pan/酚醛基碳/碳复合材料断裂强度的实验与统计研究

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Khurram Iqbal, Nabi Bakhsh, Shahzor Memon
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引用次数: 0

摘要

聚丙烯腈/酚醛基碳/碳复合材料的用途越来越广泛,在航天航空工业和一般结构应用中发挥着越来越重要的作用。这些材料的主要成分是脆弱的,裂纹是由不完美引起的随机失效引起的。易碎材料的强度遵循威布尔分布。抗弯强度的变化用威布尔分布建模。为了计算m和σu,首先对σi的值从小到大进行排序,然后对这些值进行线性回归。通过线性回归,估计了威布尔模量和特征强度。CFRP复合材料的抗弯强度在1000℃时达到最大,但在1000℃时有所降低。弯曲强度的降低可能与空洞缺陷有关。这些缺陷可能是加载过程中断裂的来源。CFRP和C/C复合材料的失效概率分别为0.55和0.78,平均抗弯强度和抗弯模量分别为334和92 MPa,平均抗弯强度和抗弯模量分别为29和10.2 GPa,这对于理解纤维-基体界面结合性能非常有用,这对复合材料的力学性能有很大影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental and statistical investigation of fracture strength of pan/phenolicbased carbon/carbon composite materials
PAN/phenolic-based carbon/carbon composites are finding more and more use, and becoming more and more important for space/aviation industries, and general structural applications. The primary constituents of these materials are fragile, and cracking occurs through random failures caused by imperfectionsinduced random failures. The strength of a fragile material follows Weibull distribution. The variation of the flexural strengths has been modeled using Weibull distribution. In order to compute m and σu, first, the values of σi were ordered from the smallest to the largest, and then applying linear regression to these values. From the linear regression, the Weibull modulus and the characteristic strength were estimated. The CFRP composites show maximum flexural strength which decreases during the pyrolysis at the temperature of 1000 0C. The reduced flexural strength can be related to void defects. These defects probably act as a source of fractures during loading. The failure probabilities for CFRP and C/C composites are 0.55 and 0.78, respectively, and these values 334 and 92 MPa, and 29 and 10.2 GPa for mean flexural strength and flexural modulus, respectively, would be quite useful for understanding the fiber-matrix interfacial bonding properties, which have a strong influence on the mechanical properties of these composites.
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