高温高压作用下结构局部破坏的试验与分析研究

Volume 3: Design and Analysis Pub Date : 2019-11-15 DOI:10.1115/pvp2019-93166

Yoshiki Tsunemoto, T. Sakaguchi, Takuya Sato, N. Kasahara

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摘要

在过去的文章中，我们提出了考虑弹塑性区和蠕变区的静水应力影响的新断裂面。本文研究了在弹塑性区域局部破坏的机理和主导因素。采用带喷嘴的圆板试样进行了实验和分析研究。该材料为铅合金(99% Pb-1% Sb)。断裂试验在室温弹塑性区进行。根据连接的喷嘴和板之间的刚度差异，在结构不连续处观察到韧性断裂和局部破坏。在本研究中，对于两种破坏模式，所提出的弹塑性区域断裂面都准确地显示了断裂位置。结果表明，所提出的断裂面对预测断裂模式和断裂位置是有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Experimental and Analytical Study on Local Failure of Structure Subjected to High Temperature and Pressure

In our past paper, the new fracture surface was proposed considering the effects of hydrostatic stress in an elastic-plastic region and in a creep region. In this paper, the mechanism the dominant factors of local failure were studied in an elastic-plastic region. Experimental and analytical study were made using circular plate specimens with a nozzle. The material was a lead alloy (99% Pb-1% Sb). The fracture test was performed in an elastic-plastic region at room temperature. Both ductile fracture and local failure were observed at structural discontinuities, based on the stiffness differences between attached nozzles and plates. In this study, the proposed fracture surface in an elastic-plastic region showed the fracture location accurately, for the both failure modes. It was concluded that the proposed fracture surface is available and useful in order to predict the failure mode and the failure location.

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Volume 3: Design and Analysis

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