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Homepage>BS Standards>83 RUBBER AND PLASTICS INDUSTRIES>83.100 Cellular materials>BS EN ISO 2439:2008 Flexible cellular polymeric materials. Determination of hardness (indentation technique)
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immediate downloadReleased: 2009-01-31
BS EN ISO 2439:2008 Flexible cellular polymeric materials. Determination of hardness (indentation technique)

BS EN ISO 2439:2008

Flexible cellular polymeric materials. Determination of hardness (indentation technique)

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Standard number:BS EN ISO 2439:2008
Pages:22
Released:2009-01-31
ISBN:978 0 580 56850 3
Status:Standard
DESCRIPTION

BS EN ISO 2439:2008


This standard BS EN ISO 2439:2008 Flexible cellular polymeric materials. Determination of hardness (indentation technique) is classified in these ICS categories:
  • 83.100 Cellular materials

The indentation hardness of flexible cellular materials is a measure of their load-bearing properties. This International Standard specifies four methods (A to D) for the determination of indentation hardness and one method (E) for determination of compressive deflection coefficient and hysteresis loss rate of flexible cellular materials. Annex A provides a summary of test parameters and typical force-indentation graphs obtained with these methods.

These five methods are applicable only to latex foam, urethane foam and PVC foam of the open-cell type. The methods specified can be used for testing finished articles and for the characterization of bulk material.

This International Standard specifies the following methods:

  1. Method A — Determination of the 40 %/30 s indentation hardness index, which gives a single indentation measurement for laboratory test purposes;

  2. Method B — Determination of the 25 %-40 %-65 %/30 s indentation hardness characteristics, which provides information about the shape of the hardness indentation curve;

  3. Method C — Determination of the 40 % indentation hardness check, which is a quick procedure suitable for quality control testing;

  4. Method D — Determination of the 25 %/20 s low indentation hardness index, which is a quick procedure suitable as an inspection test;

  5. Method E — Determination of the compressive deflection coefficient and hysteresis loss rate, which gives additional information about the load-bearing properties of materials.

The results obtained by these methods relate only to the test conditions specified and cannot, in general, be used directly for design purposes.