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Cytec Cyply® 1002 Epoxy Fiberglass Composite, Crossply

Category Polymer , Thermoset , Epoxy
Manufacturer Cytec
Trade Name Cyply®
Port Ningbo port,China
Trade Terms FOB, CFR, CIF
Payment Terms L/C, T/T, Western Union
Download PDF Cytec Cyply® 1002 Epoxy Fiberglass Composite, Crossply.pdf
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Material Notes:
CYPLY® 1002 is a cured epoxy composite material based on a unique non-woven parallel filament construction. This type of construction minimizes filament stress abrasion that can shorten fatigue life in conventional reinforced plastics. CYPLY® 1002 uses type E continuous filament fiberglass. It is supplied as cured panels or cut to size shapes. CYPLY 1002 is available in unidirectional, crossply, or isotropic fiber orientation, each offering a different balance of properties.Features and benefits include:High impact strengthchemical and corrosion resistancehigh strength-to-weight ratioexcellent fatigue life and high strain capabilitylow notch sensitivityincreased design options (springs to rail joints)resistant to solvents and cleaning fluidsless downtime in harsh environmentsweight reductiongreater capacity to store energy than 1060 spring steelInformation provided by Red Seal Electric Company.
Physical Properties Metric English Comments
Specific Gravity 1.85 g/cc
1.85 g/cc
Filler Content 64 %
64 %
Mechanical Properties Metric English Comments
Hardness, Barcol 70
70
Tensile Strength, Ultimate 145 MPa
21000 psi
45° stress angle
483 MPa
70000 psi
90° stress angle
483 MPa
70000 psi
0° stress angle
Tensile Modulus 10.3 GPa
1500 ksi
45° stress angle
23.4 GPa
3400 ksi
0° stress angle
24.1 GPa
3500 ksi
90° stress angle
Flexural Strength 310 MPa
45000 psi
45° stress angle
758 MPa
110000 psi
90° stress angle
758 MPa
110000 psi
0° stress angle
Flexural Modulus 13.8 GPa
2000 ksi
45° stress angle
24.1 GPa
3500 ksi
90° stress angle
24.1 GPa
3500 ksi
0° stress angle
Compressive Strength 207 MPa
30000 psi
45° stress angle
689 MPa
100000 psi
90° stress angle
689 MPa
100000 psi
0° stress angle
Fatigue Strength 159 MPa

@# of Cycles 1.00e+8
23000 psi

@# of Cycles 1.00e+8
Flexural Fatigue (SN)
172 MPa

@# of Cycles 1.00e+7
25000 psi

@# of Cycles 1.00e+7
Flexural Fatigue (SN)
214 MPa

@# of Cycles 1.00e+6
31000 psi

@# of Cycles 1.00e+6
Flexural Fatigue (SN)
262 MPa

@# of Cycles 100000
38000 psi

@# of Cycles 100000
Flexural Fatigue (SN)
310 MPa

@# of Cycles 10000
45000 psi

@# of Cycles 10000
Flexural Fatigue (SN)
407 MPa

@# of Cycles 1000
59000 psi

@# of Cycles 1000
Flexural Fatigue (SN)
Shear Modulus 62.1 GPa
9000 ksi
Short Beam; 0° stress angle; span/depth 5:1; ASTM D2344-76; span/depth 5:1
Thermal Properties Metric English Comments
CTE, linear 12.8 µm/m-°C

@Temperature -34.4 - 93.3 °C
7.10 µin/in-°F

@Temperature -30.0 - 200 °F
parallel to lengthwise filaments; ASTM D696-42T
12.8 µm/m-°C

@Temperature -34.4 - 93.3 °C
7.10 µin/in-°F

@Temperature -30.0 - 200 °F
parallel to crosswise filaments; ASTM D696-42T
Specific Heat Capacity 0.879 J/g-°C
0.210 BTU/lb-°F
Thermal Conductivity 0.334 W/m-K

@Temperature 7.22 °C
2.32 BTU-in/hr-ft²-°F

@Temperature 45.0 °F
on 1 inch thick isotropic laminate
0.336 W/m-K

@Temperature 2.22 °C
2.33 BTU-in/hr-ft²-°F

@Temperature 36.0 °F
on 1 inch thick isotropic laminate
0.342 W/m-K

@Temperature 51.7 °C
2.37 BTU-in/hr-ft²-°F

@Temperature 125 °F
on 1 inch thick isotropic laminate
0.346 W/m-K

@Temperature 85.6 °C
2.40 BTU-in/hr-ft²-°F

@Temperature 186 °F
on 1 inch thick isotropic laminate
Electrical Properties Metric English Comments
Volume Resistivity 4.90e+17 ohm-cm
4.90e+17 ohm-cm
50% RH and at 90% RH
Insulation Resistance 5.30e+15 ohm
5.30e+15 ohm
50% RH
6.80e+10 ohm

@Temperature 150 °C
6.80e+10 ohm

@Temperature 302 °F
50% RH
6.20e+11 ohm

@Temperature 120 °C
6.20e+11 ohm

@Temperature 248 °F
50% RH
9.70e+12 ohm

@Temperature 60.0 °C
9.70e+12 ohm

@Temperature 140 °F
90% RH
2.70e+14 ohm

@Temperature 60.0 °C
2.70e+14 ohm

@Temperature 140 °F
50% RH
3.30e+14 ohm

@Temperature 23.0 °C
3.30e+14 ohm

@Temperature 73.4 °F
90% RH
Dielectric Constant 4.8

@Frequency 1e+6 Hz
4.8

@Frequency 1e+6 Hz
50% RH
5.2

@Frequency 1000 Hz
5.2

@Frequency 1000 Hz
50% RH
4.4

@Frequency 3.00e+7 Hz,
Temperature 23.0 °C
4.4

@Frequency 3.00e+7 Hz,
Temperature 73.4 °F
50% RH
5.1

@Frequency 100000 Hz,
Temperature 23.0 °C
5.1

@Frequency 100000 Hz,
Temperature 73.4 °F
50% RH
5.3

@Frequency 60.0 Hz,
Temperature 23.0 °C
5.3

@Frequency 60.0 Hz,
Temperature 73.4 °F
50% RH
5.5

@Frequency 1.00e+6 Hz,
Temperature 23.0 °C
5.5

@Frequency 1.00e+6 Hz,
Temperature 73.4 °F
90% RH
5.7

@Frequency 1000 Hz,
Temperature 60.0 °C
5.7

@Frequency 1000 Hz,
Temperature 140 °F
50% RH
6.1

@Frequency 1000 Hz,
Temperature 120 °C
6.1

@Frequency 1000 Hz,
Temperature 248 °F
50% RH
6.5

@Frequency 1000 Hz,
Temperature 23.0 °C
6.5

@Frequency 1000 Hz,
Temperature 73.4 °F
90% RH
6.8

@Frequency 1000 Hz,
Temperature 60.0 °C
6.8

@Frequency 1000 Hz,
Temperature 140 °F
90% RH
7.0

@Frequency 60.0 Hz,
Temperature 23.0 °C
7.0

@Frequency 60.0 Hz,
Temperature 73.4 °F
90% RH
7.3

@Frequency 1000 Hz,
Temperature 150 °C
7.3

@Frequency 1000 Hz,
Temperature 302 °F
50% RH
Dielectric Strength 24.4 kV/mm
620 kV/in
50% RH
Dissipation Factor 0.0060

@Frequency 1000 Hz
0.0060

@Frequency 1000 Hz
50% RH
0.017

@Frequency 1e+6 Hz
0.017

@Frequency 1e+6 Hz
50% RH
0.0033

@Frequency 1000 Hz,
Temperature 120 °C
0.0033

@Frequency 1000 Hz,
Temperature 248 °F
50% RH
0.0052

@Frequency 60.0 Hz,
Temperature 23.0 °C
0.0052

@Frequency 60.0 Hz,
Temperature 73.4 °F
50% RH
0.0087

@Frequency 1000 Hz,
Temperature 60.0 °C
0.0087

@Frequency 1000 Hz,
Temperature 140 °F
50% RH
0.014

@Frequency 100000 Hz,
Temperature 23.0 °C
0.014

@Frequency 100000 Hz,
Temperature 73.4 °F
50% RH
0.019

@Frequency 1.00e+6 Hz,
Temperature 23.0 °C
0.019

@Frequency 1.00e+6 Hz,
Temperature 73.4 °F
90% RH
0.023

@Frequency 3.00e+7 Hz,
Temperature 23.0 °C
0.023

@Frequency 3.00e+7 Hz,
Temperature 73.4 °F
50% RH
0.036

@Frequency 60.0 Hz,
Temperature 23.0 °C
0.036

@Frequency 60.0 Hz,
Temperature 73.4 °F
90% RH
0.050

@Frequency 1000 Hz,
Temperature 23.0 °C
0.050

@Frequency 1000 Hz,
Temperature 73.4 °F
90% RH
0.054

@Frequency 1000 Hz,
Temperature 60.0 °C
0.054

@Frequency 1000 Hz,
Temperature 140 °F
90% RH
0.13

@Frequency 1000 Hz,
Temperature 150 °C
0.13

@Frequency 1000 Hz,
Temperature 302 °F
50% RH
Arc Resistance 20 sec
20 sec
with filaments; 50% RH and at 90% RH
80 sec
80 sec
across filaments; 50% RH and at 90% RH
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