The open hole tensile test: a challenge for virtual testing of composites

被引：0

作者：

Stephen R. Hallett

Ben G. Green

Wen-Guang Jiang

Kin Hei Cheung

Michael R. Wisnom

机构：

[1] University of Bristol,Advanced Composites Centre for Innovation and Science

[2] Gurit UK,School of Mechanical Engineering

[3] Yanshan University,undefined

来源：

International Journal of Fracture | 2009年 / 158卷

关键词：

Open hole tension; Composites; Scaling; Virtual testing; Interface elements;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The open hole tension strength is an important parameter for composite structures since it is can be a limiting factor in design. It is also difficult to characterise and predict through analytical or numerical methods since there exists a wide variation in experimental results depending on testing configuration. Here a range of such variations are presented and the behaviour explained in terms of the development of sub-critical damage in the form of intra-ply splits and inter-ply delaminations and their interaction with each other and also with fibre failure. A finite element based numerical analysis technique has been developed and applied to each case in turn, successfully predicting the failure modes, trends and strengths. This is sufficiently robust to form the basis for a virtual testing framework for the open hole tensile strength of composite materials.

引用

页码：169 / 181

页数：12

共 30 条

[1]

Awerbuch J(1985)Notched strength of composite laminates: predictions and experiments—a review J Reinf Plast Compos 4 3-159

[2]

Madhukar MS(2007)Prediction of size effects in notched laminates using continuum damage mechanics Compos Sci Technol 67 2715-2727

[3]

Camanho PP(1987)A Progressive damage model for laminated composites containing stress-concentrations J Compos Mater 21 834-855

[4]

Maimi P(2006)In quest of virtual tests for structural composites Science 314 1102-1107

[5]

Davila CG(2008)Virtual testing of realistic aerospace composite structures J Mater Sci 42 6586-6592

[6]

Chang FK(2007)Virtual fracture testing of composites: a computational micromechanics approach Eng Fract Mech 74 1126-1138

[7]

Chang KY(2007)An experimental investigation into the tensile strength scaling of notched composites Composites Part A 38 867-878

[8]

Cox B(2006)Numerical investigation of progressive damage and the effect of layup in notched tensile tests J Compos Mater 40 1229-1245

[9]

Yang QD(2008)Modelling the interaction between matrix cracks and delamination damage in scaled quasi-isotropic specimens Compos Sci Technol 68 80-89

[10]

Davies GOA(2007)A concise interface constitutive law for analysis of delamination and splitting in composite materials and its application to scaled notched tensile specimens Int J Numer Methods Eng 69 1982-1995

← 1 2 3 →