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
  

Master Bond adhesives

(Viewing data as-entered. Click here to return)
DIAB Divinycell® HCP 70 Polymer Foam
Categories: Other Engineering Material; Composite Core Material; Polymer

Material Notes: Divinycell HCP grade has been developed to meet the demand for a high-performance, lightweight buoyancy material with excellent characteristics. It is widely used in pipelines, floatation units, diving bells and impact protection structures. As a result of its excellent hydraulic compressive properties and closed cell structure, it has very low buoyancy loss and water absorption under long-term loading conditions. HCP stands for Hydraulic Crush Point, indication the most important feature of this class of materials. HCP is defined as the point of pressure in Bar, where the material, when subjected to an increasing pressure of 1-2 Bar/sec, has lost 5% of its initial volume. The design of subsea buoyancy applications is complex and consideration has to be given to the required buoyancy loss and updrift over the expected lifetime and service conditions, with respect to long and short term hydraulic compressive creep, water absorption and hydraulic fatigue.

Operating temperature is -200 to 80°C. Lifetime must be taken into consideration for the very low and high temperatures. Maximum processing temperature is dependent on time, pressure and process conditions. Normally Divinycell HCP can be processed up to 90°C without dimensional changes.

Information Provided by DIAB

Vendors: No vendors are listed for this material. Please click here if you are a supplier and would like information on how to add your listing to this material.
 
Physical PropertiesOriginal ValueComments
Density 0.300 g/ccISO 845
 
Mechanical PropertiesOriginal ValueComments
Tensile Strength, Ultimate 11.0 MPaPerpendicular to the plane; ASTM D1623
Elongation at Break 40 %In Shear; ASTM C273
Tensile Modulus 450 MPaExtensometer; Perpendicular to plane; ASTM D1621
Compressive Strength 7.60 MPaPerpendicular to the plane; ASTM D1621
Shear Modulus 0.140 GPaASTM C273
Shear Strength 5.20 MPaASTM C273
 
Thermal PropertiesOriginal ValueComments
CTE, linear 20.6 µin/in-°F
Maximum Service Temperature, Air 80.0 °CContinuous
Minimum Service Temperature, Air -200 °CContinuous
 
Descriptive Properties
Hydraulic Crush Point (Bar)70-79

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 go back to viewing the property data in MatWeb's normal format.

Users viewing this material also viewed the following:
DIAB Divinycell® HCP 90 Polymer Foam
DIAB Divinycell® HCP 50 Polymer Foam
DIAB Divinycell® HCP 30 Polymer Foam
DIAB Divinycell® HCP 100 Polymer Foam
DIAB Divinycell® H 80 Sandwich Core Material

PDIAA930 / 99168

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.