复合材料试样静力破坏的三个阶段

IF 0.5 Q4 PHYSICS, APPLIED
M. Urbaha, I. Agafonovs, V. Turko, J. Feščuks
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引用次数: 1

摘要

摘要本文介绍了环氧基各向异性碳纤维塑料的标准试样断裂结果。在Instron 8801试验机上对试样进行静态逐步加载,根据ASTM D5528的规定确定第一模态韧性断裂G1C的特征。加载过程中,同步记录声发射信号的脉冲幅值及其能量等参数。同时,记录了试样末端人工切割引起的开口大小和裂纹的扩展情况。通过对声发射信号的分析,确定了试件初始裂纹扩展、平稳扩展和加速断裂三个不同的G1C行为区。声发射信号变化的地带性特征使得确定声发射信号的能量作为试样快速破坏开始的诊断证据成为可能。然而,这些区域的ae信号的振幅保持不变。在线监测声发射信号能量的变化将防止物体在其变形的地方发生快速破坏。这篇论文的目的并不是像往常一样定义全球变暖。用声发射方法研究了复合材料的断裂阶段。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Three Stages of Composite Specimen Destruction in Static Failure
Abstract The paper presents the results of standard specimen fracture made of anisotropic carbon fiber plastic with an epoxy matrix. Static stepwise loading of the specimen was carried out on an Instron 8801 testing machine to determine the characteristics of ductile fracture G1C in the first mode in accordance with ASTM D5528. During loading, the parameters of acoustic emission (AE) signals, such as AE impulse amplitudes and their energy were synchronously recorded. At the same time, the magnitude of the opening and the growth of the crack initiated by the artificial cut at the end of the specimen were recorded. According to the analysis of the acoustic emission signals, three zones with different G1C behaviour were identified: initial crack propagation, its stationary growth and accelerated fracture of the specimen. The zonal character of the change in the acoustic emission signals made it possible to determine the energy of the acoustic emission signals as diagnostic evidence for the onset of rapid destruction of the specimen. The amplitude of the AE-signals in the zones, however, remained constant. Online monitoring of changes in the energy of acoustic emission signals will prevent the onset of rapid destruction of an object in places of its deformations. The paper does not aim at defining G1C as usual. It presents the investigation of the fracture stages for a composite material using an acoustic emission method.
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来源期刊
CiteScore
1.50
自引率
16.70%
发文量
41
审稿时长
5 weeks
期刊介绍: Latvian Journal of Physics and Technical Sciences (Latvijas Fizikas un Tehnisko Zinātņu Žurnāls) publishes experimental and theoretical papers containing results not published previously and review articles. Its scope includes Energy and Power, Energy Engineering, Energy Policy and Economics, Physical Sciences, Physics and Applied Physics in Engineering, Astronomy and Spectroscopy.
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