Altek H800-TVA-18 resin.

If your manufacturing needs require a
more corrosion resistant resin, please
contact your AOC representative for
information for technical assistance on
AOC s line of isophthalic or vinyl ester
resins.
ISO 9001:2015 Certified
The Quality Management Systems at
every AOC manufacturing facility have
been certified as meeting ISO
9001:2015 standards. This certification
recognizes that each AOC facility has
an internationally accepted model in
place for managing and assuring qual-
ity. We follow the practices set forth in
this model to add value to the resins
we make for our customers.

Material Safety
See the appropriate Safety Data Sheet
for guidelines.

Test Methods

(1.) Based on tests at 77 F/25 C and 50% relative
humidity. All tests performed on unreinforced
cured resin castings. Thixotropic components, if
applicable, are excluded from casting samples.
Castings are post cured.

(2.) The gel times shown are typical but may be
affected by catalyst, promoter, inhibitor concen-
tration, resin, mold, and shop temperature. Vari-
ations in gelling characteristics can be expected
between different lots of catalysts and at ex-
tremely high humidities. Pigment and/or filler
can retard or accelerate gelation. It is recom-
mended that the fabricator check the gelling
characteristics of a small quantity of resin under
actual operating conditions prior to use.
Altek H800-TVA-18
Polyester Resin
Pub. H800-TVA-18
Last update: January 4, 2023
2023 AOC

CORROSION RESISTANT ISOPHTHALIC
POLYESTER RESIN
Typical Cast Mechanical Properties
1
Test Unit of Measure Nominal Test Method
Tensile Strength psi/MPa 12,100/ 83.4 ASTM D638 / ISO 527-1
Tensile Modulus psi/GPa 550,000/3.8 ASTM D638 / ISO 527-1
Tensile Elongation % 2.8 ASTM D638 / ISO 527-1
Flexural Strength psi/MPa 18,400/127 ASTM D 790 / ISO 178
Flexural Modulus psi/GPa 610,000/ 4.2 ASTM D 790 / ISO 178
Heat Distortion Temp. F/ C@264 psi 224/107 ASTM D648 / ISO 75-A
Barcol Hardness 43 ASTM D2583 / EN 59
Typical Liquid Properties
2
VERSIONS Cps Visc SP Rpm
Thix
Index
Gel
Time
Min
Gel
to
Peak
Min
Peak
Exotherm
( F/ C)
Specific
Gravity
%
Styrene
Content
F701-BBB-00* 400 LV 3 60 NA 16
5 24 300/149 1.08 44
F701-FBB-15* 550 LV 3 60 2.5
2 15
4 12 390/199 1.08 47
F701-FBC-16 600 LV 3 60 2.5
2 16
4 10 392/200 1.06 48
F701-FBL-20 600 RV 2 20 2.5
1 20
3 8 380/193 1.06 48
F701-FBM-11
9 300 LV 2 60 2.5
2 11
4 10 401/205 1.08 48
F701-FBN-15* 550 LV 3 60 2.5
2 15
4 10 390/199 1.06 48
F701-FBN-28* 550 LV 3 60 2.5
2 28
4 10 390/199 1.06 48
F701-FBP-15
8 550 LV 3 60 2.5
2 15
4 10 390/199 1.06 48
F701-FBY-45 700 LV 3 60 2.5
2 45
4 20 330/166 1.08 44
F701-PTC-30* 600 LV 3 60 2.3
2 30
– – 1.06
44
F701-PTC-35* 600 LV 3 60 2.3
2 35
– – 1.06 44
F701-VTA-33 450 LV 3 60 2.8
2 32
7 11 396/202 1.06 36
Typical properties are not to be construed as specifications.
DESCRIPTION
AOC’s Vipel F701 Series resins are high
molecular weight, two-stage isophthalic,
unsaturated polyester resin with the wet
out, cure and handling characteristics of
general purpose resins.

They have an excellent shelf life and are
ideal for filament winding and spray-up.

APPLICATION
Solvent resistance is field-proven for
many petroleum products such as kero-
sene, heating oil and crude oils.

BENEFITS
Corrosion resistance
AOC’s Vipel
F701 series resins provide
excellent corrosion resistance when used
in contact with inorganic and organic ac-
ids.

Refer to AOC’s “Corrosion Resistant Resin
Guide” for corrosion resistance infor-
mation or for questions regarding suitabil-
ity of a resin to any particular chemical
environment contact AOC.

Versatile
Suitable for various fabricating methods
such as hand lay-up, spray-up and fila-
ment winding.

Food and Drug
*Many resins listed on this product data
sheet are manufactured from raw materi-
als that are listed in FDA regulation Title
21 CFR 177.2420. Please consult AOC on
specific versions.

It is the fabricators responsibility to be
sure that the final composite is well
cured. All composites used for FDA appli-
cations should be post cured at
180 F/82 C for at least 4 hours. After
post curing, laminate should be washed
with soap and water and then rinsed.

1) 2/20 rpm Thix Index
2) 6/60 rpm Thix Index
3) 77 F/25 C Gel Time with 1.0% MEKP-9H
4) 77 F/25 C Gel Time with 1.25% MEKP DDM-9

5) Gel Time with 0.25% Cobalt 6% and 1.25% MEKP-900
6) 180 F/82 C SPI gel with 1.0% BPO
7) Gel time with 1.5% Norox HDP-75
8) F701-FBP-15 is pigmented black
9) F701-FBM-11 is pigmented grey

VIPEL
F701 SERIES CORROSION RESISTANT
ISOPHTHALIC POLYESTER RESIN

Cobalt Naphthenate (6%) & DMA with Hipoint 90 – MEKP 925H
Resin Temperature ( F) 60s 70s 90s
10 20 min.
No Data
15 16
MEKP, % 1.0 1.0
CoNAP, % 0.6 0.2

20 40 min. 23 24
No Data MEKP, % 1.0 1.5
CoNAP, % 0.6 0.2

40 60 min. 70 43
No Data MEKP, % 1.0 1.0
CoNAP, % 0.2 0.2

TEMPERATURE,
F/ C
TENSILE
STRENGTH,
psi/Mpa
TENSILE
MODULUS,
psi/Gpa
FLEXURAL
STRENGTH,
psi/Mpa
FLEXURAL
MODULUS,
psi/Gpa
77/25 17,100/118 1,800,000/12.4 27,400/189 1,520,000/10.5
200/93 20,800/143 1,540,000/10.6 28,400/196 1,080,000/7.4
250/121 16,000/110 1,230,000/8.5 10,700/74 560,000/3.9
300/149 11,300/78 1,160,000/8.0 4,400/30 430,000/3.0
350/177 3,800/26 410,000/2.8
Mechanical Properties of Vipel F701 Laminates with Increasing Temperature

AOC World Headquarters
955 Highway 57 East, Collierville, TN 38017

+01 901.854.2800
AOC-Resins.com

SALES CONTACTS
NORTH AMERICA
Toll free: +1 866 319 8827
northamerica@aoc-resins.com
EUROPE
+44 1206 390415
europe@aoc-resins.com
INDIA
+44 1206 390415
india@aoc-resins.com
LATIN AMERICA
+01 863 815 5016
latinamerica@aoc-resins.com
AOC UK LTD.
+44 01206 390400
salesUK@aoc-resins.com
ASIA/AUSTRALIA
+44 1206 390415
asia@aoc-resins.com
MIDDLE EAST
+44 1206 390415
middleeast@aoc-resins.com

AOC is a registered trademark of AOC, LLC.
The information contained in this data sheet is based on laboratory data and field experience. We believe this information to be reliable, but do not guarantee its applicability to the user s
process or assume any liability for occurrences arising out of its use. The user, by accepting the products described herein, agrees to be responsible for thoroughly testing
each such product before committing to production. Our recommendations should not be taken as inducements to infringe any patent or violate any law, safety code or insurance regulation.
T h i s data sheet and its contents are the confidential and proprietary information of AOC and it may not be modified altered deconstructed or presented in any other manner without the explicit authorization of AOC and/or its legal
counsel.
VIPEL
F701 SERIES CORROSION RESISTANT
ISOPHTHALIC POLYESTER RESIN

PERFORMANCE GUIDELINES
A. Keep full strength catalyst levels
between 1.0% – 2.0% of the total resin
weight.

B. Maintain shop temperatures be-
tween 65 F/18 C and 90 F/32 C and
humidity between 40% and 90%. Con-
sistent shop conditions contribute to
consistent gel times and will help the
fabricator make a high quality part.

C. Sanding and/or grinding is recom-
mended if a secondary bond is applied
to a laminate that was made with a
resin containing wax.
STORAGE STABILITY
Vipel F701-BBB-00 is stable for 6
months from the date of manufacture
when stored in original containers,
away from direct sunlight or other UV
light sources and at or below
77 F/25 C.

All other Vipel F701 products are sta-
ble for 3 months from the date of
manufacture when stored in the origi-
nal containers, away from direct sun-
light or other UV light sources and at
or below 77 F/25 C.

SAFETY
See the appropriate Safety Data Sheet
for guidelines.
ISO 9001:2015 CERTIFIED
The Quality Management Systems at
every AOC manufacturing facility have
been certified as meeting ISO
9001:2015 standards. This certifica-
tion recognizes that each AOC facility
has an internationally accepted model
in place for managing and assuring
quality. We follow the practices set
forth in this model to add value to the
resins we make for our customers.

FOOTNOTES

(1.) Based on tests of the unpromoted base resin used
in the manufacture of Vipel F701 series at 77 F/25 C.
All tests performed on unreinforced cured resin cast-
ings. Thixotropic components, if applicable are exclud-
ed from casting samples. Castings were prepared
using 1% BPO and post cured 1 hour at 93 C, 1 hour at
116 C, and 2 hours at 138 C.

(2) The gel times shown are typical but may be affected
by catalyst, promoter, inhibitor concentration, resin,
mold, and shop temperature. Variations in gelling char-
acteristics can be expected between different lots of
catalysts and at extremely high humidities. Pigment
and/or filler can retard or accelerate gelation. It is rec-
ommended that the fabricator check the gelling charac-
teristics of a small quantity of resin under actual operat-
ing conditions prior to use.
Pub. F701 Series
Effective Date: September 2020
Copyright 2020

Initiator
Level/Type

C431-PPC-18 18 mins 25. C
LV 3 @
6/60/6
400/2.3
1.25% MEKP-
925
*Typical properties are not to be construed as specifications.

DESCRIPTION
Altek C431-PPC-18 is AOC s new gen-
eration acrylic bonding resin. It is a
pre-promoted, thixotropic polyester
resin.

APPLICATION
Altek C431-PPC-18 is designed to be
used with filler and has been carefully
engineered to maximize filler loading
without compromising quality of fin-
ished parts. It is used for backing vacu-
umed formed acrylic.

BENEFITS
Unique design for quicker hard-
ness development, which speeds
up mold turnover and increases
rate of production
Excellent adhesive to formed acryl-
ic resulting in greater integrity of
the laminate and finished parts
Capable of higher filler loading
without loss of physical properties
insuring that as filler is increased,
the rate of cracking at demold
does not increase which maximiz-
es the end product
Designed for improved wet out and
roll out of the laminate
ALTEK C431-PPC-18
POLYESTER RESIN

AOC World Headquarters
955 Highway 57 East, Collierville, TN 38017

+01 901.854.2800
AOC-Resins.com

SALES CONTACTS
NORTH AMERICA
Toll free: +1 866 319 8827
northamerica@aoc-resins.com
EUROPE
+44 1206 390415
europe@aoc-resins.com
INDIA
+44 1206 390415
india@aoc-resins.com
LATIN AMERICA
+01 863 815 5016
latinamerica@aoc-resins.com
AOC UK LTD.
+44 01206 390400
salesUK@aoc-resins.com
ASIA/AUSTRALIA
+44 1206 390415
asia@aoc-resins.com
MIDDLE EAST
+44 1206 390415
middleeast@aoc-resins.com

AOC is a registered trademark of AOC, LLC.
The information contained in this data sheet is based on laboratory data and field experience. We believe this information to be reliable, but do not guarantee its applicability to the user s process or
assume any liability for occurrences arising out of its use. The user, by accepting the products described herein, agrees to be responsible for thoroughly testing each such product before commit-
ting to production. Our recommendations should not be taken as inducements to infringe any patent or violate any law, safety code or insurance regulation. This data sheet and its contents are the
confidential and proprietary information of AOC and it may not be modified altered deconstructed or presented in any other manner without the explicit authorization of AOC and/or its legal counsel.
ALTEK
C431-PPC-18 POLYESTER RESIN
PERFORMANCE GUIDELINES
A. Keep full strength catalyst levels
between 1.0% – 2.0% (1.25% mini-
mum with mechanical application)
of the total resin weight.

B. Maintaining shop temperatures be-
tween 65 F/18 C and 90 F/32 C
and humidity between 40% and 90%
will help the fabricator make a high
quality part. Consistent shop condi-
tions contribute to consistent gel times
viscosity.

STORAGE STABILITY
Resins are stable for three months
from the date of manufacture when
stored in the original containers, away
from sunlight at no more than
70 F/21 C. After extended storage,
some drift may occur in gel time.

During the hot summer months, no
more than two months stability at
86 F/30 C should be anticipated.

Storage in plastic totes made out of
materials such as polyethylene (PE) or
polypropylene (PP), in particular trans-
lucent PE/PP, will accelerate gel for-
mation and result in a significantly
reduced storage stability.

Storage of this resin outdoors in
translucent plastic totes may reduce
the storage stability to only a few
weeks. AOC cannot assume responsi-
bility for gel formation under these
storage conditions.

APPLICATION GUIDELINES
Due to the excellent curing character-
istics of the Altek C431-PPC-18 resin,
complete all secondary bonding as
soon as possible. Exposing the lami-
nate to sunlight will result in severe
secondary bonding problems. After 24
hours of cure, it may be necessary to
abrade the laminate to insure good
secondary bonding, especially if the
surface of the laminate is resin rich.
Avoid low fiberglass content and resin
puddling with this product.

Caution:
The ability of an unsaturated polyester
resin to bond to acrylic is influenced by
many factors. Resin is only one of
these factors. The type and amount of
filler used, type and color of acrylic
used, and the conditions during the
thermoforming process are but a few
of the factors that effect the ability of
the resin to bond to the acrylic. There-
fore, it is vitally important that the fab-
ricators evaluate for themselves the
fitness of this product for their pro-
cess.

To insure high quality fabricated parts,
AOC strongly encourages fabricators to
utilize “Best Practices Guidelines” for
polyester resin, ABS and acrylic sheet.

SAFETY
See the appropriate Safety Data Sheet
for guidelines.

ISO 9001:2015 CERTIFIED
The Quality Management Systems at
every AOC manufacturing facility have
been certified as meeting ISO
9001:2015 standards. This certifica-
tion recognizes that each AOC facility
has an internationally accepted model
in place for managing and assuring
quality. We follow the practices set
forth in this model to add value to the
resins we make for our customers.

FOOTNOTES

(1.) Based on tests of at 77 F/25 C and 50%
relative humidity. All tests performed on unrein-
forced cured resin castings. Castings were post
cured.
(2.) The gel times shown are typical but may be
affected by catalyst, promoter, inhibitor concentra-
tion, resin, mold, and shop temperature. Variations
in gelling characteristics can be expected between
different lots of catalysts and at extremely high
humidities. Pigment and/or filler can retard or
accelerate gelation. It is recommended that the
fabricator check the gelling characteristics of a
small quantity of resin under actual operating
conditions prior to use.
Pub. C431-C SERIES NA
Effective Date: October 2019
Copyright 2019

Initiator
Level/Type

C431-PPC-18 18 mins 25. C
LV 3 @
6/60/6
400/2.3
1.25% MEKP-
925
*Typical properties are not to be construed as specifications.

DESCRIPTION
Altek C431-PPC-18 is AOC s new gen-
eration acrylic bonding resin. It is a
pre-promoted, thixotropic polyester
resin.

APPLICATION
Altek C431-PPC-18 is designed to be
used with filler and has been carefully
engineered to maximize filler loading
without compromising quality of fin-
ished parts. It is used for backing vacu-
umed formed acrylic.

BENEFITS
Unique design for quicker hard-
ness development, which speeds
up mold turnover and increases
rate of production
Excellent adhesive to formed acryl-
ic resulting in greater integrity of
the laminate and finished parts
Capable of higher filler loading
without loss of physical properties
insuring that as filler is increased,
the rate of cracking at demold
does not increase which maximiz-
es the end product
Designed for improved wet out and
roll out of the laminate
ALTEK C431-PPC-18
POLYESTER RESIN

AOC World Headquarters
955 Highway 57 East, Collierville, TN 38017

+01 901.854.2800
AOC-Resins.com

SALES CONTACTS
NORTH AMERICA
Toll free: +1 866 319 8827
northamerica@aoc-resins.com
EUROPE
+44 1206 390415
europe@aoc-resins.com
INDIA
+44 1206 390415
india@aoc-resins.com
LATIN AMERICA
+01 863 815 5016
latinamerica@aoc-resins.com
AOC UK LTD.
+44 01206 390400
salesUK@aoc-resins.com
ASIA/AUSTRALIA
+44 1206 390415
asia@aoc-resins.com
MIDDLE EAST
+44 1206 390415
middleeast@aoc-resins.com

AOC is a registered trademark of AOC, LLC.
The information contained in this data sheet is based on laboratory data and field experience. We believe this information to be reliable, but do not guarantee its applicability to the user s process or
assume any liability for occurrences arising out of its use. The user, by accepting the products described herein, agrees to be responsible for thoroughly testing each such product before commit-
ting to production. Our recommendations should not be taken as inducements to infringe any patent or violate any law, safety code or insurance regulation. This data sheet and its contents are the
confidential and proprietary information of AOC and it may not be modified altered deconstructed or presented in any other manner without the explicit authorization of AOC and/or its legal counsel.
ALTEK
C431-PPC-18 POLYESTER RESIN
PERFORMANCE GUIDELINES
A. Keep full strength catalyst levels
between 1.0% – 2.0% (1.25% mini-
mum with mechanical application)
of the total resin weight.

B. Maintaining shop temperatures be-
tween 65 F/18 C and 90 F/32 C
and humidity between 40% and 90%
will help the fabricator make a high
quality part. Consistent shop condi-
tions contribute to consistent gel times
viscosity.

STORAGE STABILITY
Resins are stable for three months
from the date of manufacture when
stored in the original containers, away
from sunlight at no more than
70 F/21 C. After extended storage,
some drift may occur in gel time.

During the hot summer months, no
more than two months stability at
86 F/30 C should be anticipated.

Storage in plastic totes made out of
materials such as polyethylene (PE) or
polypropylene (PP), in particular trans-
lucent PE/PP, will accelerate gel for-
mation and result in a significantly
reduced storage stability.

Storage of this resin outdoors in
translucent plastic totes may reduce
the storage stability to only a few
weeks. AOC cannot assume responsi-
bility for gel formation under these
storage conditions.

APPLICATION GUIDELINES
Due to the excellent curing character-
istics of the Altek C431-PPC-18 resin,
complete all secondary bonding as
soon as possible. Exposing the lami-
nate to sunlight will result in severe
secondary bonding problems. After 24
hours of cure, it may be necessary to
abrade the laminate to insure good
secondary bonding, especially if the
surface of the laminate is resin rich.
Avoid low fiberglass content and resin
puddling with this product.

Caution:
The ability of an unsaturated polyester
resin to bond to acrylic is influenced by
many factors. Resin is only one of
these factors. The type and amount of
filler used, type and color of acrylic
used, and the conditions during the
thermoforming process are but a few
of the factors that effect the ability of
the resin to bond to the acrylic. There-
fore, it is vitally important that the fab-
ricators evaluate for themselves the
fitness of this product for their pro-
cess.

To insure high quality fabricated parts,
AOC strongly encourages fabricators to
utilize “Best Practices Guidelines” for
polyester resin, ABS and acrylic sheet.

SAFETY
See the appropriate Safety Data Sheet
for guidelines.

ISO 9001:2015 CERTIFIED
The Quality Management Systems at
every AOC manufacturing facility have
been certified as meeting ISO
9001:2015 standards. This certifica-
tion recognizes that each AOC facility
has an internationally accepted model
in place for managing and assuring
quality. We follow the practices set
forth in this model to add value to the
resins we make for our customers.

FOOTNOTES

(1.) Based on tests of at 77 F/25 C and 50%
relative humidity. All tests performed on unrein-
forced cured resin castings. Castings were post
cured.
(2.) The gel times shown are typical but may be
affected by catalyst, promoter, inhibitor concentra-
tion, resin, mold, and shop temperature. Variations
in gelling characteristics can be expected between
different lots of catalysts and at extremely high
humidities. Pigment and/or filler can retard or
accelerate gelation. It is recommended that the
fabricator check the gelling characteristics of a
small quantity of resin under actual operating
conditions prior to use.
Pub. C431-C SERIES NA
Effective Date: October 2019
Copyright 2019

Vicast A717-L Series is designed to
provide extreme versatility in select-
ing the combination of gel time and
viscosity that suits the specific man-
ufacturing process, working condi-
tions and raw materials.

BENEFITS
Premium ISO/NPG polymer

Acrylic modified

Low color

Fast cure

Excellent stain and blush re-
sistance

Increased UV stability

Consistent, accurate coloring of
cured solid surface

Fast demold
Typical Liquid Properties
2
Versions MEKP %
Gel
Time,
Min
Gel to
Peak
Peak
Exotherm
( F/ C)
VISC SP rpm cps NVM %
A717-LBA-10 DDM-9 1 10 10 361/183 LVSSA
1 34 60 700 65
A717-LBA-20 DDM-9 1 20 10 352/178 LVSSA
1 34 60 700 65
A717-LBB-20 DDM-9 1 20 14 347/175 LVSSA
1 34 20 700 65
A717-LRB-25 DDM-9 1 25 10 352/178 LVSSA
1 34 60 700 65
A717-LRD-20 DDM-9 1 20 13 352/178 LVSSA
1 34 60 700 65

AOC World Headquarters
955 Highway 57 East, Collierville, TN 38017

+01 901.854.2800
AOC-Resins.com

SALES CONTACTS
NORTH AMERICA
Toll free: +1 866 319 8827
northamerica@aoc-resins.com
EUROPE
+44 1206 390415
europe@aoc-resins.com
INDIA
+44 1206 390415
india@aoc-resins.com
LATIN AMERICA
+01 863 815 5016
latinamerica@aoc-resins.com
AOC UK LTD.
+44 1206 390400
salesUK@aoc-resins.com
ASIA/AUSTRALIA
+44 1206 390415
asia@aoc-resins.com
MIDDLE EAST
+44 1206 390415
middleeast@aoc-resins.com

AOC is a registered trademark of AOC, LLC.
The information contained in this data sheet is based on laboratory data and field experience. We believe this information to be reliable, but do not guarantee its applicability to the user s process or
assume any liability for occurrences arising out of its use. The user, by accepting the products described herein, agrees to be responsible for thoroughly testing each such product before commit-
ting to production. Our recommendations should not be taken as inducements to infringe any patent or violate any law, safety code or insurance regulation. This data sheet and its contents are the
confidential and proprietary information of AOC and it may not be modified altered deconstructed or presented in any other manner without the explicit authorization of AOC and/or its legal counsel.
VICAST

A717-L SERIES POLYESTER RESIN
PERFORMANCE GUID ELINES
A. Keep full strength catalyst levels
between 1.0% – 2.0% of the total resin
weight.

B. Maintaining shop temperatures
between 65 F/ 18 C and 90 F/32 C
and humidity between 40% and 90%
will help the fabricator make a high
quality part. Consistent shop conditions
contribute to consistent gel times.

C. Sanding and/or grinding is recom-
mended if a secondary bond is applied
to a laminate that was made with a
resin containing wax.
STORAGE STABILITY
This product is stable for three months
from the date of manufacture when
stored in the original containers, away
from direct sunlight or other UV light
sources and at or below 77 F/25 C.

Storage stability of two months or less
should be anticipated if the storage
temperature exceeds 86 F/30 C.

After extended storage, some drift may
occur in the product viscosity and gel
time.

SAFETY
See the appropriate Safety Data Sheet
for guidelines.

ISO 9001:2008 CERTIFIED
The Quality Management Systems at
every AOC manufacturing facility have
been certified as meeting ISO
9001:2008 standards. This certifica-
tion recognizes that each AOC facility
has an internationally accepted model
in place for managing and assuring
quality. We follow the practices set
forth in this model to add value to the
resins we make for our customers.

FOOTNOTES
(1.) Based on tests at 77 F/25 C and 50% rela-
tive humidity. All tests performed on unreinforced
cured resin castings. Thixotropic components, if
applicable, are excluded from casting samples.
Castings were post cured.

(2.) The gel times shown are typical but may be affected
by catalyst, promoter, inhibitor concentration, resin,
mold, and shop temperature. Variations in gelling char-
acteristics can be expected between different lots of
catalysts and at extremely high humidities. Pigment
and/or filler can retard or accelerate gelation. It is rec-
ommended that the fabricator check the gelling charac-
teristics of a small quantity of resin under actual operat-
ing conditions prior to use.
Pub. A717-L SERIES
Effective Date: June 2017
Copyright 2017

APPLICATION
AOC’s Altek R589 Series is used in
RTM (Resin Transfer Molding) and
RTML processes. Uses range from RV
parts to fan shrouds and other special
need applications.

BENEFITS
This resin is characterized by its:
Low viscosity
Rapid wet-out
Superior physical properties

AOC World Headquarters
955 Highway 57 East, Collierville, TN 38017

+01 901.854.2800
AOC-Resins.com

SALES CONTACTS
NORTH AMERICA
Toll free: +1 866 319 8827
northamerica@aoc-resins.com
EUROPE
+44 1206 390415
europe@aoc-resins.com
INDIA
+44 1206 390415
india@aoc-resins.com
LATIN AMERICA
+01 863 815 5016
latinamerica@aoc-resins.com
AOC UK LTD.
+44 01206 390400
salesUK@aoc-resins.com
ASIA/AUSTRALIA
+44 1206 390415
asia@aoc-resins.com
MIDDLE EAST
+44 1206 390415
middleeast@aoc-resins.com

AOC is a registered trademark of AOC, LLC.
The information contained in this data sheet is based on laboratory data and field experience. We believe this information to be reliable, but do not guarantee its applicability to the user s
process or assume any liability for occurrences arising out of its use. The user, by accepting the products described herein, agrees to be responsible for thoroughly testing
each such product before committing to production. Our recommendations should not be taken as inducements to infringe any patent or violate any law, safety code or insurance regulation.
Data Sheet and its contents are the confidential and proprietary information of AOC and it may not be modified altered deconstructed or presented in any other manner without the explicit authorization of AOC and/or its legal counsel.
ALTEK

R589 SERIES POLYESTER RESIN
PERFORMANCE GUID ELINES
A. Keep full strength catalyst lev-
els between 1.0% – 2.0% of the to-
tal resin weight.

B. Maintain shop temperatures be-
tween 65 F/18 C and 90 F/32 C
and humidity between 40% and
90%. Consistent shop conditions
contribute to consistent gel time
and will help the fabricator make a
high quality part.

C. Sanding and/or grinding is rec-
ommended if a secondary bond is
applied to a laminate that was
made with a resin containing wax.

STORAGE STABILITY
This product is stable for three
months from the date of manufac-
ture when stored in the original con-
tainers, away from direct sunlight or
other UV light sources and at or be-
low 77 F/25 C.

After extended storage, some drift
may occur in the product viscosity
and gel time.

SAFETY
See the appropriate Safety Data Sheet
for guidelines.

ISO 9001:2008 CERTIFIED
The Quality Management Systems at
every AOC manufacturing facility have
been certified as meeting ISO
9001:2008 standards. This certifica-
tion recognizes that each AOC facility
has an internationally accepted model
in place for managing and assuring
quality. We follow the practices set
forth in this model to add value to the
resins we make for our customers.

FOOTNOTES
(1.) Based on tests at 77 F/25 C and 50% rela-
tive humidity. All tests performed on unreinforced
cured resin castings. Thixotropic components, if
applicable, are excluded from casting samples.
Castings were post cured.

(2.) The gel times shown are typical but may be
affected by catalyst, promoter, inhibitor concentra-
tion, resin, mold, and shop temperature. Variations
in gelling characteristics can be expected between
different lots of catalysts and at extremely high
humidities. Pigment and/or filler can retard or
accelerate gelation. It is recommended that the
fabricator check the gelling characteristics of a
small quantity of resin under actual operating
conditions prior to use.
Pub. R589 Series NA
Effective Date: Feb. 2017
Copyright 2017

CORVE8730 is a non-promoted, epoxy novolac-based vinyl ester resin. This high cross-link density resin has a heat
distortion point of 280 F (138 C) and exceptional chemical resistance. Typical uses are filament winding and hand lay-up
of reinforced plastic tanks, pipe and process equipment, etc. Its high heat distortion point also makes this resin an
outstanding choice for high temperature applications.

FEATURES BENEFITS
High Physical Properties Makes extremely tough composites
Highly Versatile Viscosity Properties Formulated for spray-up and hand lay-up needs
Non-Promoted Resin System Able to adapt to customer-specific conditions
Outstanding Corrosion Resistance Resists caustic and solvent with hydrolytic stability
High Heat Distortion Resistance Maintains dimensional stability

RELATED PRODUCTS GEL TIME
MVR8071-40 35-43 Minutes

LIQUID PROPERTIES RESULTS
Viscosity, Brookfield Model LV, #3 Spindle @ 60 rpm, 77 F (25 C), cPs 250-400
100 grams resin @ 77 F (25 C), promoted with 0.20 gram of 12% cobalt, initiated
with 1.2% MEKP-925H by volume*

Gel Time, min:sec 16:00-19:00
Gel to Peak Exotherm Time, min:sec 6:00-14:00
Peak Exotherm 370-410 F (187-210 C)
Non-Volatile Content, % 62.0-66.5
Hazardous Air Pollutant (Styrene) Content, % 33.5-38.0
Specific Gravity 1.05-1.09

TYPICAL PROPERTIES
Thickness 1/8 inch (3.2 mm) Casting
Construction Not Applicable
Flexural Strength, ASTM D790 18,400 psi 127 MPa
Flexural Modulus, ASTM D790 5.2 x 10
5
psi 3,586 MPa
Tensile Strength, ASTM D638 10,400 psi 72 MPa
Tensile Modulus, ASTM D638 5.3 x 10
5
psi 3,655 MPa
Tensile Elongation, ASTM D638 3.0 % 3.0 %
Barcol Hardness, 934-1 gauge, ASTM D2583 38 38
Heat Distortion Temperature, ASTM D648 280 F 138 C
Specific Gravity, ASTM D792 1.19 1.19
*Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (catalyst), shop temperature, humidity, and type of fillers used. In order to meet
your individual needs consult our technical sales representative for assistance. If using methyl ethyl ketone peroxide (MEKP) to gel and cure CoREZYN vinyl ester resins,
we recommend only these three brands: Cadox L-50a (Nouryon), Luperox DHD-9 (Arkema), and Norox MEKP-925 (United Initiators). These must be used at the
appropriate percentage and suitable temperature. Contact your Interplastic Corporation representative for assistance.

CORVE8730
Vinyl Resin
Technical Data Sheet

INTERPLASTIC CORPORATION MAKES NO WARRANTIES REGARDING ANY MATERIAL AND/OR SAMPLES DESCRIBED IN THIS
REPORT. ALL PROPERTIES SPECIFIED ABOVE ARE APPROXIMATE AND MAY VARY FROM MATERIAL DELIVERED. DELIVERED
MATERIAL COMPLIES WITH THE CERTIFICATE OF ANALYSIS ON EACH SHIPMENT OF PRODUCT. INTERPLASTIC CORPORATION
MAKES NO REPRESENTATIONS OF FACT REGARDING THE MATERIAL EXCEPT THOSE SPECIFIED ABOVE. FINAL DETERMINATION
OF PART OR APPLICATION AND THE SUITABILITY OF THE MATERIAL FOR THE USE CONTEMPLATED IS THE SOLE
RESPONSIBILITY OF THE BUYER. OUR TECHNICAL SALES REPRESENTATIVES WILL ASSIST IN DEVELOPING PROCEDURES TO FIT
INDIVIDUAL REQUIREMENTS AS A CUSTOMER ACCOMMODATION, BUT ALL ADVICE IS ACCEPTED AT YOUR RISK AND SHOULD
BE CHECKED FOR SUITABILITY TO YOUR PARTICULAR PROCESSES AND NEEDS. THESE TEST DATA AND PROPERTIES ARE BASED
ON RESULTS OBTAINED FOR A SPECIFIC MATERIAL UNDER THE SPECIFIED TEST CONDITIONS – THEY ARE NOT TO BE USED AS
SPECIFICATIONS AND ARE NOT WARRANTED AS PERFORMANCE ATTRIBUTES FOR ANY PRODUCT OR SYSTEM.
INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 8/18 Page 2 of 2

TYPICAL 100-GRAM CUP GEL TIME CHART FOR LOWER EXOTHERM WITH CUMENE HYDROPEROXIDE (CHP)
Temperature ( F/ C) 12% Cobalt (Wt%) DMA (Wt%) 2,4-Pentanedione (Wt%) CHP (Wt%) Gel Time* (min)
60/16 0.2 0.2 0 1.5 34
60/16 0.2 0.1 0 2 39
60/16 0.2 0.1 0 1.5 48
77/25 0.2 0.2 0 1.5 22
77/25 0.3 0.1 0 1.5 24
77/25 0.2 0.1 0 1.5 29
77/25 0.2 0.1 0 2 30
77/25 0.2 0.1 0.05 1.5 43
77/25 0.3 0.1 0.1 1.5 48
77/25 0.2 0.1 0.1 2 55
77/25 0.2 0.2 0.1 1.5 51
77/25 0.2 0.1 0.1 1.5 63
77/25 0.2 0.1 0.15 1.5 85
90/32 0.2 0.1 0 1.5 15
90/32 0.2 0.1 0.05 1.5 26
90/32 0.2 0.1 0.1 1.5 30
*Gel time is run in a 100-gram mass at the specified temperature.

INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 9/16

CORVE8441B is a promoted, thixotropic, corrosion resistant, fire retardant, vinyl ester resin that meets the Flame Grade
A, Physicals Grade A, and Electrical Class O requirements of MIL-R-21607E (SH) and is on the QPL-21607-29 list. This
product also meets the Grade B and Class 1 and Class 2 requirements of MIL-R-24719 (SH).

RELATED PRODUCTS GEL TIME
CORVE8441BW 8-12 Minutes
CORVE8441BS 25-30 Minutes

LIQUID PROPERTIES RESULTS
Viscosity, Brookfield Model LV #3 Spindle @ 60 rpm, 77 F (25 C), cPs 450-550
Thixotropic Index 1.6-2.0
100 grams resin @ 77 F (25 C), initiated with 1.2cc MEKP-925H *
Gel Time, min:sec 15:00-20:00
Gel to Peak Exotherm Time, min:sec 12:00-17:00
Peak Exotherm 320-350 F (160-176 C)
Non-Volatile Content, % 57.0-62.0
Hazardous Air Pollutant (Styrene) Content, % 38.0-43.0
Acid Value (solids) 10-17
Specific Gravity 1.13-1.16

TYPICAL PROPERTIES
Thickness 1/8 inch (3.2 mm) Casting
Construction Not Applicable
Flexural Strength, ASTM D790 16,600 psi 115 MPa
Flexural Modulus, ASTM D790 4.7 x 10
5
psi 3,241 MPa
Tensile Strength, ASTM D638 11,700 psi 81 MPa
Tensile Modulus, ASTM D638 4.8 x 10
5
psi 3,331 MPa
Tensile Elongation, ASTM D638 4.5 % 4.5 %
Barcol Hardness, 934-1 gauge, ASTM D2583 40 40
Heat Distortion Temperature, ASTM D648 230 F 110 C
* Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (catalyst), shop temperature, humidity, and type of fillers used. In order to meet
your individual needs consult our technical sales representative for assistance. If using methyl ethyl ketone peroxide (MEKP) to gel and cure CoREZYN vinyl ester
resins, we recommend only these three brands: Cadox L-50a (Akzo Nobel); Luperox DHD-9 (Arkema); and Norox MEKP-925H (United Initiators). These must be
used at the appropriate percentage and suitable temperature. Contact your Interplastic Corporation representative for assistance.

TYPICAL FLAME TEST PROPERTIES
Thickness 1/8 inch (3.2 mm) Laminate
Construction 4 Plies 1.5 oz/ft
2
, 33% Glass Mat
ASTM D635, Horizontal Burn Rate < 1 ASTM E84, Flame Spread 26.2 ASTM E84, Smoke Density 1,288 UL 94 (This is not to imply UL warranty) (V-O) (HB < 1 ) (5V Pass) HLT 15 100 CORVE8441B Thixotropic Vinyl Ester Resin Technical Data Sheet

INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 2/18

CORVE8440 is a non-promoted, fire retardant, vinyl ester resin. It has an ASTM E84 Tunnel Test flame spread rating of
<75 (Class 2 flame spread) without additives and < 25 (Class 1 flame spread) with the addition of 1.5% antimony trioxide. FEATURES BENEFITS Brominated Version of CORVE8300 Very versatile and widely used vinyl ester resin Highly Corrosion Resistant Resists acid, alkali, and oxidizing chemical environments Contains 40% Styrene Meets many requirements for low HAP content Excellent Physical Properties Suitable for tanks, pipe, and process equipment Non-Promoted Resin System Adjustable for most customer applications LIQUID PROPERTIES RESULTS Viscosity, Brookfield Model LV, #3 Spindle @ 60 rpm, 77 F (25 C), cPs 450-550 100 grams resin @ 77 F (25 C), promoted with 0.20 grams of 12% Cobalt and 0.05 grams N,N-Dimethylaniline, initiated with 1.2% MEKP-925H by volume * Gel Time, min:sec 16:00-19:00 Gel to Peak Exotherm Time, min:sec 9:30-15:00 Peak Exotherm 315-355 F (157-179 C) Non-Volatile Content, % 58.5-61.5 Hazardous Air Pollutant (Styrene) Content, % 38.5-41.5 Specific Gravity 1.14-1.17 TYPICAL PROPERTIES Thickness 1/8 inch (3.2 mm) Casting 1/8 inch (3.2 mm) Laminate Construction Not Applicable 4 Plies 1.5 oz/ft 2 , 33% Glass Mat Flexural Strength, ASTM D790 22,000 psi 150 MPa 25,400 psi 175 MPa Flexural Modulus, ASTM D790 5.6 x 10 5 psi 3,800 MPa 11.0 x 10 5 psi 7,586 MPa Tensile Strength, ASTM D638 13,000 psi 89 MPa 13,900 psi 85.8 MPa Tensile Modulus, ASTM D638 5.1 x 10 5 psi 3,500 MPa 12.8 x 10 5 psi 8,828 MPa Tensile Elongation, ASTM D638 6.4 % 6.4 % 1.4 % 1.4 % Barcol Hardness, 934-1 gauge, ASTM D2583 34 34 44-48 44-48 Heat Distortion Temperature, ASTM D648 220 F 104 C >400 F >200 C
* Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (catalyst), shop temperature, humidity, and type of fillers used. In order to meet
your individual needs consult our technical sales representative for assistance. If using methyl ethyl ketone peroxide (MEKP) to gel and cure CoREZYN vinyl ester resins
we recommend only these three brands: Cadox L-50a (Nouryon); Luperox DHD-9 (Arkema); and Norox MEKP-925H (United Initiators). These must be used at the
appropriate percentage and suitable temperature. Contact your Interplastic Corporation representative for assistance.

FLAME TEST PROPERTIES
Thickness 1/8 inch (3.2 mm) Laminate
Construction 4 Plies 1.5 oz/ft
2
, 33% Glass Mat
ASTM E84, Flame Spread 45
ASTM E84, Flame Spread (with 1.5% Antimony Trioxide added to the resin) 15
ASTM E84, Flame Spread (with 3.75 % Nyacol APE 3040 added to the resin) 20
ASTM D635, Horizontal Burn Rate < 1 UL 94 **This is not to imply UL warranty (V-O) (HB < 1 ) (5V Pass) HLT 15 20 CORVE8440 Fire Retardant Vinyl Ester Resin Technical Data Sheet

INTERPLASTIC CORPORATIO N
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 1/18

CORVE8401 is a promoted, fire retardant, vinyl ester resin. This resin has a flame spread rating of < 25 (Class 1) per ASTM E84 Tunnel Test without additives. Contact your Interplastic Corporation representative for specific corrosion recommendations. FEATURES BENEFITS Flame Spread Rating < 25 per ASTM E84 No additives to cloud laminates; easy inspections Highly Corrosion Resistant Resists acid, alkali, and oxidizing chemical environments Excellent Physical Properties Suitable for tanks, pipe, and process equipment RELATED PRODUCTS GEL TIME CORVE8401W 8.5-11.5 Minutes CORVE8401S 32-40 Minutes LIQUID PROPERTIES RESULTS Viscosity, Brookfield Model LV #3 Spindle @ 60 rpm, 77 F (25 C), cPs 400-600 100 grams resin @ 77 F (25 C), initiated with 1.2% MEKP-925H by volume * Gel Time, min:sec 16:00-19:00 Gel to Peak Exotherm Time, min:sec 9:00-20:00 Peak Exotherm 300-350 F (149-177 C) HAP Content, % 37.0-42.0 Specific Gravity 1.15-1.17 TYPICAL PROPERTIES Thickness 1/8 inch (3.2 mm) Casting 1/8 inch (3.2 mm) Laminate Construction Not Applicable 4 Plies 1.5 oz/ft 2 , 33% Glass Mat Flexural Strength, ASTM D790 22,000 psi 150 MPa 25,400 psi 175 MPa Flexural Modulus, ASTM D790 5.6 x 10 5 psi 3,800 MPa 11.0 x 10 5 psi 7,586 MPa Tensile Strength, ASTM D638 13,000 psi 89 MPa 13,900 psi 85.8 MPa Tensile Modulus, ASTM D638 5.1 x 10 5 psi 3,500 MPa 12.8 x 10 5 psi 8,828 MPa Tensile Elongation, ASTM D638 6.4 % 6.4 % 1.4 % 1.4 % Barcol Hardness, 934-1 gauge, ASTM D2583 34 34 44-48 44-48 Heat Distortion Temperature, ASTM D648 220 F 104 C -- F -- C * Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (catalyst), shop temperature, humidity, and type of fillers used. In order to meet your individual needs consult our technical sales representative for assistance. If using methyl ethyl ketone peroxide (MEKP) to gel and cure CoREZYN vinyl ester resins we recommend only these three brands: Cadox L-50a (Akzo Nobel); Luperox DHD-9 (Arkema); and Norox MEKP-925H (United Initiators). These must be used at the appropriate percentage and suitable temperature. Contact your Interplastic Corporation representative for assistance. FLAME TEST PROPERTIES Thickness 1/8 inch (3.2 mm) Laminate Construction 4 Plies 1.5 oz/ft 2 , 33% Glass Mat ASTM D635, Horizontal Burn Rate < 1 ASTM E84, Flame Spread 25 UL 94 **This is not to imply UL warranty (V-O) (HB < 1 ) (5V Pass) HLT 15 100 CORVE8401 Fire Retardant Vinyl Ester Resin Technical Data Sheet

INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com

Revised: 9/21/17

CORVE8425 is a corrosion resistant, promoted, thixotropic vinyl ester resin for use in open molding applications.

FEATURES BENEFITS
100% Vinyl Ester Resin Excellent physical and corrosion properties
Promoted Resin System Ready for immediate use in customer applications
Class 1 Out of the Drum No special mixing equipment or other materials needed
Contains Less Than 46.2% Styrene (HAP) Federal MACT-Open Molding Non-Atomized
Corrosion Resistant resin
Contains Less Than 48% VOC SCAQMD Rule 1162-compliant corrosion resistant resin

RELATED PRODUCTS GEL TIME
CORVE8425-30 25-35 Minutes

LIQUID PROPERTIES RESULTS
Viscosity, Brookfield Model LV #3 Spindle @ 60 rpm, 77 F (25 C), cps (see Note 1 below) 450-650
Thixotropic Index 2.0-3.5
100 grams neat resin @ 77 F (25 C), initiated with 1.75% MEKP-925H by weight *
Gel Time, min:sec 15:00-20:00
Gel to Peak Exotherm Time, min:sec 9:00-16:00 G
Peak Exotherm 315-375 F (157-191 C)
Non-Volatile Content, % 52.1-55.0
Hazardous Air Pollutant (Styrene) Content, % <46.2 VOC Content, % 45.0-47.9 Specific Gravity 1.15-1.17 Note 1: The viscosity sample is mix well, adjusted to 77 F, and allowed to sit unagitated in a 77 F water bath for 20-22 minutes before the viscosity measurements are performed. G Denotes guideline. This is a typical result but not a specification. TYPICAL PROPERTIES Thickness 1/8 inch (3.2 mm) Casting 1/8 inch (3.2 mm) Laminate Construction Not Applicable 4 Plies 1.5 oz/ft 2 , 33% Glass Mat Flexural Strength, ASTM D790 19 ,500 psi 134 MPa 25,400 psi 175 MPa Flexural Modulus, ASTM D790 4.7 x 10 5 psi 3,200 MPa 11.0 x 10 5 psi 7,590 MPa Tensile Strength, ASTM D638 12,700 psi 88 MPa 13,900 psi 85.8 MPa Tensile Modulus, ASTM D638 4.8 x 10 5 psi 3,300 MPa 12.8 x 10 5 psi 8,830 MPa Tensile Elongation, ASTM D638 4.0 % 4.0 % 1.4 % 1.4 % Barcol Hardness, 934-1 gauge, ASTM D2583 35 35 44-48 44-48 Heat Distortion Temperature, ASTM D648 225 F 107 C -- F -- C * Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (catalyst), shop temperature, humidity, and type of fillers used. In order to meet your individual needs consult our technical sales representative for assistance. If using methyl ethyl ketone peroxide (MEKP) to gel and cure CoREZYN vinyl ester resins, we recommend only these three brands: Cadox L-50a (Akzo Nobel); Luperox DHD-9 (Arkema); and Norox MEKP-925H (United Initiators). These must be used at the appropriate percentage and suitable temperature. Contact your Interplastic Corporation representative for assistance. FLAME TEST PROPERTIES Construction 2 Plies 0.75 oz/ft 2 , 37% Glass Mat ASTM E84, Flame Spread Index 18.3 ASTM E84, Smoke Development Index 140 CORVE8425 Corrosion Resistant Vinyl Ester Resin Technical Data Sheet

FOR DANIEL COMPANY ONLY

CORVE8401D is a promoted, fire retardant, vinyl ester resin. This resin has a flame spread rating of < 25 (Class 1) per ASTM E84 Tunnel Test without additives. Contact your Interplastic Corporation representative for specific corrosion recommendations. FEATURES BENEFITS Flame Spread Rating 25 per ASTM E84 No additives to cloud laminates; easy inspections Highly Corrosion Resistant Resists acid, alkali, and oxidizing chemical environments Excellent Physical Properties Suitable for tanks, pipe, and process equipment RELATED PRODUCTS GEL TIME CORVE8401DS 32-40 Minutes LIQUID PROPERTIES RESULTS Viscosity, Brookfield Model LV #3 Spindle @ 60 rpm, 77 F (25 C), cPs 400-500 100 grams resin @ 77 F (25 C), initiated with 1.2% MEKP-925H by volume * Gel Time, min:sec 15:00-20:00 Gel to Peak Exotherm Time, min:sec 12:00-18:30 Peak Exotherm 310-360 F (154-182 C) HAP Content, % styrene 39.5-41.0 Specific Gravity 1.14-1.17 TYPICAL PROPERTIES Thickness 1/8 inch (3.2 mm) Casting 1/8 inch (3.2 mm) Laminate Construction Not Applicable 4 Plies 1.5 oz/ft 2 , 33% Glass Mat Flexural Strength, ASTM D790 22,000 psi 150 MPa 25,400 psi 175 MPa Flexural Modulus, ASTM D790 5.6 x 10 5 psi 3,800 MPa 11.0 x 10 5 psi 7,586 MPa Tensile Strength, ASTM D638 13,000 psi 89 MPa 13,900 psi 85.8 MPa Tensile Modulus, ASTM D638 5.1 x 10 5 psi 3,500 MPa 12.8 x 10 5 psi 8,828 MPa Tensile Elongation, ASTM D638 6.4 % 6.4 % 1.4 % 1.4 % Barcol Hardness, 934-1 gauge, ASTM D2583 34 34 44-48 44-48 Heat Distortion Temperature, ASTM D648 220 F 104 C -- F -- C * Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (catalyst), shop temperature, humidity, and type of fillers used. In order to meet your individual needs, consult our technical sales representative for assistance. If using methyl ethyl ketone peroxide (MEKP) to gel and cure CoREZYN vinyl ester resins, we recommend only these three brands: Cadox L-50a (Nouryon); Luperox DHD-9 (Arkema); and Norox MEKP-925 (United Initiators). These must be used at the appropriate percentage and suitable temperature. Contact your Interplastic Corporation representative for assistance. FLAME TEST PROPERTIES Thickness 1/8 inch (3.2 mm) Laminate Construction 4 Plies 1.5 oz/ft 2 , 33% Glass Mat ASTM D635, Horizontal Burn Rate < 1 ASTM E84, Flame Spread 25 UL 94 **This is not to imply UL warranty (V-O) (HB < 1 ) (5V Pass) HLT 15 100 CORVE8401D Fire Retardant Vinyl Ester Resin Technical Data Sheet

INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 7/20

CORVE8190 is a promoted, thixotropic, corrosion resistant, epoxy vinyl ester resin for use in the manufacture of liner pipe
using cured-in-place techniques. The corrosion resistance of this resin is comparable to that of CORVE8100. Data on any
specific testing or corrosion recommendations will be supplied upon request.

FEATURES BENEFITS
Moderate Composite Exotherm Resistant to distortion during cure cycle
Fast Cure Time Shorter cycle times and fast hardness development
Good Fiberglass Wet-Out High composites physical properties
Tested Under ASTM D2990 for Flexural Modulus
Creep
Retains structural integrity under load in severe
conditions

LIQUID PROPERTIES RESULTS
Viscosity, Brookfield Model RV #4 Spindle @ 20 rpm, 77 F (25 C), cPs 2,000-4,000
Thixotropic Index 2.9-3.9
Gel Time run in a 140 F (60 C) water bath, initiated with 1.0 phr of Perkadox
16 and 0.5 phr of Trigonox C *

Gel Time, 130 F to 150 F (54-66 C), min:sec 10:00-20:00
Gel to Peak, 150 F (66 C) to Peak Exotherm Time, min:sec 2:00-10:00
Peak Exotherm 310-400 F (154-204 C)
Non-Volatile Content, % 58.0-66.0
Room Temperature Catalyzed Stability, hours >24
Specific Gravity 1.05-1.08

TYPICAL PROPERTIES
Thickness 1/8 inch (3.2 mm) Casting 1/4 inch (6.4 mm) Laminate
Construction Not Applicable CIPP Felt Laminate
Flexural Strength, ASTM D790 19,100 psi 132 MPa 11,000 psi 76 MPa
Flexural Modulus, ASTM D790 4.7 x 10
5
psi 3,241 MPa 5.1 x 10
5
psi 3,500 MPa
Tensile Strength, ASTM D638 11,000 psi 76 MPa 6,800 psi 47 MPa
Tensile Modulus, ASTM D638 4.6 x 10
5
psi 3,172 MPa 5.3 x 10
5
psi 3,700 MPa
Tensile Elongation, ASTM D638 4.2 % 4.2 % 2.0 % 2.0 %
Barcol Hardness, 934-1 gauge, ASTM D2583 36 36 N/A N/A
Heat Distortion Temperature, ASTM D648 215 F 102 C 197 F 92 C
* Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (catalyst), shop temperature, humidity, and type of fillers used. In order to meet
your individual needs, consult our technical sales representative for assistance. If using methyl ethyl ketone peroxide (MEKP) to gel and cure CoREZYN

vinyl ester resins
we recommend only these three brands: Cadox L-50a (Nouryon); Luperox DHD-9 (Arkema); and Norox MEKP-925 (United Initiators). These must be used at the
appropriate percentage and suitable temperature. Contact your Interplastic Corporation representative for assistance.

CORVE8190
Thixotropic Vinyl Ester Resin
Technical Data Sheet

INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 5/17

CORVE8153 is a promoted, thixotropic, high heat distortion temperature (270 F/132 C), vinyl ester resin for use in the
manufacture of master tools and molds.

FEATURES BENEFITS
High Heat Distortion Resistance Excellent dimensional stability for long-lived parts
Excellent Solvent Resistance Resists deterioration over time
Versatile Application System Can be used in hand lay-up and spray-up
Good Fiberglass Wet-Out Easy roll-out and high laminate physical properties
Promoted for Ease of Application Good gelation properties with low foaming quality

RELATED PRODUCTS GEL TIME
CORVE8151 15-20 Minutes

LIQUID PROPERTIES RESULTS
Viscosity, Brookfield Model LV #3 Spindle @ 60 rpm, 77 F (25 C), cps 550-750
Thixotropic Index 3.0-3.5
100 grams resin @ 77 F (25 C), initiated with 1.2% MEKP-925H by volume *
Gel Time, min:sec 20:00-26:00
Gel to Peak Exotherm Time, min:sec 10:00-19:00
Peak Exotherm 360-435 F (182-224 C)
Non-Volatile Content, % 52.0-56.0
Hazardous Air Pollutant (Styrene) Content, % 44.0-48.0
Specific Gravity 1.05-1.08

TYPICAL PROPERTIES
Thickness 1/8 inch (3.2 mm) Casting
Construction Not Applicable
Flexural Strength, ASTM D790 18,000 psi 124 MPa
Flexural Modulus, ASTM D790 4.8 x 10
5
psi 3,310 MPa
Tensile Strength, ASTM D638 11,400 psi 79 MPa
Tensile Modulus, ASTM D638 5.4 x 10
5
psi 3,724 MPa
Tensile Elongation, ASTM D638 3.5 % 3.5 %
Barcol Hardness, 934-1 gauge, ASTM D2583 35 35
Heat Distortion Temperature, ASTM D648 270 F 132 C
* Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (commonly called catalyst ), shop temperature, humidity, and type of fillers
used. In order to meet your individual needs consult our technical sales representative for assistance. See following page for proper selection and application of Free
Radical Initiators.
To reduce fiber print-through, we suggest a 1 oz/ft
2
(460 g/m
2
) glass mat, then a 1.0 oz/ft
2
(305 g/m
2
) cloth, followed by a 1 oz/ft
2
(460 g/m
2
) mat behind a high heat
distortion tooling gel coat. After the first laminate has gone through exotherm and has returned to room temperature the laminate schedule may begin. We recommend
an all vinyl ester tool for the highest heat distortion and cycle resistance, and a minimum of a 3/8″ (9.525 mm) vinyl ester laminate if the part is to be reinforced with
another high heat distortion laminating resin.

CORVE8153
Vinyl Ester Resin
Technical Data Sheet

All specifications and properties specified above are approximate. Specifications and properties of material delivered may vary slightly
from those given above. Interplastic Corporation makes no representations of fact regarding the material except those specified above.
No person has any authority to bind Interplastic Corporation to any representation except those specified above. Final determination of
the suitability of the material for the use contemplated is the sole responsibility of the Buyer. Our technical sales representatives will
assist in developing procedures to fit individual requirements, but all advice is accepted at your risk and should be checked for
suitability to your particular processes. These test data and properties are based on results obtained for a specific material under the
specified test conditions. They are not to be used as specifications and are not warranted as performance attributes for any product or
system. Specifications and properties of standard production material may vary slightly from those in this report. Interplastic
Corporation makes no warranties regarding any material and/or samples described in this report unless that representation is provided
to your company in writing by a Technical Director of Interplastic Corporation or one of his or her managers.

INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 5/17

INITIATOR SELECTION AND APPLICATION

The method of application is critical to ensure that the finished part will have the desired properties.

The selection of initiator is very important. We currently recommend three brands of MEKP initiator: Cadox L-50a,
Luperox DHD-9, and Norox MEKP-925H. The use of other initiators is not recommended. If an initiator not on this
recommended list is used, the customer must establish its suitability for the application, as well as assume liability.

Use of the correct amount of initiator is also very important to ensure that the laminate cures sufficiently to obtain optimum
physical properties. When laminates 1/16th of an inch thick (0.75 mm) or thinner are constructed, the amount of initiator
should be a minimum of 1.5 percent based on the resin. The typical range of initiator is 1.7 to 2.0 percent for this
thickness. Thinner laminates require higher percentages of initiator. No benefit is seen using levels of greater than 3.0
percent, with levels of 1.0 to 3.0% recommended in the construction of laminates out of vinyl ester resins. The typical
percentage of initiator used to construct laminates greater than 1/8th of an inch (3.175 mm) thick is 1.0 to 1.2 percent.

When applying the vinyl ester as a skin coat or laminate, the gel coat should be prepared and cured normally. Initially a
coating of vinyl ester resin should be applied to wet the gel coat surface, then fiberglass may be chopped or layered on
the resin. Do not over-spray when chopping glass onto the surface. Dry fiberglass should not lie directly on the gel coat
because this can cause premature blistering of the part. The best way to ensure no over-spray is to stop chopping one to
two feet (30-60 cm) from the edge of the vinyl ester resin layer which has dry gel coat adjacent.

The vinyl ester skin coat should be allowed to cure from one to four hours, depending on the gel time of resin being used,
the ambient temperature, and the temperature of the mold. Interplastic Corporation will provide timetable guidelines for
when the skin coat is ready to be laminated. The skin coat may be left overnight before applying subsequent coats;
however, the skin coat should not be left for longer than 24 hours because of the risk of delamination within the
composite. The surface of the skin coat should be tacky to the touch to ensure proper bonding between layers. If the
surface is not tacky, it should be thoroughly roughed up with medium grade sandpaper and cleaned before applying the
next layer to ensure a good bond.

Cadox is a registered trademark of Akzo Nobel Chemicals B.V. or its affiliates in one or more territories.
Luperox is a registered trademark of Arkema Inc.
Norox is a registered trademark of United Initiators.

INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 5/17

CORVE8153 is a promoted, thixotropic, high heat distortion temperature (270 F/132 C), vinyl ester resin for use in the
manufacture of master tools and molds.

FEATURES BENEFITS
High Heat Distortion Resistance Excellent dimensional stability for long-lived parts
Excellent Solvent Resistance Resists deterioration over time
Versatile Application System Can be used in hand lay-up and spray-up
Good Fiberglass Wet-Out Easy roll-out and high laminate physical properties
Promoted for Ease of Application Good gelation properties with low foaming quality

RELATED PRODUCTS GEL TIME
CORVE8151 15-20 Minutes

LIQUID PROPERTIES RESULTS
Viscosity, Brookfield Model LV #3 Spindle @ 60 rpm, 77 F (25 C), cps 550-750
Thixotropic Index 3.0-3.5
100 grams resin @ 77 F (25 C), initiated with 1.2% MEKP-925H by volume *
Gel Time, min:sec 20:00-26:00
Gel to Peak Exotherm Time, min:sec 10:00-19:00
Peak Exotherm 360-435 F (182-224 C)
Non-Volatile Content, % 52.0-56.0
Hazardous Air Pollutant (Styrene) Content, % 44.0-48.0
Specific Gravity 1.05-1.08

TYPICAL PROPERTIES
Thickness 1/8 inch (3.2 mm) Casting
Construction Not Applicable
Flexural Strength, ASTM D790 18,000 psi 124 MPa
Flexural Modulus, ASTM D790 4.8 x 10
5
psi 3,310 MPa
Tensile Strength, ASTM D638 11,400 psi 79 MPa
Tensile Modulus, ASTM D638 5.4 x 10
5
psi 3,724 MPa
Tensile Elongation, ASTM D638 3.5 % 3.5 %
Barcol Hardness, 934-1 gauge, ASTM D2583 35 35
Heat Distortion Temperature, ASTM D648 270 F 132 C
* Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (commonly called catalyst ), shop temperature, humidity, and type of fillers
used. In order to meet your individual needs consult our technical sales representative for assistance. See following page for proper selection and application of Free
Radical Initiators.
To reduce fiber print-through, we suggest a 1 oz/ft
2
(460 g/m
2
) glass mat, then a 1.0 oz/ft
2
(305 g/m
2
) cloth, followed by a 1 oz/ft
2
(460 g/m
2
) mat behind a high heat
distortion tooling gel coat. After the first laminate has gone through exotherm and has returned to room temperature the laminate schedule may begin. We recommend
an all vinyl ester tool for the highest heat distortion and cycle resistance, and a minimum of a 3/8″ (9.525 mm) vinyl ester laminate if the part is to be reinforced with
another high heat distortion laminating resin.

CORVE8153
Vinyl Ester Resin
Technical Data Sheet

All specifications and properties specified above are approximate. Specifications and properties of material delivered may vary slightly
from those given above. Interplastic Corporation makes no representations of fact regarding the material except those specified above.
No person has any authority to bind Interplastic Corporation to any representation except those specified above. Final determination of
the suitability of the material for the use contemplated is the sole responsibility of the Buyer. Our technical sales representatives will
assist in developing procedures to fit individual requirements, but all advice is accepted at your risk and should be checked for
suitability to your particular processes. These test data and properties are based on results obtained for a specific material under the
specified test conditions. They are not to be used as specifications and are not warranted as performance attributes for any product or
system. Specifications and properties of standard production material may vary slightly from those in this report. Interplastic
Corporation makes no warranties regarding any material and/or samples described in this report unless that representation is provided
to your company in writing by a Technical Director of Interplastic Corporation or one of his or her managers.

INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 5/17

INITIATOR SELECTION AND APPLICATION

The method of application is critical to ensure that the finished part will have the desired properties.

The selection of initiator is very important. We currently recommend three brands of MEKP initiator: Cadox L-50a,
Luperox DHD-9, and Norox MEKP-925H. The use of other initiators is not recommended. If an initiator not on this
recommended list is used, the customer must establish its suitability for the application, as well as assume liability.

Use of the correct amount of initiator is also very important to ensure that the laminate cures sufficiently to obtain optimum
physical properties. When laminates 1/16th of an inch thick (0.75 mm) or thinner are constructed, the amount of initiator
should be a minimum of 1.5 percent based on the resin. The typical range of initiator is 1.7 to 2.0 percent for this
thickness. Thinner laminates require higher percentages of initiator. No benefit is seen using levels of greater than 3.0
percent, with levels of 1.0 to 3.0% recommended in the construction of laminates out of vinyl ester resins. The typical
percentage of initiator used to construct laminates greater than 1/8th of an inch (3.175 mm) thick is 1.0 to 1.2 percent.

When applying the vinyl ester as a skin coat or laminate, the gel coat should be prepared and cured normally. Initially a
coating of vinyl ester resin should be applied to wet the gel coat surface, then fiberglass may be chopped or layered on
the resin. Do not over-spray when chopping glass onto the surface. Dry fiberglass should not lie directly on the gel coat
because this can cause premature blistering of the part. The best way to ensure no over-spray is to stop chopping one to
two feet (30-60 cm) from the edge of the vinyl ester resin layer which has dry gel coat adjacent.

The vinyl ester skin coat should be allowed to cure from one to four hours, depending on the gel time of resin being used,
the ambient temperature, and the temperature of the mold. Interplastic Corporation will provide timetable guidelines for
when the skin coat is ready to be laminated. The skin coat may be left overnight before applying subsequent coats;
however, the skin coat should not be left for longer than 24 hours because of the risk of delamination within the
composite. The surface of the skin coat should be tacky to the touch to ensure proper bonding between layers. If the
surface is not tacky, it should be thoroughly roughed up with medium grade sandpaper and cleaned before applying the
next layer to ensure a good bond.

Cadox is a registered trademark of Akzo Nobel Chemicals B.V. or its affiliates in one or more territories.
Luperox is a registered trademark of Arkema Inc.
Norox is a registered trademark of United Initiators.

INTERPLASTIC CORPO RATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 8/16

CORVE8151 is a promoted, thixotropic, high heat distortion temperature (270 F/132 C), vinyl ester resin for use in the
manufacture of master tools and molds.

FEATURES BENEFITS
High Heat Distortion Resistance Excellent dimensional stability for long-lived parts
Excellent Solvent Resistance Resists deterioration over time
Versatile Application System Can be used in hand lay-up and spray-up
Good Fiberglass Wet-Out Easy roll-out and high laminate physical properties
Promoted for Ease of Application Good gelation properties with low foaming quality

RELATED PRODUCTS GEL TIME
CORVE8153 20-26 Minutes

LIQUID PROPERTIES RESULTS
Viscosity, Brookfield Model LV #3 Spindle @ 60 rpm, 77 F (25 C), cPs 550-750
Thixotropic Index 3.0-3.5
100 grams resin @ 77 F (25 C), initiated with 1.2% MEKP-925H by volume *
Gel Time, min:sec 15:00-20:00
Gel to Peak Exotherm Time, min:sec 7:00-14:00
Peak Exotherm 360-435 F (182-224 C)
Non-Volatile Content, % 52.0-56.0
Hazardous Air Pollutant (Styrene) Content, % 44.0-48.0
Specific Gravity 1.00-1.09

TYPICAL PROPERTIES
Thickness 1/8 inch (3.2 mm) Casting
Construction Not Applicable
Flexural Strength, ASTM D790 18,000 psi 124 MPa
Flexural Modulus, ASTM D790 4.8 x 10
5
psi 3,310 MPa
Tensile Strength, ASTM D638 11,400 psi 79 MPa
Tensile Modulus, ASTM D638 5.4 x 10
5
psi 3,724 MPa
Tensile Elongation, ASTM D638 3.5 % 3.5 %
Barcol Hardness, 934-1 gauge, ASTM D2583 35 35
Heat Distortion Temperature, ASTM D648 270 F 132 C
* Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (commonly called catalyst ), shop temperature, humidity, and type of filler
used. In order to meet your individual needs, consult our technical sales representative for assistance. See following page for proper selection and application of Free
Radical Initiators.
To reduce fiber print-through, we suggest a 1 oz/ft
2
(460 g/m
2
) glass mat, then a 1.0 oz/ft
2
(305 g/m
2
) cloth, followed by a 1 oz/ft
2
(460 g/m
2
) mat behind a high heat
distortion temperature tooling gel coat. After the first laminate has gone through exotherm and has returned to room temperature the laminate schedule may begin. We
recommend an all-vinyl-ester tool for the highest heat distortion temperature and cycle resistance, and a minimum of a 3/8″ (9.525 mm) vinyl ester laminate if the part is
to be reinforced with another high heat distortion temperature laminating resin.

CORVE8151
Vinyl Ester Resin
Technical Data Sheet

Interplastic Corporation makes no warranties regarding any material and/or samples described in this report. All properties
specified above are approximate and may vary from material delivered. Delivered material complies with the certificate of
analysis on each shipment of product. Interplastic Corporation makes no representations of fact regarding the material
except those specified above. Final determination of part or application and the suitability of the material for the use
contemplated is the sole responsibility of the buyer. Our technical sales representatives will assist in developing procedures
to fit individual requirements as a customer accommodation, but all advice is accepted at your risk and should be checked for
suitability to your particular processes and needs. These test data and properties are based on results obtained for a specific
material under the specified test conditions – they are not to be used as specifications and are not warranted as performance
attributes for any product or system.

INTERPLASTIC CORPO RATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 8/16

INITIATOR SELECTION AND APPLICATION

The method of application is critical to ensure that the finished part will have the desired properties.

The selection of initiator is very important. We currently recommend three brands of MEKP initiator: Cadox L-50a,
Luperox DHD-9, and Norox MEKP-925H. The use of other initiators is not recommended. If an initiator not on this
recommended list is used, the customer must establish its suitability for the application, as well as assume liability.

Use of the correct amount of initiator is also very important to ensure that the laminate cures sufficiently to obtain optimum
physical properties. When laminates 1/16th of an inch thick (0.75 mm) or thinner are constructed, the amount of initiator
should be a minimum of 1.5 percent based on the resin. The typical range of initiator amounts is 1.7 to 2.0 percent for this
thickness. Thinner laminates require higher percentages of initiators. No benefit is seen using levels greater than 3.0
percent, with levels of 1.0 to 3.0% recommended in the construction of laminates out of vinyl ester resins. The typical
percentage of initiator used to construct laminates greater than 1/8th of an inch (3.175 mm) thick is 1.0 to 1.2 percent.

When applying the vinyl ester as a skin coat or laminate, the gel coat should be prepared and cured normally. Initially a
coating of vinyl ester resin should be applied to wet the gel coat surface; then fiberglass may be chopped or layered on
the resin. Do not over-spray when chopping glass onto the surface. Dry fiberglass should not lie directly on the gel coat
because this can cause premature blistering of the part. The best way to ensure no over-spray is to stop chopping 1-2 feet
(30-60 cm) from the edge of the vinyl ester resin layer that has dry gel coat adjacent.

The vinyl ester skin coat should be allowed to cure from one to four hours, depending on the gel time of resin being used,
the ambient temperature, and the temperature of the mold. Interplastic Corporation will provide timetable guidelines for
when the skin coat is ready to be laminated. The skin coat may be left overnight before applying subsequent coats;
however, the skin coat should not be left for longer than 24 hours because of the risk of delamination within the
composite. The surface of the skin coat should be tacky to the touch to ensure proper bonding between layers. If the
surface is not tacky it should be thoroughly roughed up with medium grade sandpaper and cleaned before applying the
next layer to ensure a good bond.

Cadox is a registered trademark of Nouryon Functional Chemicals B.V. or affiliates in one or more territories.
Luperox is a registered trademark of Arkema, Inc.
Norox is a registered trademark of United Initiators Spi, Inc.

INTERPLASTIC CORPORATION
2015 Northeast Broadway Street
Minneapolis, Minnesota 55413-1775
651.481.6860 Fax 612.331.4235
www.interplastic.com
Revised: 8/16

CORVE8129
Thixotropic Vinyl Ester Resin
Technical Data Sheet

CORVE8129 is a promoted, thixotropic, vinyl ester resin used in spray-up and hand lay-up applications. It is specifically
formulated for the boat, pool, spa manufacture, and may also be used in other applications that require high physical
properties and excellent fatigue performance.

FEATURES BENEFITS
Moderate Laminate Exotherm Good cosmetic surface and minimal glass print
Fast Trim Time Shorter cycle time and fast Barcol development
Good Fiberglass Wet-Out Easy roll-out and high laminate physical properties
Promoted for Ease of Application Good gelation properties with low foaming quality
Excellent Fatigue Performance 1 Long service life for composites under loading
Low Water Absorption and Excellent Blister Resistance 2 Eliminates need for repairing blisters in composites
immersed in water
Retention of Physical Properties after Immersion in Water
for 15 Years 3
Minimal to no loss of physical properties after long term
exposure to water

RELATED PRODUCTS GEL TIME MEKP Level, % by weight
CORVE8115 10-15 Minutes 1.2
CORVE8117 15-20 Minutes 1.2
CORVE8119 20-25 Minutes 1.2
CORVE8121 25-30 Minutes 1.2
CORVE8123 32-37 Minutes 1.2

LIQUID PROPERTIES RESULTS
Viscosity, Brookfield Model LV, #3 Spindle @ 60 rpm, 77 F (25 C), cPs 475-675
Thixotropic Index 2.5-3.2
100 grams resin @ 77 F (25 C), initiated with 1.4% MEKP-925H by weight *
Gel Time, min:sec 35:00-45:00
Gel to Peak Exotherm Time, min:sec 10:00-20:00
Peak Exotherm 300-370 F (149-188 C)
Non-Volatile Content, % 51.0-56.0
Specific Gravity 1.00-1.03

TYPICAL PROPERTIES
Thickness 1/8 inch (3.2 mm) Casting 1/8 inch (3.2 mm) Laminate
Construction Not Applicable 4 Plies 1.5 oz/ft
2
, 33% Glass Mat
Flexural Strength, ASTM D790 19,000 psi 131 MPa 32,600 psi 225 MPa
Flexural Modulus, ASTM D790 4.7 x 10
5
psi 3,240 MPa 11.0 x 10
5
psi 7,586 MPa
Tensile Strength, ASTM D638 11,800 psi 81 MPa 16,300 psi 112 MPa
Tensile Modulus, ASTM D638 4.0 x 10
5
psi 2,760 MPa 11.0 x 10
5
psi 7,586 MPa
Tensile Elongation, ASTM D638 4.5 % 4.5 % 2.0 % 2.0 %
Barcol Hardness, 934-1 gauge, ASTM D2583 34 34 47 47
Heat Distortion Temperature, ASTM D648 210 F 99 C — —
* Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (catalyst), shop temperature, humidity, and type of fillers used. In order to meet
your individual needs consult our technical sales representative for assistance. If using methyl ethyl ketone peroxide (MEKP) to gel and cure CoREZYN

vinyl ester resins
we recommend only these three brands: Cadox L-50a (Nouryon); Luperox DHD-9 (Arkema); or Norox MEKP-925H (United Initiators). These must be used at the
appropriate percentage and suitable temperature. Contact your Interplastic Corporation representative for assistance.

1. Cycle Test Evaluation of Various Polyester Types and a Mathematical Model for Projecting Flexural Fatigue Endurance
2. A 15-Year Study of the Effective Use of Permeation Barriers in Marine Composites
3. Physical Properties Evaluation of FRP Composites after 15-Year Immersion in Water

CORVE8125-30
Thixotropic Vinyl Ester Resin
Technical Data Sheet

CORVE8125-30 is a promoted, thixotropic 100% vinyl ester resin used in spray-up and hand lay-up applications.
CORVE8125-30 is formulated to contain lower styrene concentrations than CORVE8123. It is specifically formulated for
boat, pool, and spa manufacture, and may also be used in other applications that require high physical properties and
excellent fatigue performance.

FEATURES BENEFITS
Moderate Laminate Exotherm Good cosmetic surface and minimal glass print
Fast Trim Time Shorter cycle time and fast Barcol development
Good Fiberglass Wet-Out Easy roll-out and high laminate physical properties
Promoted for Ease of Application Good gelation properties with low foaming quality
Excellent Fatigue Performance 1 Long service life for composites under loading
Low Water Absorption and Excellent Blister
Resistance 2
Eliminates need for repairing blisters in composites
immersed in water
Retention of Physical Properties After Immersion in
Water for 15 Years 3
Minimal to zero loss of physical properties after long
term exposure to water

RELATED PRODUCT S GEL TIME
CORVE8125-40 40-50 Minutes

LIQUID PROPERTIES RESULTS
Viscosity, Brookfield Model LV #3 Spindle @ 60 rpm, 77 F (25 C), cPs 450-600
Thixotropic Index 2.4-3.0
100 grams resin @ 77 F (25 C), initiated with 1.2% MEKP-925H by volume *
Gel Time, min:sec 30:00-40:00
Gel to Peak Exotherm Time, min:sec 8:00-25:00
Peak Exotherm 325-375 F (163-191 C)
HAP (Styrene) Content, % 35.0-40.0
Specific Gravity 1.02-1.05

TYPICAL PROPERTIES
Thickness 1/8 inch (3.2 mm) Casting 1/8 inch (3.2 mm) Laminate
Construction Not Applicable 4 Plies 1.5 oz/ft
2
, 33% Glass Mat
Flexural Strength, ASTM D790 20,300 psi 140 MPa 37,055 psi 256 MPa
Flexural Modulus, ASTM D790 5.12 x 10
5
psi 3,530 MPa 12.1 x 10
5
psi 8,345 MPa
Tensile Strength, ASTM D638 11,600 psi 80.0 MPa 24,401 psi 168 MPa
Tensile Modulus, ASTM D638 5.07 x 10
5
psi 3,500 MPa 14.1 x 10
5
psi 9,752 MPa
Tensile Elongation, ASTM D638 3.3 % 3.3 % 2.3 % 2.3 %
Barcol Hardness, 934-1 gauge, ASTM D2583 41 41 50-54 50-54
Heat Distortion Temperature, ASTM D648 230 F 110 C — F — C
* Gel time and reactivity will vary due to the type and concentration of Free Radical Initiator (catalyst), shop temperature, humidity, and type of fillers used. In order to meet
your individual needs, consult our technical sales representative for assistance. If using methyl ethyl ketone peroxide (MEKP) to gel and cure CoREZYN

vinyl ester
resins, we recommend only these three brands: Cadox L-50a (Nouryon); Luperox DHD-9 (Arkema); and Norox MEKP-925H (United Initiators). These must be used
at the appropriate percentage and suitable temperature. Contact your Interplastic Corporation representative for assistance.

1. Cycle Test Evaluation of Various Polyester Types and a Mathematical Model for Projecting Flexural Fatigue Endurance
2. A 15-Year Study of the Effective Use of Permeation Barriers in Marine Composites
3. Physical Properties Evaluation of FRP Composites after 15-Year Immersion in Water
NOTE: The technical papers above are available as .pdf files at www.interplastic.com.