模拟严重事故条件结构试验用铅合金非弹性本构方程的提出

Ryuta Hashidate, T. Onizawa, T. Wakai, N. Kasahara
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引用次数: 1

摘要

研究了99%铅-1%锑合金的非弹性应力-应变关系方程、蠕变断裂方程和蠕变应变方程。在严重事故条件下,核电站的结构材料承受着过高的温度。虽然弄清结构在严重事故条件下的破坏方式是非常必要的,但目前还没有关于破坏模式的实验证据,高温下的破坏机制也没有明确。然而,使用实际的结构材料,如奥氏体不锈钢进行结构测试是非常困难和昂贵的。因此,作者建议使用铅合金代替实际的结构材料。由于这种合金的强度比实际结构材料的强度差得多,因此在非常低的温度和非常小的载荷下可以观察到破坏。为了证明铅合金组织在低温下的破坏机制与实际组织在极高温下的破坏机制之间的相似性,需要进行数值分析。在一系列材料试验的基础上,提出了铅合金的非弹性本构方程。非线性数值分析,例如有限元分析,可以使用所提出的方程进行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Proposal of Inelastic Constitutive Equations of Lead Alloys Used for Structural Tests Simulating Severe Accident Conditions
This paper studies inelastic stress-strain relationship equation and creep rupture equation and creep strain equation of 99%lead-1% antimony alloy. Under the severe accident conditions, structural materials of nuclear power plants are subjected to excessive high temperature. Although it is very essential to clarify how the structure collapses under the severe accident conditions, there’re no experimental evidences of failure modes and the failure mechanisms in such high temperatures are not clarified. However, it is very difficult and expensive to perform structural tests using actual structural materials, such as austenitic stainless steels. Therefore, the authors propose to use lead alloys instead of actual structural materials. Because the strength of such alloys is much poorer than that of the actual structural materials, failure can be observed at much low temperature and by much small load. For demonstration of analogy between the failure mechanisms of lead alloy structure at low temperature and those of the actual structures at extremely elevated temperature, numerical analyses are required. The authors proposes inelastic constitutive equations of lead alloy based on a series of material tests. Nonlinear numerical analyses, e.g. finite element analyses, can be performed using the proposed equations.
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