摘要
高强度、高韧性管材的大量应用,提出管道大范围屈服断裂问题.针对现有的断裂力学方法应用于管道大范围屈服断裂评估的局限性,分别从双参数断裂力学、基于约束校正的断裂韧性测试、基于应变的断裂评估和基于应变的失效评估图4个方面详细地介绍了管道大范围屈服断裂评估的研究现状.指出目前基于约束校正的管道断裂韧性测试的主要方法是SENT试件方法和表观断裂韧性方法,评述了基于SENT试件约束校正的断裂评估研究现状及存在的问题.阐述了基于应变断裂评估的基本原理,并从驱动力方程和CTOD失效准则两方面介绍了基于应变的断裂评估方法的研究工作成果.最后提出了需要进一步研究的问题.
With the application of high-strength and high-toughness pipeline steel, relevant fracture assessment is needed for pipeline under large-scale yielding condition. This article summarizes limitations that govern the conventional fracture mechanics when applied to the fracture assessment of pipeline under the condition of large-scale yielding. Here, progresses in pipeline fracture assessment under the condition of large-scale yielding are presented in detailed in four main aspects: two-parameter fracture mechanics, constraint-corrected fracture toughness test, strain-based fracture assessment, and strain-based failure assessment diagram. First of all, two methods for constraint-corrected fracture toughness test are discussed, which is SENT specimen and apparent fracture toughness method. The research status and existing problem are reviewed for constraint-corrected fracture toughness test based on SENT specimen. The basic principles of strain-based fracture assessment are presented. The strain-based driving force equation and the CTOD failure criteria are introduced in the method of strain-based fracture assessment. Finally, an overview is given for the strain-based J-integral estimation and strain-based failure assessment diagram. Finally, key topics for further studies are pointed out.
出处
《力学进展》
EI
CSCD
北大核心
2012年第1期29-40,共12页
Advances in Mechanics
基金
高等学校博士学科点专项科研基金项目(20100007110006)资助~~
关键词
大范围屈服
管道
断裂评估
基于应变
失效准则
large scale yielding, pipeline, fracture assessment, strain-based, failure criteria