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

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

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BS EN 1007-5:2010 Advanced technical ceramics. Ceramic composites. Methods of test for reinforcements. Determination of distribution of tensile strength and of tensile strain to failure of filaments within a multifilament tow at ambient temperature

BS EN 1007-5 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 ambient temperature.

BS EN 1007-5 applies to tows of continuous ceramic filaments, which are assumed to act freely and independently under loading, and behave linearly elastic up to failure.

Contents of BS EN 1007-5:

Foreword

1 Scope

2 Normative references

3 Terms and definitions

4 Principle

5 Significance and use

6 Apparatus

6.1 Tensile testing equipment

6.2 Load train

6.3 Data recording

7 Test specimens

7.1 General

7.2 Window type specimen

7.3 Cylindrical end type specimen

8 Test specimen preparation

8.1 General

8.2 Window type specimen

8.3 Cylindrical end type specimen

8.4 Number of test specimens

8.5 Determination of the initial cross sectional area

8.6 Determination of the gauge length

9.1 Test specimen mounting

9.2 Selection of strain rate

9.3 Measurement

9.4 Determination of load train compliance

9.5 Test validity

10 Calculation of results

10.1 Calculation of the parasitic load train compliances

10.2 Determination of true origin

10.3 Construction of envelope curve and determination of instantaneous compliance Ct,j

10.4 Probability of filament rupture

10.5 Distribution of filament strain

10.5.1 Calculation of filament strain

10.5.2 Distribution of filament strain

10.6 Distribution of filament strength

10.6.1 Initial cross sectional area

10.6.2 Elastic modulus (Young’s modulus) of the tow

10.6.3 Calculation of filament strength and filament strength distribution

10.7 Average filament rupture strain and average filament rupture strength

10.8 Overall average filament rupture strain and overall average filament rupture strength

10.9 Calculation of tow strength

11 Test report

Bibliography