Dynamic Stress Analysis of the Interface in a Particle-Reinforced Composite
-
摘要: 针对硬微粒填充高聚物复合材料因相界面脱粘开裂生成微孔洞的微损伤成核机制,取材料的代表体积单元进行动力分析,通过对粘弹性基体本构关系作Laplace变换建立了基本方程,并引入Hankel变换,得到了球对称动荷载作用下相界面应力变化规律的解析解,据此分析了惯性效应和粘性效应对界面脱粘的影响。Abstract: The analysis of the dynamic stress on the particle-matrix interface in particle-reinforced composite for the reason that this stress may lead to the microvoids.nucleation due to the interfacial debonding were studied.For simplification,the representative volume element(RVE)was taken as an analysis model.The Laplace transformation was used to derive the basic equations,and the analytical solutions were obtained by means of Hankel transformation.Moreover,the influences of the inertia and viscosity on the debonding damage were also discussed.
-
Key words:
- rheological material /
- dynamic stress /
- interface debonding /
- microvoids’nucleation
-
[1] 黄筑平,杨黎明,潘客麟. 材料的动态损伤和失效[J]. 力学进展,1993,23(4):433~467. [2] Tanaka K, Mori T, Nakamura T. Cavity Formation at the interface of a spherical inclusions in a plastically deformed matrix[J]. Phil Mag,1970,21(170):267~279. [3] Argon A S. Cavity formation from inclusions in ductile fracture[J]. J Im Metall Trans,1975,6A(5):825~837. [4] Goods S H. Brown L M. The nucleation of cavities by plastic deformation[J]. Acta Metall,1979,27(1):1~15. [5] 陈建康,黄筑平,白树林,等. 微粒填充流变材料界面开裂的局部临界应力及其尺寸效应[J]. 固体力学学报,1999,20(1):1~8. [6] Albter S, Kobayyashi. Handbook on Experimental Mechanics[M]. New Jersey: Prentice-Hall,INC,1984,30~40. [7] Christensen R M. Theory of Viscoelasticity[M]. New York: Academic Press,1982,158~239. [8] Cinelli G. An extension of the finite Hankel transform and applications[J]. Int J Engng Sci,1965,3(5):539~559. -
点击查看大图
计量
- 文章访问数: 1998
- HTML全文浏览量: 100
- PDF下载量: 511
- 被引次数: 0
下载:
