FRACTURE-MECHANICAL SIMULATION OF A CRACK PROPAGATING IN DISCONTINUOUSLY-REINFORCED METAL-MATRIX COMPOSITES

被引：9

作者：

TODA, H ^{[1
]}

KOBAYASHI, T ^{[1
]}

WADA, Y ^{[1
]}

机构：

[1] SUZUKI MOTOR CORP, DIV DEV 2, HAMAMATSU, SHIZUOKA, JAPAN

来源：

JOURNAL OF THE JAPAN INSTITUTE OF METALS | 1995年 / 59卷 / 01期

关键词：

METAL MATRIX COMPOSITE; FRACTURE MECHANICS; DISTRIBUTION MODE; HUTCHINGSON RICE ROSENGREN FIELD; GROWING CRACK; MICROCRACK SHIELDING; CRACK DEFLECTION; MIXED-MODE;

D O I：

10.2320/jinstmet1952.59.1_94

中图分类号：

学科分类号：

摘要：

A simulation program based on the fracture mechanics was constructed to evaluate crack initiation and growth characteristics in discontinuously-reinforced MMCs. Spatial patterns of reinforcement are quantified by using one of the three statistical probability functions. Reinforcement strength is assumed to vary according to the three-parameter Weibull distribution function. The crack-tip stress field is computed by HRR singularity for both stationary cracks and growing cracks. It was identified by preliminary in-situ CODs measurement. The results of FEM analysis are used for computing the extent of stress concentration around the reinforcement in the HRR field, and adequate criteria for microcrack initiation are defined. Shielding effects and crack deflection are taken into consideration. Finally, the strain energy density factor is used as a criterion for crack initiation and growth. Microcrack formation ahead of a major crack-tip and crack deflection towards the microcracks, which has been often observed in-situ in the discontinuously-reinforced MMCs, are well simulated by the numerical calculation. Parametric studies were carried out to evaluate crack initiation and growth through an Al alloy composite reinforced with SiC whiskers.

引用

页码：94 / 102

页数：9

共 21 条

[1]

BILBY BA, 1977, FRACTURE 1977, V3, P197

[2] CRACK-TIP BEHAVIORS OF STATIONARY AND GROWING CRACKS IN AL-FE-X ALLOYS .2. CRACK OPENING PROFILE [J].

CHAN, KS .

METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 1990, 21 (01) :81-86

[3] SLIGHTLY CURVED OR KINKED CRACKS [J].

COTTERELL, B ;

RICE, JR .

INTERNATIONAL JOURNAL OF FRACTURE, 1980, 16 (02) :155-169

[4]

Erdogan F., 1972, Engineering Fracture Mechanics, V4, P811, DOI 10.1016/0013-7944(72)90018-5

[5] HIGH-TEMPERATURE ELASTIC-MODULI OF POLYCRYSTALLINE SILICON-NITRIDE [J].

FATE, WA .

JOURNAL OF APPLIED PHYSICS, 1975, 46 (06) :2375-2377

[6] INTERFACIAL BOND STRENGTH IN AN ALUMINUM-ALLOY 6061 - SIC COMPOSITE [J].

FLOM, Y ;

ARSENAULT, RJ .

MATERIALS SCIENCE AND ENGINEERING, 1986, 77 (1-2) :191-197

[7] EFFECT OF PARTICLE-SIZE ON FRACTURE-TOUGHNESS OF SIC/AL COMPOSITE-MATERIAL [J].

FLOM, Y ;

ARSENAULT, RJ .

ACTA METALLURGICA, 1989, 37 (09) :2413-2423

[8] GENERAL-SOLUTION TO THE PROBLEM OF MICROCRACKS NEAR THE TIP OF A MAIN CRACK [J].

GONG, SX ;

HORII, H .

JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS, 1989, 37 (01) :27-46

[9] CRACK TIP SHIELDING BY MICROCRACKING IN BRITTLE SOLIDS [J].

HUTCHINSON, JW .

ACTA METALLURGICA, 1987, 35 (07) :1605-1619

[10]

JEONG IB, 1990, FUNDAMENTAL RELATIONSHIPS BETWEEN MICROSTRUCTURES AND MECHANICAL PROPERTIES OF METAL MATRIX COMPOSITES, P187

← 1 2 3 →