Development of a Three-dimensional Model for Ductile Fracture in Materials Containing Two Types of Microvoids

Hai QIU; Hisashi MORI; Manabu ENOKI

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Development of a Three-dimensional Model for Ductile Fracture in Materials Containing Two Types of Microvoids

机译：包含两种类型微孔的材料中韧性断裂的三维模型的建立

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There are three stages in ductile fracture process: voids initiation, void growth and void coalescence. In the final stage, ductile fracture occurs due to the void coalescence. Thomason suggested that voids begin to coalesce when a plastic limit-load condition is fulfilled for localized plastic failure of the intervoid matrix. On the basis of this critical void-coalescence condition, we developed a three-dimensional model for ductile fracture considering two types of voids with different sizes, and applied this model to a SA440 STEEL WITH AND WITHOUT PRE-STRAINING. With the critical strength of particle/matrix interface and the theoretical void growth strain obtained from the model, the reason for the decrease in fracture strain caused by plastic prestrain was discussed.

机译：韧性断裂过程分为三个阶段：空隙引发，空隙生长和空隙合并。在最后阶段，由于空隙的聚结，发生了韧性断裂。 Thomason建议，当满足空隙基体局部塑性破坏的塑性极限载荷条件时，空隙开始聚结。在此关键空洞聚结条件的基础上，我们考虑了两种尺寸不同的空洞类型，开发了一种韧性断裂的三维模型，并将该模型应用于带和不带预应变的SA440钢。利用颗粒/基体界面的临界强度和从模型中获得的理论孔隙增长应变，讨论了由塑性预应变引起的断裂应变降低的原因。

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来源
《ISIJ International》 |1999年第4期|p.352-357|共6页
作者
Hai QIU; Hisashi MORI; Manabu ENOKI;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类黑色金属材料;钢铁冶炼（黑色金属冶炼）（总论）;
关键词
void coalescence; ductile fracture; void growth strain; carbide; inclusion;

机译：空合并韧性断裂空隙生长应变碳化物;包含;
入库时间 2022-08-18 00:56:41

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Development of a Three-dimensional Model for Ductile Fracture in Materials Containing Two Types of Microvoids

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