材料科学
平面应力
断裂(地质)
裂纹扩展阻力曲线
结构工程
应力场
脆性
导线
脆性断裂
断裂力学
裂纹尖端张开位移
压力(语言学)
裂缝闭合
强度因子
机械
应力集中
复合材料
地质学
物理
工程类
有限元法
语言学
哲学
大地测量学
摘要
Abstract A substantial fraction of the mysteries associated with crack extension might be eliminated if the description of fracture experiments could include some reasonable estimate of the stress conditions near the leading edge of a crack particularly at points of onset of rapid fracture and at points of fracture arrest. It is pointed out that for somewhat brittle tensile fractures in situations such that a generalized plane-stress or a plane-strain analysis is appropriate, the influence of the test configuration, loads, and crack length upon the stresses near an end of the crack may be expressed in terms of two parameters. One of these is an adjustable uniform stress parallel to the direction of a crack extension. It is shown that the other parameter, called the stress-intensity factor, is proportional to the square root of the force tending to cause crack extension. Both factors have a clear interpretation and field of usefulness in investigations of brittle-fracture mechanics.
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