论文信息 - Composite structure global fracture toughness via computational simulation

Composite structure global fracture toughness via computational simulation

Abstract A computational method for the simulation of damage and fracture propagation in laminated composites is presented. A quantitative evaluation of the global fracture toughness of composites is shown as a tool for monitoring the fracture stability of composites under sustained loading. Changes in overall structural properties such as natural frequencies and the fundamental buckling load are also computed with increasing load-induced damage. Structural degradation, delamination, fracture, and damage propagation are included in the simulation. An angle-plied composite plate structure subjected to inplane tensile loading is used as an example to demonstrate some of the features of the computational method.

[1] Christos C. Chamis,et al. Integrated Composite Analyzer (ICAN): Users and programmers manual , 1986 .

[2] Christos C. Chamis,et al. Finite element substructuring methods for composite mechanics , 1988 .

[3] Levon Minnetyan,et al. Structural behavior of composites with progressive fracture , 1989 .

[4] Levon Minnetyan,et al. Structural Behavior of Composites with Progressive Fracture , 1989 .

[5] Levon Minnetyan,et al. Progression of damage and fracture in composites under dynamic loading , 1990 .

[6] Thomas B. Irvine,et al. Progressive Fracture of Fiber Composites , 1986 .

[7] Pappu L. N. Murthy,et al. ICAN: Integrated Composites Analyzer , 1986 .