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Homepage>BS Standards>81 GLASS AND CERAMICS INDUSTRIES>81.060 Ceramics>81.060.30 Advanced ceramics>BS EN 1007-7:2010 Advanced technical ceramics. Ceramic composites. Methods of test for reinforcements Determination of the distribution of tensile strength and of tensile strain to failure of filaments within a multifilament tow at high temperature
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immediate downloadReleased: 2010-08-31
BS EN 1007-7:2010 Advanced technical ceramics. Ceramic composites. Methods of test for reinforcements Determination of the distribution of tensile strength and of tensile strain to failure of filaments within a multifilament tow at high temperature

BS EN 1007-7:2010

Advanced technical ceramics. Ceramic composites. Methods of test for reinforcements Determination of the distribution of tensile strength and of tensile strain to failure of filaments within a multifilament tow at high temperature

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Standard number:BS EN 1007-7:2010
Pages:30
Released:2010-08-31
ISBN:978 0 580 69222 2
Status:Standard
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BS EN 1007-7:2010


This standard BS EN 1007-7:2010 Advanced technical ceramics. Ceramic composites. Methods of test for reinforcements is classified in these ICS categories:
  • 81.060.30 Advanced ceramics

This European standard specifies the conditions, apparatus and procedure for determining the distribution of tensile strength and tensile strain to failure of ceramic filaments in multifilament tows at high temperature in air, vacuum or a controlled inert atmosphere.

This part of EN 1007 applies to tows of continuous ceramic filaments, which are assumed to act freely and independently under loading and behave linearly elastic up to failure.

Two methods are proposed depending on the temperature of the ends of the tow:

  1. hot end method;

    NOTE 1 The application of the hot end method is restricted by ceramic glues with sufficient shear strengths at the test temperature. Current experience with this technique is limited to 1 300 °C, because of the maximum application temperature of ceramic glues.

  2. cold end method.

NOTE 2 The cold-end method is limited to 1 700 °C in air and 2 000 °C in inert atmosphere because of the limits of furnaces.

Both methods allow for a failure rate in the determination of distribution of tensile strain and tensile strength.