IEC 60793-1-31:2019 光纤 - 第1-31部分:测量方法和测试程序 - 拉伸强度
标准编号:IEC 60793-1-31:2019
中文名称:光纤 - 第1-31部分:测量方法和测试程序 - 拉伸强度
英文名称:Optical fibres - Part 1-31: Measurement methods and test procedures - Tensile strength
发布日期:2019-02-06
标准范围
IEC 60793-1-31:2019提供了光纤样品在动态载荷下的拉伸强度值。该方法测试未布线和未捆扎的玻璃光纤的单个长度。纤维的区段在受控增加的应力或应变下断裂,所述应力或应变在整个纤维长度和横截面上是均匀的。应力或应变以名义上恒定的速率增加,直到发生断裂。给定纤维的拉伸强度值的分布很大程度上取决于样品长度、加载速度和环境条件。该测试可用于需要纤维强度统计数据的检查。通过统计质量控制分布报告结果。通常,测试在样品的温度和湿度调节之后进行。然而,在一些情况下,在环境温度和湿度条件下测量值可能就足够了。该方法适用于A1、A2和A3类以及B和C类光纤。本文件的目的是为机械特性:拉伸强度建立统一的要求。?这第三版取消并取代了2010年出版的第二版。本版构成技术修订版。与上一版相比,此版本包括以下重大技术变更:a)式(3b)和(4b)的校正和式的重新编号。关键词:光纤样品动态加载下的拉伸强度
IEC 60793-1-31:2019 provides values of the tensile strength under dynamic loading of optical fibre samples. The method tests individual lengths of uncabled and unbundled glass optical fibre. Sections of fibre are broken with controlled increasing stress or strain that is uniform over the entire fibre length and cross section. The stress or strain is increased at a nominally constant rate until breakage occurs. The distribution of the tensile strength values of a given fibre strongly depends on the sample length, loading velocity and environmental conditions. The test can be used for inspection where statistical data on fibre strength is required. Results are reported by means of statistical quality control distribution. Normally, the test is carried out after temperature and humidity conditioning of the sample. However, in some cases, it can be sufficient to measure the values at ambient temperature and humidity conditions. This method is applicable to categories A1, A2, and A3, and classes B and C optical fibres. The object of this document is to establish uniform requirements for the mechanical characteristic: tensile strength.?This third edition cancels and replaces the second edition published in 2010. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
a) correction of Formulae (3b) and (4b) and renumbering of formulae.
Keywords: tensile strength under dynamic loading of optical fibre samples
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