MatWeb - Material Property Data Advertise with MatWeb!     Register Now
Data sheets for over 180,000 metals, plastics, ceramics, and composites.
MatWeb - Material Property Data HOME  •   SEARCH  •   TOOLS  •   SUPPLIERS  •   FOLDERS  •   ABOUT US  •   FAQ  •   LOG IN    
Recently Viewed Materials (most recent at top)  

Login to see your most recently viewed materials here.

Or if you don't have an account with us yet, then click here to register.

  Searches:   Advanced  | Category  | Property  | Metals  | Trade Name  | Manufacturer  | Recently Viewed Materials
  
Ensinger PEI
Norplex-Micarta NorPLY™ 1002 Epoxy Fiberglass Composite, Isotropic
Categories: Polymer; Thermoset; Epoxy
Material Notes: NorPLY™ 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. NorPLY™ 1002 uses type E continuous filament fiberglass. It is supplied as cured panels or cut to size shapes. NorPLY™ 1002 is available in unidirectional, crossply, or isotropic fiber orientation, each offering a different balance of properties.

Features and benefits include:

  • High impact strength
  • chemical and corrosion resistance
  • high strength-to-weight ratio
  • excellent fatigue life and high strain capability
  • low notch sensitivity
  • increased design options (springs to rail joints)
  • resistant to solvents and cleaning fluids
  • less downtime in harsh environments
  • weight reduction
  • greater capacity to store energy than 1060 spring steel

Norplex-Micarta acquired the CYPLY® line from Solvay in 2021 and renamed the product NorPLY™.
Key Words: Formerly CYPLY® 1002, E-Glass
Vendors:
Available Properties
  • Specific Gravity
  • Filler Content
  • Hardness, Barcol
  • Tensile Strength, Ultimate, 45° stress angle
  • Tensile Strength, Ultimate, 90° stress angle
  • Tensile Strength, Ultimate, 0° stress angle
  • Tensile Modulus, 0° stress angle
  • Tensile Modulus, 45° stress angle
  • Tensile Modulus, 90° stress angle
  • Flexural Strength, 45° stress angle
  • Flexural Strength, 90° stress angle
  • Flexural Strength, 0° stress angle
  • Flexural Modulus, 90° stress angle
  • Flexural Modulus, 45° stress angle
  • Flexural Modulus, 0° stress angle
  • Compressive Strength, 45° stress angle
  • Compressive Strength, 90° stress angle
  • Compressive Strength, 0° stress angle
  • Fatigue Strength, Flexural Fatigue (SN)
  • Fatigue Strength, Flexural Fatigue (SN)
  • Fatigue Strength, Flexural Fatigue (SN)
  • Fatigue Strength, Flexural Fatigue (SN)
  • Fatigue Strength, Flexural Fatigue (SN)
  • Fatigue Strength, Flexural Fatigue (SN)
  • Shear Modulus, ASTM D2344-76; span/depth 5:1, Short Beam; 0° stress angle; span/depth 5:1
  • Volume Resistivity, 50% RH and at 90% RH
  • Insulation Resistance, 50% RH
  • Insulation Resistance, 50% RH
  • Insulation Resistance, 50% RH
  • Insulation Resistance, 90% RH
  • Insulation Resistance, 50% RH
  • Insulation Resistance, 90% RH
  • Dielectric Constant, 50% RH
  • Dielectric Constant, 50% RH
  • Dielectric Constant, 50% RH
  • Dielectric Constant, 50% RH
  • Dielectric Constant, 50% RH
  • Dielectric Constant, 90% RH
  • Dielectric Constant, 50% RH
  • Dielectric Constant, 50% RH
  • Dielectric Constant, 90% RH
  • Dielectric Constant, 90% RH
  • Dielectric Constant, 90% RH
  • Dielectric Constant, 50% RH
  • Dielectric Strength, 50% RH
  • Dissipation Factor, 50% RH
  • Dissipation Factor, 50% RH
  • Dissipation Factor, 50% RH
  • Dissipation Factor, 50% RH
  • Dissipation Factor, 50% RH
  • Dissipation Factor, 50% RH
  • Dissipation Factor, 90% RH
  • Dissipation Factor, 50% RH
  • Dissipation Factor, 90% RH
  • Dissipation Factor, 90% RH
  • Dissipation Factor, 90% RH
  • Dissipation Factor, 50% RH
  • Arc Resistance, with filaments; 50% RH and at 90% RH
  • Arc Resistance, across filaments; 50% RH and at 90% RH
  • CTE, linear, ASTM D696-42T, parallel to one array of filaments
  • Specific Heat Capacity
  • Thermal Conductivity, on 1 inch thick isotropic laminate
  • Thermal Conductivity, on 1 inch thick isotropic laminate
  • Thermal Conductivity, on 1 inch thick isotropic laminate
  • Thermal Conductivity, on 1 inch thick isotropic laminate
  
Property Data

This page displays only the text
of a material data sheet.

To see MatWeb's complete data
sheet for this material (including
material property data, metal
compositions, material suppliers,
etc), please click the button below.

Manufacturer Notes:
none

Category Notes
Plastic

Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's terms of use regarding this information. Click here to view all the property values for this datasheet as they were originally entered into MatWeb.

 

Visit Zeus Inc. for PEEK Tubing



Searches:   Advanced  •   Composition  •   Property  •   Material Type  •   Manufacturer  •   Trade Name  •   UNS Number
Other Links:   Advertising  •   Submit Data  •   Database Licensing  •   Web Design & Hosting  •   Trade Publications
Supplier List  •   Unit Converter  •   Reference  •   Links  •   Help  •   Contact Us  •   Site Map  •   FAQ  •   Home
 
Please read our License Agreement regarding materials data and our Privacy Policy. Questions or comments about MatWeb? Please contact us at webmaster@matweb.com. We appreciate your input.

The contents of this web site, the MatWeb logo, and "MatWeb" are Copyright 1996-2024 by MatWeb, LLC. MatWeb is intended for personal, non-commercial use. The contents, results, and technical data from this site may not be reproduced either electronically, photographically or substantively without permission from MatWeb, LLC.