GB/T 36264-2018 PDF in English
GB/T 36264-2018 (GB/T36264-2018, GBT 36264-2018, GBT36264-2018)
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GB/T 36264-2018 | English | 175 |
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Test method for tensile strength of fiber composites under ultrahigh temperature and oxidizing environment
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Standards related to (historical): GB/T 36264-2018
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GB/T 36264-2018: PDF in English (GBT 36264-2018) GB/T 36264-2018
GB
NATIONAL STANDARD OF THE
PEOPLE’S REPUBLIC OF CHINA
ICS 83.120
Q 23
Test Method for Tensile Strength
of Fiber Composites under Ultrahigh
Temperature and Oxidizing Environment
ISSUED ON. JUNE 07, 2018
IMPLEMENTED ON. JANUARY 01, 2019
Issued by. State Administration for Market Regulation;
Standardization Administration of PRC.
Table of Contents
Foreword ... 3
1 Scope ... 4
2 Normative References ... 4
3 Terms and Definitions ... 4
4 Test Principle... 5
5 Apparatus ... 5
6 Sample ... 7
7 Test Procedures ... 9
8 Results and Calculation ... 10
9 Test Report ... 11
Test Method for Tensile Strength
of Fiber Composites under Ultrahigh
Temperature and Oxidizing Environment
1 Scope
This Standard specifies the test principle, apparatus, sample, test procedures, results,
calculation and test report for the tensile strength test of fiber composites under
ultrahigh temperature and oxidizing environment.
This Standard is applicable to the tensile strength test of the fiber braided composites
under different oxygen partial pressure environments from 1500°C~2200°C; other
types of materials and the tensile strength test under high temperature of 1500°C
below shall be referred to.
2 Normative References
The following documents are essential to the application of this document. For the
dated documents, only the versions with the dates indicated are applicable to this
document; for the undated documents, only the latest version (including all the
amendments) are applicable to this document.
GB/T 1446-2005 The Generals of Test Methods for Properties of Fiber-Reinforced
Plastics
GB/T 16491 Electronic Universal Testing Machines
3 Terms and Definitions
The following terms and definitions are applicable to this document.
3.1 Ultrahigh temperature
Temperature of 1500°C and above.
3.2 Uniform temperature zone
The working area in the middle of the sample with the same cross-sectional
6.3 Sample quantity
Under the same test conditions, the number of effective samples shall be no less than
5 pieces.
NOTE. If performing a statistical analysis of the intensity (e.g.. Weibull statistical analysis), then
at least 30 samples are required.
7 Test Procedures
7.1 Measuring sample size
Inspect the sample before the test; use the Vernier caliper with an accuracy of 0.02mm
to measure the size of uniform temperature zone of the sample. The thickness and
width of the cross-section of the sample is measured at both ends and in the middle of
the uniform temperature zone, then take the average value. The sample surface shall
not be damaged during the measuring period.
7.2 Installation of the sample
7.2.1 Install the fixture.
7.2.2 For the samples that can be directly inductively heated, insert the sample directly
into the induction coil. For the samples that cannot be directly inductively heated, firstly,
place the sample into the graphite heating sleeve, then insert it into the induction coil;
ensure the graphite sleeve flush with the induction coil.
7.2.3 Install the specimen into the fixture; adjust the sample, and keep the gas between
the sample and the sleeve about 2mm~5mm. The infrared thermometer, temperature
measuring window and graphite sleeve opening shall be in a straight line.
7.3 Heating and adjusting the partial pressure
7.3.1 Adjust the two-dimensional sliding platform; so that the temperature measuring
point of the infrared thermometer is near the center of the uniform temperature zone
of the sample.
7.3.2 Vacuum the heating furnace to 1×10-2 Pa below at room temperature; keep
vacuum or fill with inert gas.
7.3.3 Heat the sample by manual or automatic temperature control mode; the
recommended temperature rising rate is 30°C/s ~ 100°C/s; keep for 1 min, when the
setting temperature is reached.
7.3.4 After the setting test temperature is reached, adjust the gas pressure in the
heating furnace to the setting value according to the test required oxygen partial
pressure. Generally, it is 0.1Pa ~ 10000Pa. Or avoid the position of the inlet or outlet
of the heating furnace; use the oxygen partial pressure meter to measure the oxygen
partial pressure in the chamber of the furnace.
7.3.5 The sample directly heated by electromagnetic induction is kept warm for 3min;
or the sample heated by the graphite sleeve radiation is kept warm for 5min. During
the heat preservation period, move the two-dimensional sliding platform to monitor the
surface temperature of the sample; the length of the lateral and longitudinal movement
shall be no less than 6mm. Keep the temperature deviation of the uniform temperature
zone of the sample not exceeding 3% of the setting temperature value.
7.4 Test
Adopt the displacement control loading mode to impose the tensile load on the sample;
the loading speed is of 1.0mm/min ~ 3.0mm/min till the sample is damaged. Record
the load-time curve and the maximum load value.
7.5 Failure mode judgment
If one of the following conditions occurs during the test, then the test data is invalid.
--- The fixture is damaged during the test;
--- The broken site of the sample is beyond the uniform temperature zone.
8 Results and Calculation
8.1 Tensile strength shall be calculated as per the Formula (1).
Where.
σt – tensile strength, in MPa;
Pmax – maximum load, in N;
b1 – specimen width, in mm;
h – specimen thickness, in mm.
8.2 The arithmetic mean, standard deviation and dispersion coefficient of tensile
strength shall be calculated as per the Clause 6 of GB/T 1446-2005.
...... Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.
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