THE EFFECT OF MICROSTRUCTURE ON THE FATIGUE CRACK-PROPAGATION BEHAVIOR OF AN AL-ZN-MG-CU ALLOY

被引：43

作者：

LINDIGKEIT, J

GYSLER, A

LUTJERING, G

机构：

[1] DFVLR,D-5000 COLOGNE 90,FED REP GER

[2] TECH UNIV HAMBURG,D-2100 HAMBURG 90,FED REP GER

来源：

METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE | 1981年 / 12卷 / 09期

关键词：

D O I：

10.1007/BF02643567

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

引用

页码：1613 / 1619

页数：7

共 19 条

[1]

ALBRECHT J, 1976, 4TH P INT C STRENGTH, V2, P463

[2] MODEL RELATING LOW-CYCLE FATIGUE PROPERTIES AND MICROSTRUCTURE TO FATIGUE CRACK-PROPAGATION RATES [J].

CHAKRABORTTY, SB .

FATIGUE OF ENGINEERING MATERIALS AND STRUCTURES, 1979, 2 (03) :331-344

[3]

GYSLER A, 1979, 5TH P INT C STRENGTH, V2, P1113

[4]

GYSLER A, UNPUBLISHED

[5] MICROSTRUCTURE AND FATIGUE CRACK GROWTH IN A GAMMA-FE-NI-AL ALLOY [J].

HORNBOGEN, E ;

GAHR, KHZ .

ACTA METALLURGICA, 1976, 24 (06) :581-592

[6] MICROSTRUCTURAL INFLUENCES ON FATIGUE CRACK GROWTH IN TI-6AL-4V [J].

IRVING, PE ;

BEEVERS, CJ .

MATERIALS SCIENCE AND ENGINEERING, 1974, 14 (03) :229-238

[7] FATIGUE CRACK PROPAGATION IN COPPER AND CU-AL SINGLE CRYSTALS [J].

ISHII, H ;

WEERTMAN, J .

METALLURGICAL TRANSACTIONS, 1971, 2 (12) :3441-+

[8] EFFECT OF COPPER CONTENT AND DEGREE OF RECRYSTALLIZATION ON THE FATIGUE RESISTANCE OF 7XXX-TYPE ALUMINUM-ALLOYS .1. LOW-CYCLE CORROSION FATIGUE [J].

LIN, FS ;

STARKE, EA .

MATERIALS SCIENCE AND ENGINEERING, 1979, 39 (01) :27-41

[9] EFFECT OF GRAIN-SIZE ON THE FATIGUE CRACK-PROPAGATION BEHAVIOR OF AGE-HARDENED ALLOYS IN INERT AND CORROSIVE ENVIRONMENT [J].

LINDIGKEIT, J ;

TERLINDE, G ;

GYSLER, A ;

LUTJERING, G .

ACTA METALLURGICA, 1979, 27 (11) :1717-1726

[10]

Liu HW, 1969, P 2 INT C FRACT CHAP, P812

← 1 2 →