摘要
研究了 Fe-Mo-Si-B非晶薄带在单轴拉伸加载下的动态断裂行为发现了裂纹扩展过程中的裂纹分叉和应力波致裂现象.当裂纹尖端的应力强度因子达到临界值 KIB=35 MPa·m1/2时,发生裂纹分叉,对应的静态平面应变断裂韧性为16 MPa·m1/2.分析认为裂纹分叉是应力波致裂发生的必要条件.
Dynamic fracture characteristics have been observed and interpreted for Fe-Mo-Si-B amorphous alloy ribbon. Crack branching and stress wave induced cracking are the main features of dynamic fracture. Branching of main crack occurs when the crack tip intensity factor reaches the critical value KIB=35 Mpa·m1/2, and the corresponding plane strain fracture toughness KIC=16 MPa.m1/2. It is deduced that crack branching is the necessary condition for generation of compressive longitudinal wave. Stress wave induced cracking occurs when the amplitude of reflected compressive longitudinal wave reaches the tensile strength.
出处
《金属学报》
SCIE
EI
CAS
CSCD
北大核心
2001年第6期585-588,共4页
Acta Metallurgica Sinica
基金
国家自然科学基金资助项目59931020
59801012
关键词
非晶合金
动态断裂
裂纹分叉
应力波致裂
amorphous alloy, dynamic fracture, crack branching, stress wave induced cracking (SWIC)
