PROCESSING SIC-PARTICULATE REINFORCED TITANIUM-BASED METAL-MATRIX COMPOSITES BY SHOCK-WAVE CONSOLIDATION

被引:0
|
作者
TONG, W
RAVICHANDRAN, G
CHRISTMAN, T
VREELAND, T
机构
[1] California Inst of Technology, Pasadena, United States
来源
ACTA METALLURGICA ET MATERIALIA | 1995年 / 43卷 / 01期
关键词
D O I
暂无
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
SiC particulate reinforced titanium matrix composites have been processed by shock wave consolidation. These materials are difficult to produce using traditional methods because of the high reactivity of titanium with most reinforcement materials. However, using shock consolidation, fully dense composite compacts that are free from interfacial reactions and macroscopic cracks have been obtained. Process variables (starting powder size, dispersion of SiC particles, chemical impurity level, and pre-compaction degassing and heat treatment) have been investigated. Proper post-consolidation annealing has also been explored to improve impurity segregation and, thus, the ductility of the matrix. Subsequent heat treatments of the composites produce controlled interfacial reaction zones sizes. The processed materials are ideal for studying effects of interfacial properties on the mechanical behavior of particulate reinforced metal matrix composites.
引用
收藏
页码:235 / 250
页数:16
相关论文
共 50 条
  • [1] PROCESSING AND PROPERTIES OF SIC PARTICULATE-REINFORCED TITANIUM MATRIX COMPOSITES BY SHOCK-WAVE CONSOLIDATION
    TONG, W
    RAVICHANDRAN, G
    CHRISTMAN, T
    VREELAND, T
    JOURNAL DE PHYSIQUE IV, 1994, 4 (C8): : 331 - 336
  • [2] Computational investigation of structured shocks in Al/SiC-particulate metal-matrix composites
    Grujicic, M.
    Bell, W. C.
    Pandurangan, B.
    Yen, C. F.
    Cheeseman, B. A.
    MULTIDISCIPLINE MODELING IN MATERIALS AND STRUCTURES, 2011, 7 (04) : 469 - 497
  • [3] TRANSITION WEAR BEHAVIOR OF SIC-PARTICULATE REINFORCED AND SIC-WHISKER-REINFORCED 7091 AL METAL MATRIX COMPOSITES
    WANG, A
    RACK, HJ
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 1991, 147 (02): : 211 - 224
  • [4] CONSOLIDATION OF TI-SIC PARTICLE-REINFORCED METAL-MATRIX COMPOSITES
    CHRISTMAN, T
    HEADY, K
    VREELAND, T
    SCRIPTA METALLURGICA ET MATERIALIA, 1991, 25 (03): : 631 - 636
  • [5] MICROMECHANICAL MODELING OF DAMAGE GROWTH IN TITANIUM-BASED METAL-MATRIX COMPOSITES
    SHERWOOD, JA
    QUIMBY, HM
    COMPUTERS & STRUCTURES, 1995, 56 (2-3) : 505 - 514
  • [6] Titanium-based metal matrix composites reinforced with ceramic particulates
    Hagiwara, M.
    NRIM Research Activities, 1993, : 23 - 24
  • [7] MATRIX REINFORCEMENT INTERACTIONS IN SHOCK-WAVE CONSOLIDATED TITANIUM ALUMINIDE REINFORCED WITH SIC
    RHODES, CG
    VASSILIOU, MS
    MITCHELL, MR
    SPURLING, RA
    METALLURGICAL TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 1990, 21 (06): : 1589 - 1593
  • [8] REINFORCEMENT MATRIX INTERACTIONS IN SHOCK-WAVE CONSOLIDATED TITANIUM ALUMINIDE REINFORCED WITH SIC
    RHODES, CG
    VASSILIOU, MS
    MITCHELL, MR
    JOURNAL OF METALS, 1988, 40 (07): : A34 - A34
  • [9] Simulation of the strain rate sensitive flow behavior of SiC-particulate reinforced aluminum metal matrix composites
    Tirtom, Ismail
    Guden, Mustafa
    Yilidz, Hasan
    COMPUTATIONAL MATERIALS SCIENCE, 2008, 42 (04) : 570 - 578
  • [10] THE RESPONSE OF METAL-MATRIX COMPOSITES SUBJECTED TO QUASI-STATIC AND SHOCK-WAVE DEFORMATION
    HUANG, JC
    LO, YS
    GRAY, GT
    MATERIALS CHEMISTRY AND PHYSICS, 1993, 35 (01) : 71 - 85
12345