A Voronoi cell finite element model for particle cracking in elastic-plastic composite materials

被引：52

作者：

Moorthy, S ^{[1
]}

Ghosh, S ^{[1
]}

机构：

[1] Ohio State Univ, Dept Aerosp Engn Appl Mech & Aviat, Columbus, OH 43210 USA

来源：

COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING | 1998年 / 151卷 / 3-4期

基金：

美国国家科学基金会;

关键词：

D O I：

10.1016/S0045-7825(97)00160-6

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

In this paper, a small deformation Voronoi Cell finite element model is developed for damage in particle reinforced composite materials by particle cracking and splitting. It incorporates a ductile elastic-plastic matrix material containing any dispersion of brittle elastic inclusions of arbitrary shapes and sizes. Damage initiation by micro-cracking or splitting of the :inclusions is assumed to follow a maximum principal stress theory or Rankine criterion. Complete particle cracking or splitting is assumed at the onset of damage. The model accounts for microstructure evolution through progressive particle fracture in complex morphologies without any user interference. Various microstructural morphologies are simulated to verify the effectiveness of the model. Analysis df real microstructures from optical micrographs of Al-Si-Mg composite systems, is conducted to demonstrate the promise of this numerical model.

引用

页码：377 / 400

页数：24

共 37 条

[1] THE RELATION BETWEEN FILAMENT DIAMETER AND FRACTURE STRENGTH FOR ULTRA-HIGH-MODULUS POLYETHYLENE FIBERS [J].

AMORNSAKCHAI, T ;

CANSFIELD, DLM ;

JAWAD, SA ;

POLLARD, G ;

WARD, IM .

JOURNAL OF MATERIALS SCIENCE, 1993, 28 (06) :1689-1698

[2]

[Anonymous], 1990, COMPLEX VARIABLES AP

[3] DAMAGE DUE TO FRACTURE OF BRITTLE REINFORCEMENTS IN A DUCTILE MATRIX [J].

BAO, G .

ACTA METALLURGICA ET MATERIALIA, 1992, 40 (10) :2547-2555

[4] DEFORMATION OF METAL-MATRIX COMPOSITES WITH CONTINUOUS FIBERS - GEOMETRICAL EFFECTS OF FIBER DISTRIBUTION AND SHAPE [J].

BROCKENBROUGH, JR ;

SURESH, S ;

WIENECKE, HA .

ACTA METALLURGICA ET MATERIALIA, 1991, 39 (05) :735-752

[5]

CHEN YZ, 1984, ENG FRACT MECH, V38, P379

[6] AN EXPERIMENTAL AND NUMERICAL STUDY OF DEFORMATION IN METAL CERAMIC COMPOSITES [J].

CHRISTMAN, T ;

NEEDLEMAN, A ;

SURESH, S .

ACTA METALLURGICA, 1989, 37 (11) :3029-3050

[7] ELASTIC INTERACTION OF A CRACK WITH A MICROCRACK ARRAY .1. FORMULATION OF THE PROBLEM AND GENERAL-FORM OF THE SOLUTION [J].

CHUDNOVSKY, A ;

DOLGOPOLSKY, A ;

KACHANOV, M .

INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES, 1987, 23 (01) :1-10

[8] IN-SITU FIBER STRENGTHS IN CERAMIC-MATRIX COMPOSITES FROM FRACTURE MIRRORS [J].

CURTIN, WA .

JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 1994, 77 (04) :1075-1078

[9] ON CRACK PATH SELECTION AND THE INTERFACE FRACTURE ENERGY IN BIMATERIAL SYSTEMS [J].

EVANS, AG ;

DALGLEISH, BJ ;

HE, M ;

HUTCHINSON, JW .

ACTA METALLURGICA, 1989, 37 (12) :3249-3254

[10] MICROMECHANICAL MODELING OF REINFORCEMENT FRACTURE IN PARTICLE-REINFORCED METAL-MATRIX COMPOSITES [J].

FINOT, M ;

SHEN, YL ;

NEEDLEMAN, A ;

SURESH, S .

METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 1994, 25 (11) :2403-2420

← 1 2 3 4 →