脆性材料在双向应力下的断裂和失效研究

无机材料学报

脆性材料在双向应力下的断裂和失效研究

包亦望; 孙立⁺

中国建材院陶瓷所; 北京100024; ⁺武汉工业大学北京研究生部

收稿日期:1997-11-17 修回日期:1997-12-22 出版日期:1998-12-20 网络出版日期:1998-12-20

Fracture and Failure of Brittle Materials under Biaxial Stress

BAO Yi-Wang; SUN Li⁺

China Building Materials Academy Beijing 100024 China;⁺Beijing Graduate School of Wuhan Univ. of Technology Beijing 100024 China

Received:1997-11-17 Revised:1997-12-22 Published:1998-12-20 Online:1998-12-20

摘要/Abstract

摘要： 采用热力学方法对脆性薄片试样成功地进行了双向和单向平面拉伸试验，通过观察和记录试片中心的直通裂纹的扩展和断裂过程，测试出玻璃和陶瓷薄片的断裂韧性在双向和单向拉伸载荷时的差别．结果表明双向拉伸使裂纹阻力增强，平行于裂纹的应力对裂纹扩展有影响．该研究表明，对线弹性材料在双向载荷作用下，传统的应力强度因子准则不适用．裂纹张开的应变依赖性被证实在双向应力的断裂评价中．

关键词: 脆性材料, 双向应力, 应力强度因子, 热力学方法

Abstract: Brittle thin plate with a straight-through crack under biaxial and uniaxial tension in-plane was investigated by thermomechanical method. The
critical stress intensity factor under those two loading modes was measured with disk-shaped specimens of glass and ceramics. The results show that the
crack resistance of brittle materials increases with increasing stress parallel to the crack plane. The effects of biaxial stress reveal that the conventional
criterion with the stress intensity factor is imperfect for biaxial stress issues. It is demonstrated that the crack opening and growth is governed by
the strain at the crack tip.

Key words: brittle materials, biaxial stress, stress intensity factor, thermomechanical method

中图分类号:

TB301

包亦望,孙立. 脆性材料在双向应力下的断裂和失效研究[J]. 无机材料学报.

BAO Yi-Wang,SUN Li. Fracture and Failure of Brittle Materials under Biaxial Stress[J]. Journal of Inorganic Materials.