by | Sep 27, 2025
Divinycell H provides excellent mechanical properties to low weight.
The unique IPN chemical structure, yields impressive mechanical
performance to a low weight. Divinycell H has been widely used and
has a proven track record in virtually every application area where
sandwich composites are employed including the marine (leisure,
military and commercial), land transportation, wind energy, civil
engineering/infrastructure and general industrial markets.
Divinycell H is ideal for applications subject to fatigue, slamming or
impact loads. Other key features of Divinycell H include consistent
high quality, excellent adhesion/peel strength, excellent chemical
resistance, low water absorption and good thermal/acoustic
insulation. Divinycell H is compatible with virtually all commonly
used resin and manufacturing systems.
HIGH PERFORMANCE IPN CORE MATERIAL
Low water absorption
Superior damage tolerance
Fast and easy to process
Good chemical resistance
Excellent fatigue properties
Low resin uptake
Wide range of properties
Provides excellent mechanical properties to a low weight
PRODUCT CHARACTERISTICS
diabgroup.com
MECHANICAL PROPERTIES DIVINYCELL
H
Property Test Pr ocedure Unit H45 H60 H80 H100 H130 H160 H200 H250
Compressive
Strength
1 ASTM D 1621 MPa
Nominal 0.6 0.9 1.4 2.0 3.0 3.4 5.4 7. 2
Minimum 0.5 0.7 1.15 1.65 2.4 2.8 4.5 6.1
Compressive Modulus
1
A S T M D1621-B-7 3MPa
Nominal 50 70 90 135 170 200 310 400
Minimum 45 60 80 115 145 175 265 350
Tensile Strength
1
ASTM D 1623 MPa
Nominal 1.4 1.8 2.5 3.5 4.8 5.4 7. 1 9.2
Minimum 1.1 1.5 2.2 2.5 3.5 4.0 6.3 8.0
Tensile Modulus
1
ASTM D 1623 MPa
Nominal 55 75 95 130 175 205 250 320
Minimum 45 57 85 105 135 160 210 260
Shear Strength ASTM C 273 MPa
Nominal 0.56 0.76 1.15 1.6 2.2 2.6 3.5 4.5
Minimum 0.46 0.63 0.95 1.4 1.9 2.2 3.2 3.9
Shear Modulus ASTM C 273 MPa
Nominal 15 20 27 35 50 60 73 97
Minimum 12 16 23 28 40 50 65 81
Shear Strain ASTM C 273 % Nominal 12 20 30 40 40 40 45 45
Density ISO 845 kg/m
3
Nominal 48 60 80 100 130 160 200 250
All values measured at +23 C
1. Properties measured perpendicular to the plane
Nominal value is an average value of a mechanical property at a nominal density
Minimum value is a minimum guaranteed mechanical property a material has
independently of density
TECHNICAL DATA
Divinycell H
Continuous operating temperature is typically -200 C to +70 C. The foam can be used in sandwich structures, for outdoor exposure, with external skin tempera-
tures up to +85 C. For optimal design of applications used in high operating temperatures in combination with continuous load, please contact Diab Technical
Services for detailed design instructions.
Maximum processing temperature is dependent on time, pressure and process conditions. Therefore users are advised to contact Diab Technical Services to
confirm that Divinycell H is compatible with their particular processing parameters.
Disclaimer:
This data sheet may be subject to revision and changes due to development
and changes of the material. The data is derived from tests and experience. If
not stated as minimum values, the data is average data and should be treated
as such. Calculations should be verified by actual tests. The data is furnished
without liability for the company and does not constitute a warranty or repre-
sentation in respect of the material or its use. The company reserves the right
to release new data sheets in replacement.
All content in this publication is protected by international copyright laws.
Copyright Diab July 2018.
Diab Group
Drottninggatan 7, 5th floor
SE-252 21 Helsingborg, Sweden
Tel +46 (0) 430 163 00
E-mail: info@diabgroup.com
Datasheet Diab Divinycell H rev19 SI June 2020
TECHNICAL CHARACTERISTICS DIVINYCELL
H
PHYSICAL CHARACTERISTICS DIVINYCELL
H
Characteristics
1
Unit H45 H60 H80 H100 H130 H160 H200 H250 Test method
Density variation % 10 10 10 10 10 10 10 10 –
Thermal conductivity
2
W/(m-K)0.028 0.029 0.031 0.033 0.036 0.040 0.044 0.049 EN 12667
Coeff, linear heat expansion x10
-6
/ C 40 40 40 40 40 40 40 40 ISO 4897
Heat Distortion Temperature C +1 2 5+1 2 5+1 2 5+1 2 5+1 2 5+1 2 5+1 2 5+1 2 5 DIN 53424
Continous temp range C – 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0-
Max process temp C +90 +90 +90 +1 10 +1 10 +1 10 +1 10 +1 10 –
Dissipation factor – 0.00020.00030.00050.00060.00090.00120.00150.0019 ASTM D 2520
Dielectric constant – 1.05 1.06 1.09 1.11 1.15 1.18 1.23 1.29 ASTM D 2520
Poissons ratio
3
– 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 D638-08
Format Unit H45 H60 H80 H100 H130H160 H200 H250
Plain sheets
Lengthmm 2440 2440 2440 21601960 1860 1730 1640
Width mm 1220 1220 1220 1070 970 915 850 800
GS sheet
Lengthmm 1220 1220 12201080 980 930 865 –
Width mm 813 813 813 1070 970 915 850 –
GS sheet
Lengthmm 1220 1220 1220 – – – – –
Width mm 1220 1220 1220 – – – – –
1. Typical values
2. Thermal conductivity at +20 C
3. Standard deviation is 0.045
TECHNICAL CHARACTERISTICS
Divinycell H is type approved by:
by | Sep 27, 2025
Divinycell H provides excellent mechanical properties to low weight.
The unique IPN chemical structure, yields impressive mechanical
performance to a low weight. Divinycell H has been widely used and
has a proven track record in virtually every application area where
sandwich composites are employed including the marine (leisure,
military and commercial), land transportation, wind energy, civil
engineering/infrastructure and general industrial markets.
Divinycell H is ideal for applications subject to fatigue, slamming or
impact loads. Other key features of Divinycell H include consistent
high quality, excellent adhesion/peel strength, excellent chemical
resistance, low water absorption and good thermal/acoustic
insulation. Divinycell H is compatible with virtually all commonly
used resin and manufacturing systems.
HIGH PERFORMANCE IPN CORE MATERIAL
Low water absorption
Superior damage tolerance
Fast and easy to process
Good chemical resistance
Excellent fatigue properties
Low resin uptake
Wide range of properties
Provides excellent mechanical properties to a low weight
PRODUCT CHARACTERISTICS
diabgroup.com
MECHANICAL PROPERTIES DIVINYCELL
H
Property Test Pr ocedure Unit H45 H60 H80 H100 H130 H160 H200 H250
Compressive
Strength
1 ASTM D 1621 MPa
Nominal 0.6 0.9 1.4 2.0 3.0 3.4 5.4 7. 2
Minimum 0.5 0.7 1.15 1.65 2.4 2.8 4.5 6.1
Compressive Modulus
1
A S T M D1621-B-7 3MPa
Nominal 50 70 90 135 170 200 310 400
Minimum 45 60 80 115 145 175 265 350
Tensile Strength
1
ASTM D 1623 MPa
Nominal 1.4 1.8 2.5 3.5 4.8 5.4 7. 1 9.2
Minimum 1.1 1.5 2.2 2.5 3.5 4.0 6.3 8.0
Tensile Modulus
1
ASTM D 1623 MPa
Nominal 55 75 95 130 175 205 250 320
Minimum 45 57 85 105 135 160 210 260
Shear Strength ASTM C 273 MPa
Nominal 0.56 0.76 1.15 1.6 2.2 2.6 3.5 4.5
Minimum 0.46 0.63 0.95 1.4 1.9 2.2 3.2 3.9
Shear Modulus ASTM C 273 MPa
Nominal 15 20 27 35 50 60 73 97
Minimum 12 16 23 28 40 50 65 81
Shear Strain ASTM C 273 % Nominal 12 20 30 40 40 40 45 45
Density ISO 845 kg/m
3
Nominal 48 60 80 100 130 160 200 250
All values measured at +23 C
1. Properties measured perpendicular to the plane
Nominal value is an average value of a mechanical property at a nominal density
Minimum value is a minimum guaranteed mechanical property a material has
independently of density
TECHNICAL DATA
Divinycell H
Continuous operating temperature is typically -200 C to +70 C. The foam can be used in sandwich structures, for outdoor exposure, with external skin tempera-
tures up to +85 C. For optimal design of applications used in high operating temperatures in combination with continuous load, please contact Diab Technical
Services for detailed design instructions.
Maximum processing temperature is dependent on time, pressure and process conditions. Therefore users are advised to contact Diab Technical Services to
confirm that Divinycell H is compatible with their particular processing parameters.
Disclaimer:
This data sheet may be subject to revision and changes due to development
and changes of the material. The data is derived from tests and experience. If
not stated as minimum values, the data is average data and should be treated
as such. Calculations should be verified by actual tests. The data is furnished
without liability for the company and does not constitute a warranty or repre-
sentation in respect of the material or its use. The company reserves the right
to release new data sheets in replacement.
All content in this publication is protected by international copyright laws.
Copyright Diab July 2018.
Diab Group
Drottninggatan 7, 5th floor
SE-252 21 Helsingborg, Sweden
Tel +46 (0) 430 163 00
E-mail: info@diabgroup.com
Datasheet Diab Divinycell H rev19 SI June 2020
TECHNICAL CHARACTERISTICS DIVINYCELL
H
PHYSICAL CHARACTERISTICS DIVINYCELL
H
Characteristics
1
Unit H45 H60 H80 H100 H130 H160 H200 H250 Test method
Density variation % 10 10 10 10 10 10 10 10 –
Thermal conductivity
2
W/(m-K)0.028 0.029 0.031 0.033 0.036 0.040 0.044 0.049 EN 12667
Coeff, linear heat expansion x10
-6
/ C 40 40 40 40 40 40 40 40 ISO 4897
Heat Distortion Temperature C +1 2 5+1 2 5+1 2 5+1 2 5+1 2 5+1 2 5+1 2 5+1 2 5 DIN 53424
Continous temp range C – 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0-
Max process temp C +90 +90 +90 +1 10 +1 10 +1 10 +1 10 +1 10 –
Dissipation factor – 0.00020.00030.00050.00060.00090.00120.00150.0019 ASTM D 2520
Dielectric constant – 1.05 1.06 1.09 1.11 1.15 1.18 1.23 1.29 ASTM D 2520
Poissons ratio
3
– 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 D638-08
Format Unit H45 H60 H80 H100 H130H160 H200 H250
Plain sheets
Lengthmm 2440 2440 2440 21601960 1860 1730 1640
Width mm 1220 1220 1220 1070 970 915 850 800
GS sheet
Lengthmm 1220 1220 12201080 980 930 865 –
Width mm 813 813 813 1070 970 915 850 –
GS sheet
Lengthmm 1220 1220 1220 – – – – –
Width mm 1220 1220 1220 – – – – –
1. Typical values
2. Thermal conductivity at +20 C
3. Standard deviation is 0.045
TECHNICAL CHARACTERISTICS
Divinycell H is type approved by:
by | Sep 27, 2025
Divinycell H provides excellent mechanical properties to low weight.
The unique PVC chemical structure, yields impressive mechanical
performance to a low weight. Divinycell H has been widely used and
has a proven track record in virtually every application area where
sandwich composites are employed including the marine (leisure,
military and commercial), land transportation, wind energy, civil
engineering/infrastructure and general industrial markets.
Divinycell H is ideal for applications subject to fatigue, slamming or
impact loads. Other key features of Divinycell H include consistent
high quality, excellent adhesion/peel strength, excellent chemical
resistance, low water absorption and good thermal/acoustic
insulation. Divinycell H is compatible with virtually all commonly
used resin and manufacturing systems.
Divinycell PVC foams also feature very low resin uptake, enabling
weight and cost saving.
HIGH PERFORMANCE PVC CORE MATERIAL
Low water absorption
Superior damage tolerance
Fast and easy to process
Good chemical resistance
Excellent fatigue properties
Low resin uptake
Wide range of properties
Provides excellent mechanical properties to a low weight
Good temperature resistance
PRODUCT CHARACTERISTICS
diabgroup.com
MECHANICAL PROPERTIES
Property Test Pr ocedure Unit H45 H60 H80 H100 H130 H160 H200 H250
Compressive
Strength
1 ASTM D 1621 MPa
Nominal 0.6 0.9 1.4 2.0 3.0 3.4 5.4 7. 2
Minimum 0.5 0.7 1.15 1.65 2.4 2.8 4.5 6.1
Compressive Modulus
1
A S T M D1621-B-7 3MPa
Nominal 50 70 90 135 170 200 310 400
Minimum 45 60 80 115 145 175 265 350
Tensile Strength
1
ASTM D 1623 MPa
Nominal 1.4 1.8 2.5 3.5 4.8 5.4 7. 1 9.2
Minimum 1.1 1.5 2.2 2.5 3.5 4.0 6.3 8.0
Tensile Modulus
1
ASTM D 1623 MPa
Nominal 55 75 95 130 175 205 250 320
Minimum 45 57 85 105 135 160 210 260
Shear Strength ASTM C 273 MPa
Nominal 0.56 0.76 1.15 1.6 2.2 2.6 3.5 4.5
Minimum 0.46 0.63 0.95 1.4 1.9 2.2 3.2 3.9
Shear Modulus ASTM C 273 MPa
Nominal 15 20 27 35 50 60 73 97
Minimum 12 16 23 28 40 50 65 81
Shear Strain ASTM C 273 % Nominal 12 20 30 40 40 40 45 45
Density ISO 845 kg/m
3
Nominal 48 60 80 100 130 160 200 250
All values measured at +23 C
1. Properties measured perpendicular to the plane.
Nominal value is an average value of a mechanical property at nominal density.
Minimum value is a minimum guaranteed mechanical property a material has independently of density.
TECHNICAL DATA
Divinycell H
The foam can be used in sandwich structures, for outdoor exposure, with external skin temperatures up to +85 C.
Maximum processing temperature is dependent on time, pressure, and process conditions. To confirm that Divinycell H is compatible with users particular
processing parameters and for optimal design of applications used in high operating temperatures in combination with continuous load, please contact
Diab Technical Services.
Disclaimer:
This data sheet may be subject to revision and changes due to development
and changes of the material. The data is derived from tests and experience. If
not stated as minimum values, the data is average data and should be treated
as such. Calculations should be verified by actual tests. The data is furnished
without liability for the company and does not constitute a warranty or repre-
sentation in respect of the material or its use. The company reserves the right
to release new data sheets in replacement.
All content in this publication is protected by international copyright laws.
Copyright Diab November 2024.
Diab Group
Drottninggatan 7, 5th floor
SE-252 21 Helsingborg, Sweden
Tel +46 (0) 430 163 00
E-mail: info@diabgroup.com Datasheet Diab Divinycell H rev 24 SI November 2024
TECHNICAL CHARACTERISTICS
DIMENSIONS
Characteristics
1
Unit H45 H60 H80 H100 H130 H160 H200 H250 Test method
Density variation % +15/-10%+15/-10%+9/-16%+15/-10%+15/-10%+15/-10%+15/-10%+16/-10% –
Thermal conductivity
2
W/(m-K) 0.028 0.029 0.031 0.033 0.036 0.040 0.044 0.049 EN 12667
Coeff, linear heat expansion x10
-6
/ C 40 40 40 40 40 40 40 40 ISO 4897
Heat Distortion Temperature C +1 2 5 +1 2 5 +1 2 5 +1 2 5 +1 2 5 +1 2 5 +1 2 5 +1 2 5 DIN 53424
Continous temp range C – 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0- 2 0 0 /+7 0 –
Max process temp C +90 +90 +90 +1 10 +1 10 +1 10 +1 10 +1 10 –
Dissipation factor – 0.0002 0.0003 0.0005 0.0006 0.0009 0.0012 0.0015 0.0019 ASTM D 2520
Dielectric constant – 1.05 1.06 1.09 1.11 1.15 1.18 1.23 1.29 ASTM D 2520
Poissons ratio
3
– 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 D638-08
Format Unit H45 H60 H80 H100 H130H160 H200 H250
Plain sheets
Lengthmm 2440 2440 2440 21601960 1860 1730 1640
Width mm 1220 1220 1220 1070 970 915 850 800
GS sheet
Lengthmm 1220 1220 12201080 980 930 865 –
Width mm 813 813 813 1070 970 915 850 –
GS sheet
Lengthmm 1220 1220 1220 – – – – –
Width mm 1220 1220 1220 – – – – –
1. Typical values
2. Thermal conductivity at +20 C
3. Standard deviation is 0.045
STORAGE OF PRODUCT
The shelf life of Divinycell is unlimited when it is stored in its original package
on ambient indoor storage conditions and protected against UV exposure.
Divinycell H is type approved by:
Tolerances Unit Length Width Thickness
Plain sheets mm -10/+6 -5/+6 -/+ 0.5
by | Sep 27, 2025
Inteplast Trim Free Foam
SECTION 06 60 00
PLASTIC FABRICATIONS
PART 1 GENERAL
1.01 SECTION INCLUDES
A. Inteplast Trim Free Foam cellular PVC boards used for corner boards, soffits, fascias, battens, door
pilasters, frieze boards, rake boards, architectural millwork and door/window trim.
1.02 RELATED SECTIONS
A. Section 06 64 00 – Plastic Paneling.
B. Section 06 65 00 – Plastic Simulated Wood Trim.
C. Section 06 66 00 – Custom Ornamental Simulated Woodwork.
1.03 REFERENCES
A. AATC 127-1985 Hydrostatic Head Leakage Test.
B. ASTM C177 Standard Test Method for Steady-State Heat Flux Measurements and Thermal Transmission
Properties by Means of the Guarded-Hot-Plate Apparatus.
C. ASTM D256 Standard Test Methods for Determining the Izod Pendulum Impact Resistance of Plastics.
D. ASTM D570 Standard Test Method for Water Absorption of Plastics.
E. ASTM D635 Standard Test Method for Rate of Burning and/or Extent and Time of Burning of Plastics in
a Horizontal Position.
F. ASTM D648 Standard Test Method for Deflection Temperature of Plastics Under Flexural Load in the
Edgewise Position.
G. ASTM D696 Standard Test Method for Coefficient of Linear Thermal Expansion of Plastics Between
30 C and 30 C with a Vitreous Silica Dilatometer.
H. ASTM D790 Standard Test Methods for Flexural Properties of Unreinforced and Reinforced Plastics and
Electrical Insulating Materials.
I. ASTM D792 Standard Test Methods for Density and Specific Gravity (Relative Density) of Plastics by
Displacement
J. ASTM D1761 Standard Test Methods for Mechanical Fasteners in Wood.
K. ASTM D3345 Standard Test Method for Laboratory Evaluation of Wood and Other Cellulosic Materials
for Resistance to Termites.
L. ASTM D5420 Standard Test Method for Impact Resistance of Flat, Rigid Plastic Specimen by Means of a
Striker Impacted by a Falling Weight (Gardner Impact).
M. ASTM D6662 Standard Specification for Polyolefin-Based Plastic Lumber Decking Boards.
N. ASTM E84 Standard Test Method for Surface Burning Characteristics of Building Materials.
O. ASTM E330 Standard Test Method for Structural Performance of Exterior Windows, Doors, Skylights
and Curtain Walls by Uniform Static Air Pressure Difference.
P. ASTM G155 Standard Practice for Operating Xenon Arc Light Apparatus for Exposure of Non-Metallic
Materials.
Q. AWPA E12 Corrosion of Materials on Contact with Treated Wood.
1.04 SUBMITTALS
A. General: Submit listed submittals in accordance with Conditions of the Contract and Division 1 Submittal
Procedures Section.
B. Product Data: Submit product data, manufacture s catalog, technical bulletins, for specified products.
C. Samples: Submit three material samples representative of the texture, thickness and widths shown
andspecified herein.
1.05 QUALITY ASSURANCE
A. Regulatory Requirements: Check with Local Building Code for installation requirements.
B. Allowable Tolerances:
1. Variation in component length: -0.0 / +7/8
2. Variation in component width: -0.0 / +1/16
3. Variation in component thickness: 5%
4. Variation in component edge cut: 2
5. Variation in Density: 5%
C. Workmanship, Finish, and Appearance:
1. Inteplast Trim Free Foam cellular PVC board is homogeneous and free of voids, holes, cracks, and foreign
inclusions and other defects. Edges must be square, and top and bottom surfaces shall be flat with no convex
or concave deviation.
2. Uniform surface free from cupping, warping, and twisting.
1.06 DELIVERY, STORAGE AND HANDLING
A. Trim materials should be stored on a flat and level surface on a full shipping pallet. Handle materials to
prevent damage to product edges and corners. Store materials under a protective covering to prevent job site
dirt and residue from collecting on the boards.
1.07 WARRANTY
A. Inteplast Trim is backed by a lifetime limited warranty for single-family residential purchases and
applications against rot, delaminate, splinter, crack, split, excessively swell, or suffer structural damage
from termites or fungal decay. For all other purchases and applications, including commercial use,
condominiums and multi-family dwellings, this warranty shall be limited to a period of twenty (20) years.
PART II PRODUCTS
2.01 MATERIALS
A. Acceptable products: Inteplast Trim Free Foam manufactured by Inteplast Group Ltd., 101 Inteplast Blvd.,
Lolita, TX 77971.
B. Material: Free foam cellular PVC material with a small-cell microstructure and density of 0.57 grams/cm3.
1. Material shall have typical physical and performance properties specified in Section C on the following
page.
C. Performance and physical characteristic requirements:
Property Test Method Value
Density, g/cm3 ASTM D792 0.60
MOR (Flexural Strength), psi ASTM D790 3,600
MOE (Flexural Modulus), psi ASTM D790 144,000
Weathering ASTM G155 &
ASTM D790
MOR (Change), % +2.4
MOE (Change), % +0.7
Freeze-Thaw ASTM D6662 &
ASTM D790
MOR (Change), % +0.1
MOE (Change), % +0.9
Water Resistance AATCC 127 No Penetration
Water Absorption, 24 hrs, % ASTM D570 < 0.3
Termite Resistance ASTM D3345 9.2
Surface Burning, Flame Spread Index ASTM E84 25.0
Burning Rate ASTM D635 No burn when flame removed
Mechanical Fastener, Allowable Load, lbf ASTM D1761 151 (8d nail and 1" thick trim)
Negative Transverse Wind Load, psf ASTM E330 72.0
Gardener Impact Resistance, in-lbf ASTM D5420 629 (3/4" thick trim)
Coefficient of Linear Thermal Expansion, oC-1 ASTM D696 6.27 E-5
Heat Deflection Temp., oF @ 264 psi ASTM D648 146
Corrosion by Preservative-Treated Wood AWAP E12 No Wt. Loss
Izod, ft-lb/in ASTM D256 0.37
Heat Conductivity, Btu-in/hr-ft2-oF ASTM C177 0.5
2.02 ACCESSORY PRODUCTS
A. Fasteners:
1. Use fasteners designed for wood trim and wood siding (thinner shank, blunt point, full round head) with
Inteplast Trim Free Foam.
2. Use a highly durable fastener such as stainless steel or hot-dipped galvanized.
3. Staples, small brads and wire nails must not be used as fastening members.
4. The fasteners should be long enough to penetrate the solid wood substrate a minimum of 1-3/8 .
5. Standard nail guns work well with Inteplast Trim Free Foam.
6. Use 2 fasteners per every framing member for trim boards applications. Trim boards of 12 or wider, as
well as sheets, will require additional fasteners.
7. Fasteners must be installed no more than 2 from the end of each board.
8. Inteplast Trim Free Foam should be fastened into a flat, solid substrate. Fastening Inteplast Trim Free
Foam into hollow or uneven areas must be avoided.
9. Pre-drilling is typically not required unless a large fastener is used or product is installed in low
temperatures.
10. 3/8 and 1/2 sheet product is not intended to be ripped into trim pieces. These profiles must be glued to a
substrate and mechanically fastened.
B. Adhesives:
1. Glue all joints between Inteplast Trim Free Foam such as window surrounds, long fascia runs, etc. with
cellular PVC cement, to prevent joint separation.
2. The glue joint should be secured with a fastener and/or fastened on each side of the joint to allow adequate
bonding time.
3. Surfaces to be glued should be smooth, clean and in complete contact with each other.
4. To bond Inteplast Trim Free Foam to other substrates, various adhesives may be used. Consult adhesive
manufacturer to determine suitability.
C. Sealant:
1. Use urethane, polyurethane or acrylic based sealant without silicone.
2.03 FINISHES
A. Inteplast Trim Free Foam do not require paint for protection, but may be painted to achieve a custom color.
B. Preparation:
1. No special surface preparation is required prior to painting - sanding is not necessary for paint adhesion.
2. Surface must be clean and dry.
3. If desired, nail holes may be filled with polyurethane or acrylic based caulk.
4. Use a 100% acrylic latex paint with a Light Reflective Value (LRV) of 54 or higher.
5. Follow the paint manufacturer s recommendations to apply.
PART III EXECUTION
3.01 INSTALLATION
A. Manufacturers instructions:
1. Comply with manufacturer s product catalog installation instructions and product technical bulletin
instructions.
B. Cutting:
1. Inteplast Trim Free Foam can be cut using the same tools used to cut lumber.
2. Carbide tipped blades designed to cut woodwork well. Avoid fine tooth metal cutting blades.
3. Rough edges from cutting may be caused by excessive friction, poor board support, or worn or improper
tooling.
C. Drilling:
1. Inteplast Trim Free Foam can be drilled using the same tools used to drill lumber.
2. Drilling Inteplast Trim Free Foam is similar to drilling a hardwood. Care should be taken to avoid
frictional heat buildup.
3. Use standard woodworking drills. Do not use drills made for normal rigid PVC.
4. Periodic removal of Inteplast Trim Free Foam shavings from the drill hole may be necessary.
D. Milling:
1. Inteplast Trim Free Foam can be milled using standard milling machines used to mill lumber.
2. Relief Angle 20 to 30 .
3. Cutting speed to be optimized with the number of knives and feed rate.
E. Routing:
1. Inteplast Trim Free Foam can be routed using standard router bits and the same tools used to rout lumber.
2. Carbide tipped router bits are recommended.
F. Edge Finishing:
1. Edges can be finished by sanding, grinding or filing with traditional woodworking tools.
G. Nail Location:
1. Use 2 fasteners per every framing member for trim board applications.
2. Inteplast Trim Free Foam of over 12 or wider, as well as sheets, will require additional fasteners.
3. Fasteners must be installed no more than 2 from the end of each board.
H. Thermal Expansion and Contraction:
1. Inteplast Trim Free Foam expands and contracts with changes in temperature.
2. Properly fastening Inteplast Trim Free Foam along its entire length will minimize expansion and
contraction.
3. When properly fastened, allow for 1/8 per 18 foot of Inteplast Trim Free Foam for expansion and
contraction.
4. Joints between pieces of Inteplast Trim Free Foam should be glued to eliminate joint separation.
5. Allow expansion and contraction space at the ends of long runs.
END OF SECTION
by | Sep 27, 2025
TECHNICAL DATA
www.armacell-core-foams.com
// Fatigue resistance: threshold > 60%
// High processing temperature: +150 C / +302 F
// Limited density variation: less than 5%
// Process versatility: infusion, pre-preg, all common resin systems
// Thermo-formability: 3D-shaped or double curved sandwich panels
// Sustainability: 100% recyclable after use phase
ArmaForm
Core GR
Eco-friendly, lightweight PET foam boards
for structural core applications. Made by
Armacell s patented r-PET technology
of producing PET foams, made of 100%
recycled PET.
LIGHTWEIGHT CORE FOR STRONG STRUCTURES
ArmaForm CoreArmaForm Core
Armacell offers a wide range of innovative and eco-friendly structural foam cores
combining lightweight and high mechanical strength in conjunction with residual
flexibility and maximum service life. Made entirely of recycled PET bottles,
ArmaForm Core is sustainable, 100% recyclable alternative to legacy materials.
The trend of designing environmentally-friendly composite
structures which are light, strong and recyclable has led industrial
designers, specifiers and composite manufacturers to accelerate
the substitution of conventional core materials such as Balsa, SAN,
PUR or PVC with our PET foam cores in a wide range of applications
as diverse as wind turbine blades, train floors and truck bodies,
building envelopes, boat hulls and surfboards.
APPLICATION
PATENTED PROCESS TECHNOLOGY
WITH LOWEST CO2 EMISSIONS
PUR Polyurethane
PVC Polyvinyl Chloride
SAN Styrene Acrylonitrile
XPS Extruded Polystyrene
Using 100% recycled PET as a raw material base for our PET
foam products delivers significant CO2
emission savings:
PUR PVC SAN XPS
virgin
PET
recycled
PET
100%
149%
179%
185%
209%
260%
>33%
CO
2 EMISSION
SAVINGS
Technical Data ArmaForm
Core GR
Polyethylene Terephthalate based structural foam cores. Made from 100% post-consumer PET.
305290255195175140110
4.84.33.93.33.02.92.5
695625565480435420365
350270235185140140120
50 75039 15034 07526 82520 30020 300
tbd0.0470.0430.0410.0370.034
tbd0.3260.2980.2840.2570.236
psi 75 85
1.8 2.0
260 290
66 80
MPa
psi
MPa
psi 9 570 17 40011 600
W/(m K) 0.0340.034
BTU.in/
FT .hr. F
0.034
0.236 0.2360.236
MPa 907051373513 262116
psi 13 05010 1507 3955 3655 0751 885 3 7703 0452 320
% 2357715 101013
% 2357715 101013
GR320
(1)
GR250GR200GR150GR135GR70 GR115GR100GR80
Density ISO 845
kg/m 320
(3)
250
(3)
200
(3)
150
(3)
135
(2)
70
(2)
115
(2)
100
(2)
80
(2)
lb/ft 20.0
(3)
15.6
(3)
12.5
(3)
9.4
(3)
8.4
(2)
4.4
(2)
7.2
(2)
6.2
(2)
5.0
(2)
Compression
Strength
ISO 844
MPa 7.05.34.02.62.30.75 1.81.51.0
Compression
Modulus
ISO 844
Shear
Strength
(4) ISO 1922
psi 1015770580375335110 260220145
MPa 32023517512010540 907757
psi 46 40034 07525 37517 40015 2255 800 13 05011 1658 265
MPa 2.12.01.751.351.20.5 0.950.750.6
Shear
Modulus
(4) ISO 1922
Shear
Strain
(4) ISO 1922
Tensile
Strength
ASTM C 297
Tensile
Modulus
ASTM C 297
Thermal
Conductivity
at 23
o
C
at 73.4
o
F
(1) Preliminary data (indication based on a limited number of tests).
(2) Tolerances: +/- 5 kg/m , +/- 0.3 lb/ft
(3) Tolerances: +/- 5 %
(4) // direction (parallel to the weld)
(5) Depending on length and width combination.
Dimensions
mm
Tolerances
2448
Length
1008
Width
(5)
Diagonal
GR70-GR150: 5-150mm
GR200-GR320: 5-100mm
Thickness
inch
At room
temperature
mm
inch
96.38
+/- 5
+/- 0.2
39.68
+/- 5
+/- 0.2
(5)
4
0.16
GR70-GR150: 0.2 – 5.91
GR200-GR320: 0.2 – 3.94
100mm: +/- 0.5
100mm: +/- 1
3.94: +/- 0.02
3.94: +/- 0.04
All values are average production figures.
Minimum values on request.
Our products are CFC / HFC free.
Physical properties are not affected by variances in colour.
Customs tariff code: 39.21.19.00
LIGHTWEIGHT CORE FOR STRONG STRUCTURES
All data and technical information are based on results achieved under typical application conditions. It is the customer s responsibility to verify if
the product is suitable for the intended application. The responsibility for professional and correct installation and compliance with relevant build-
ing regulations lies with the customer. By ordering/receiving product you accept the Armacell General Terms and Conditions of Sale applicable in
the region. Please request a copy if you have not received these.
Armacell, 2020. ArmaForm
is a trademark of the Armacell group.
00252 I PET/W GR I ArmaForm Core I TDS I 032020 I Global I EN Master
As the inventors of flexible foam for equipment insulation and a leading provider of engineered foams, Armacell develops
innovative and safe thermal, acoustic and mechanical solutions that create sustainable value for its customers. Armacell s
products significantly contribute to global energy efficiency making a difference around the world every day. With 3,135
employees and 24 production plants in 16 countries, the company operates two main businesses, Advanced Insulation and
Engineered Foams. Armacell focuses on insulation materials for technical equipment, high-performance foams for high-
tech and lightweight applications and next generation aerogel blanket technology. For more information, please visit:
www.armacell.com
For more information, please visit:
www.armacell-core-foams.com
ABOUT ARMACELL
by | Sep 27, 2025
TECHNICAL DATA
www.armacell-core-foams.com
// Fatigue resistance: threshold > 60%
// High processing temperature: +150 C / +302 F
// Limited density variation: less than 5%
// Process versatility: infusion, pre-preg, all common resin systems
// Thermo-formability: 3D-shaped or double curved sandwich panels
// Sustainability: 100% recyclable after use phase
ArmaForm
Core GR
Eco-friendly, lightweight PET foam boards
for structural core applications. Made by
Armacell s patented r-PET technology
of producing PET foams, made of 100%
recycled PET.
LIGHTWEIGHT CORE FOR STRONG STRUCTURES
ArmaForm CoreArmaForm Core
Armacell offers a wide range of innovative and eco-friendly structural foam cores
combining lightweight and high mechanical strength in conjunction with residual
flexibility and maximum service life. Made entirely of recycled PET bottles,
ArmaForm Core is sustainable, 100% recyclable alternative to legacy materials.
The trend of designing environmentally-friendly composite
structures which are light, strong and recyclable has led industrial
designers, specifiers and composite manufacturers to accelerate
the substitution of conventional core materials such as Balsa, SAN,
PUR or PVC with our PET foam cores in a wide range of applications
as diverse as wind turbine blades, train floors and truck bodies,
building envelopes, boat hulls and surfboards.
APPLICATION
PATENTED PROCESS TECHNOLOGY
WITH LOWEST CO2 EMISSIONS
PUR Polyurethane
PVC Polyvinyl Chloride
SAN Styrene Acrylonitrile
XPS Extruded Polystyrene
Using 100% recycled PET as a raw material base for our PET
foam products delivers significant CO2
emission savings:
PUR PVC SAN XPS
virgin
PET
recycled
PET
100%
149%
179%
185%
209%
260%
>33%
CO
2 EMISSION
SAVINGS
Technical Data ArmaForm
Core GR
Polyethylene Terephthalate based structural foam cores. Made from 100% post-consumer PET.
305290255195175140110
4.84.33.93.33.02.92.5
695625565480435420365
350270235185140140120
50 75039 15034 07526 82520 30020 300
tbd0.0470.0430.0410.0370.034
tbd0.3260.2980.2840.2570.236
psi 75 85
1.8 2.0
260 290
66 80
MPa
psi
MPa
psi 9 570 17 40011 600
W/(m K) 0.0340.034
BTU.in/
FT .hr. F
0.034
0.236 0.2360.236
MPa 907051373513 262116
psi 13 05010 1507 3955 3655 0751 885 3 7703 0452 320
% 2357715 101013
% 2357715 101013
GR320
(1)
GR250GR200GR150GR135GR70 GR115GR100GR80
Density ISO 845
kg/m 320
(3)
250
(3)
200
(3)
150
(3)
135
(2)
70
(2)
115
(2)
100
(2)
80
(2)
lb/ft 20.0
(3)
15.6
(3)
12.5
(3)
9.4
(3)
8.4
(2)
4.4
(2)
7.2
(2)
6.2
(2)
5.0
(2)
Compression
Strength
ISO 844
MPa 7.05.34.02.62.30.75 1.81.51.0
Compression
Modulus
ISO 844
Shear
Strength
(4) ISO 1922
psi 1015770580375335110 260220145
MPa 32023517512010540 907757
psi 46 40034 07525 37517 40015 2255 800 13 05011 1658 265
MPa 2.12.01.751.351.20.5 0.950.750.6
Shear
Modulus
(4) ISO 1922
Shear
Strain
(4) ISO 1922
Tensile
Strength
ASTM C 297
Tensile
Modulus
ASTM C 297
Thermal
Conductivity
at 23
o
C
at 73.4
o
F
(1) Preliminary data (indication based on a limited number of tests).
(2) Tolerances: +/- 5 kg/m , +/- 0.3 lb/ft
(3) Tolerances: +/- 5 %
(4) // direction (parallel to the weld)
(5) Depending on length and width combination.
Dimensions
mm
Tolerances
2448
Length
1008
Width
(5)
Diagonal
GR70-GR150: 5-150mm
GR200-GR320: 5-100mm
Thickness
inch
At room
temperature
mm
inch
96.38
+/- 5
+/- 0.2
39.68
+/- 5
+/- 0.2
(5)
4
0.16
GR70-GR150: 0.2 – 5.91
GR200-GR320: 0.2 – 3.94
100mm: +/- 0.5
100mm: +/- 1
3.94: +/- 0.02
3.94: +/- 0.04
All values are average production figures.
Minimum values on request.
Our products are CFC / HFC free.
Physical properties are not affected by variances in colour.
Customs tariff code: 39.21.19.00
LIGHTWEIGHT CORE FOR STRONG STRUCTURES
All data and technical information are based on results achieved under typical application conditions. It is the customer s responsibility to verify if
the product is suitable for the intended application. The responsibility for professional and correct installation and compliance with relevant build-
ing regulations lies with the customer. By ordering/receiving product you accept the Armacell General Terms and Conditions of Sale applicable in
the region. Please request a copy if you have not received these.
Armacell, 2020. ArmaForm
is a trademark of the Armacell group.
00252 I PET/W GR I ArmaForm Core I TDS I 032020 I Global I EN Master
As the inventors of flexible foam for equipment insulation and a leading provider of engineered foams, Armacell develops
innovative and safe thermal, acoustic and mechanical solutions that create sustainable value for its customers. Armacell s
products significantly contribute to global energy efficiency making a difference around the world every day. With 3,135
employees and 24 production plants in 16 countries, the company operates two main businesses, Advanced Insulation and
Engineered Foams. Armacell focuses on insulation materials for technical equipment, high-performance foams for high-
tech and lightweight applications and next generation aerogel blanket technology. For more information, please visit:
www.armacell.com
For more information, please visit:
www.armacell-core-foams.com
ABOUT ARMACELL
by | Sep 27, 2025
FIBERTEC Reinforcing the plastics industry
35 Scotland Boulevard Bridgewater, MA 02324 508-697-5100 Fax 508-697-7140 www.fibertecinc.com
Final determination of the suitability of the material for the use contemplated is the sole
responsibility of the user. No warranty is expressed or implied, and the manufacturer s only
obligation shall be to replace such quantity of the product proven to be defective.
F 8.0-7, Rev. 1
PRODUCT SPECIFICATION
MICROGLASS 6608
Revision-A
DESCRIPTION
Microglass milled fibers are E-glass filaments.
PRIMARY USE
Microglass is used as reinforcement in composites to increase mechanical properties (impact,
tensile, compressive and flexural), improve dimensional stability and minimize distortion at
elevated temperatures.
SPECIFICATIONS AVERAGE VALUE
Fiber Diameter 16 microns
Fiber Length 470 microns
Aspect Ratio 27:1
Loose Bulk Density 0.28 +/- 0.08 g/cc
Moisture Content < 0.1%
Loss on Ignition < 1.05%
Contamination Free of foreign matter, dirt, oil or grease, and
hard lumps of nodulated and/or unmilled fibers
Color Gray
Sizing Silane
Appearance Floccular
by | Sep 27, 2025
FIBERTEC Reinforcing the plastics industry
35 Scotland Boulevard Bridgewater, MA 02324 508-697-5100 Fax 508-697-7140 www.fibertecinc.com
Final determination of the suitability of the material for the use contemplated is the sole
responsibility of the user. No warranty is expressed or implied, and the manufacturer s only
obligation shall be to replace such quantity of the product proven to be defective.
F 8.0-7, Rev. 0
PRODUCT SPECIFICATION
MICROGLASS 7216M
Revision-A
DESCRIPTION
Microglass milled fibers are E-glass filaments.
PRIMARY USE
Microglass is used as reinforcement in composites to increase mechanical properties (impact,
tensile, compressive and flexural), improve dimensional stability and minimize distortion at
elevated temperatures.
SPECIFICATIONS AVERAGE VALUE
Fiber Diameter 16 microns
Fiber Length 270 microns
Aspect Ratio 16:1
Bulk Density 0.55 +/- 0.08 g/cc
Moisture Content < 0.1%
Loss on Ignition < 0.08%
Contamination Free of foreign matter, dirt, oil or grease, and
hard lumps of nodulated and/or unmilled fibers
Color White to off-white
Sizing Cationic
Appearance Floccular
.
by | Sep 27, 2025
FIBERTEC
Final determination of the suitability of the material for the use contemplated is the sole
responsibility of the user. No warranty is expressed or implied, and the manufacturer s only
obligation shall be to replace such quantity of the product proven to be defective.
Microglass milled fibers are E-glass filaments.
Microglass is used as reinforcement in composites to increase mechanical properties (impact,
tensile, compressive and flexural), improve dimensional stability and minimize distortion at
elevated temperatures.
Fiber Diameter 16 microns
Fiber Length 230 microns
Aspect Ratio 13:1
Bulk Density 0.78 g/cc
Moisture Content < 0.1%
Loss on Ignition < 0.08%
Contamination Free of foreign matter, dirt, oil or grease, and
hard lumps of nodulated and/or unmilled fibers
Color White to off-white
Sizing Cationic
Appearance Powdery
Reinforcing the plastics industry
35 Scotland Boulevard Bridgewater, MA 02324 508-697-5100 Fax 508-697-7140 www.fibertecinc.coml l l l
PRODUCT SPECIFICATION
MICROGLASS 7232
SPECIFICATIONS AVERAGE VALUE
DESCRIPTION
PRIMARY USE
by | Sep 27, 2025
Chopped Strands
IUSHI
D
D For BMC
Chopped Strands 5528 are particularly for manufacture of BMC
premix thermosetting composites. 5528 are coated with
Silane-based sizing compatible with unsaturated polyester and vinyl
ester resin systems. The unique sizing formulation provides excellent
mechanical property and outstanding impact strength in the end
products.
ldentification
Example ECS13-06-552B
Type of Glass E
Chopped Strands CS
Filament Diameter, pm 13
Chop Length, mm 3.6. 12
Size Code 5528
Technical Parameters Packaging
tilamentDiameter
(%)
tso 1888
Moisture Content {%) 5ize Content (%) Chop length {mm)
r50 3344 rso 1887 Q/JS J0361
110 < 0.10
'1.70
10.15 1.0
Bulk bag
Storage
Product Features
@ Excellent mechanical property
O Good strand integrity, low static and low fuzz
@ Consistent dispersion in resins, insuring good
processing property
@ Excellent pigmental and color matching property
Unless otherwise specified, fiberglass products should be stored in a dry, cool
and rain-proof area. lt is recommended that the room temperature and humidity
should be always maintained at 15 C-35t and 35%-65% respectively.
"#
*
The product can be packed in bulk bags, cardboard boxes and composite plastic
woven bags;
For example:
Bulk bags can hold 500k9-1000k9 each;
Cardboard boxes and composite plastic woven bags can hold 15kg-25k9 each.
Carton box
Compostite plastic woven bag
Length mm (in) 1 030 (40.55)
Width mm (in) 1030 (40.s5)
Height mm (in) 1 100 (43.31
)
Length mm (in) 355 (13.98)
Width mm (in) 355 (13.98)
Height mm (in) 270(1 0.63)
Length mm (in) 850 (33.46)
Width mm (in) 5oo (1 9.68)
Height mm (in) 120 (4.72)
JUSHI GROUP CO., LTD.
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