Features of microstructure and fracture in the transient liquid phase bonded aluminium-based metal matrix composite joints 被引量：3

Features of microstructure and fracture in the transient liquid phase bonded aluminium-based metal matrix composite joints

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摘要 Transient liquid phase (TLP) bonded aluminium based metal matrix composite (MMC) joints can be classified into three distinct regions, i.e. the particulate segregation region, the denuded particulate region and the base material region. The microstructure of the particulate segregation region consists of alumina particulate and Al alloy matrix with the Al 2Cu and MgAl 2O 4. It contains more and smaller alumina particulates compared with the base material region. The TLP bonded joints have the tensile strength of 150 MPa ～200 MPa and the shear strength of 70 MPa ～100 MPa . With increasing tensile stress, cracks initiate in the particulate segregation region, especially in the particulate/particulate interface and the particulate/matrix interface, and propagate along particulate/matrix interface, througth thin matrix metal and by linking up the close cracks. The particulate segregation region is the weakest during tensile testing and shear testing due to obviously increased proportion of weak bonds (particulate particulate bond and particulate matrix bond). Transient liquid phase (TLP) bonded aluminium based metal matrix composite (MMC) joints can be classified into three distinct regions, i.e. the particulate segregation region, the denuded particulate region and the base material region. The microstructure of the particulate segregation region consists of alumina particulate and Al alloy matrix with the Al 2Cu and MgAl 2O 4. It contains more and smaller alumina particulates compared with the base material region. The TLP bonded joints have the tensile strength of 150 MPa ～200 MPa and the shear strength of 70 MPa ～100 MPa . With increasing tensile stress, cracks initiate in the particulate segregation region, especially in the particulate/particulate interface and the particulate/matrix interface, and propagate along particulate/matrix interface, througth thin matrix metal and by linking up the close cracks. The particulate segregation region is the weakest during tensile testing and shear testing due to obviously increased proportion of weak bonds (particulate particulate bond and particulate matrix bond).

作者孙大谦刘卫红吴建红贾树盛邱小明

出处《China Welding》 EI CAS 2002年第1期9-13,共5页 中国焊接（英文版）

关键词铝基复合材料液相连接 TLP 显微结构 MMC 焊接接头 aluminium based metal matrix composite, transient liquid phase bonding, microstructure, fracture

分类号 TB331 [一般工业技术—材料科学与工程]

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参考文献10

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二级参考文献15

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共引文献11

1张贵锋,张建勋,李思玉.铝基复合材料液相扩散焊接头区陶瓷颗粒/金属(P/M)界面的弱化、强化与断裂模式[J].现代焊接,2010(1):60-64.
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3张贵锋,张建勋,裴怡,吴相省,李思玉,刘宇.金属基复合材料过渡液相(TLP)扩散焊中间层设计的改进[J].热加工工艺,2006,35(19):28-31. 被引量：8
4刘卫红,孙大谦,孙德新,贾树盛.Al_2O_(3P)/6061Al复合材料瞬间液相扩散连接[J].焊接学报,2007,28(3):57-60. 被引量：7
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6张洋,闫久春.高体积分数SiC颗粒增强铝基复合材料的超声波钎焊[J].焊接,2008(8):29-31. 被引量：12
7张贵锋,苏伟,张建勋,A.SUZUMURA.铝基复合材料用Al-12Si-xTi系三元活性钎料的制备(英文)[J].Transactions of Nonferrous Metals Society of China,2012,22(3):596-603. 被引量：4
8张贵锋,廖先金,陈博,张林杰,张建勋.SiC_p/ZL101铝基复合材料的原位强化活性液相扩散焊方法(In situ A-TLP)[J].焊接,2014(1):18-21. 被引量：2
9罗泉祥,许惠斌.SiC_p/A356半固态定点搅拌钎焊界面微观结构演变[J].科技创新与应用,2014,4(28):66-68.
10高增,牛济泰,王西涛.SiC_P/Al复合材料焊接方法及其填充材料研究进展[J].热加工工艺,2014,43(15):11-15. 被引量：5

同被引文献14

1刘黎明,祝美丽,许德胜,吴林.Interface reaction in aluminium matrix composite at laser welding[J].中国有色金属学会会刊：英文版,2001,11(5):671-674. 被引量：1
2桂满昌,王殿斌,张洪.颗粒增强铝基复合材料在汽车上的应用[J].机械工程材料,1996,20(6):30-33. 被引量：44
3Li Z, Fearis W,North T H. Particulate segregation and mechanical properties in transient liquid phase bonded metal matrix composite material [ J ]. Materials Science and Technology, 1995,11(4) :363 -369.
4Akio Suzumura,Yujin Xing. Diffusion brazing of short Al2O3 fiber- reinforced aluminum composite [ J ]. Materials Transactions, JIM,1996,37(5) :1109 - 1115.
5Li Z, Zhou Y, North T H. Counteraction of particulate segregation during transient liquid - phase bonding of aluminiurn - based MMC material [ J]. Journal of Materials Science, 1995,30( 12 ) :1075 - 1082.
6Askew J R, Wilde J F, Khan T 1. Transient liquid bonding of 2124 aluminium metal matrix composite[ J]. Materials Science and Technology, 1998,14 (10) :920 - 924.
7Klehn R, Eagar T W. Joining of 6061 aluminum matrix - ceramic particle reinforced composites[ R ]. WRC Bulletin 385,1993,1 : 1-26.
8Isaac Tuah-Poku,M. Dollar,T.B. Massalski.A study of the transient liquid phase bonding process applied to a Ag/Cu/Ag sandwich joint[J].Metallurgical Transactions A.1988(3)
9Zhang Wenlong, Cai Liuchun, Peng Huaxin, Wang Dezun and Yao Zhongkai School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, P. R. China.FORMING PROCESS OF HOT-EXTRUDED SiCw/6061Al COMPOSITES(Ⅰ)[J].中国有色金属学会会刊：英文版,1998,8(3):77-81. 被引量：3
10张大童,李元元,龙雁.铝基复合材料研究进展[J].轻合金加工技术,2000,28(1):5-10. 被引量：46

引证文献3

1谷晓燕,孙大千,刘力.Transient liquid phase bonding of TiC particulate reinforced magnesium metal matrix composite (TiC_p/AZ91D)[J].China Welding,2007,16(1):19-24. 被引量：1
2刘卫红,孙大谦,贾树盛,邱小明.铝基复合材料的Al-Cu合金中间层瞬间液相扩散连接[J].焊接学报,2003,24(5):13-16. 被引量：10
3孙大谦,刘卫红,贾树盛,邱小明.Formation process, microstructure and mechanical property of transient liquid phase bonded aluminium-based metal matrix composite joint[J].中国有色金属学会会刊：英文版,2004,14(1):105-110. 被引量：5

二级引证文献12

1张贵锋,张建勋,李思玉.铝基复合材料液相扩散焊接头区陶瓷颗粒/金属(P/M)界面的弱化、强化与断裂模式[J].现代焊接,2010(1):60-64.
2姜世杭,王笃雄,张剑峰,沈玲.铝基复合材料的瞬间液相扩散连接试验[J].扬州大学学报（自然科学版）,2005,8(4):40-44. 被引量：3
3张贵锋,张建勋,裴怡,吴相省,李思玉,刘宇.金属基复合材料过渡液相(TLP)扩散焊中间层设计的改进[J].热加工工艺,2006,35(19):28-31. 被引量：8
4刘卫红,孙大谦,孙德新,贾树盛.Al_2O_(3P)/6061Al复合材料瞬间液相扩散连接[J].焊接学报,2007,28(3):57-60. 被引量：7
5张静,路文江,俞伟元.非晶铜磷钎料的钎焊连接机理研究[J].热加工工艺,2008,37(5):12-15. 被引量：3
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7张贵锋,苏伟,张建勋,A.SUZUMURA.铝基复合材料用Al-12Si-xTi系三元活性钎料的制备(英文)[J].Transactions of Nonferrous Metals Society of China,2012,22(3):596-603. 被引量：4
8张贵锋,廖先金,陈博,张林杰,张建勋.SiC_p/ZL101铝基复合材料的原位强化活性液相扩散焊方法(In situ A-TLP)[J].焊接,2014(1):18-21. 被引量：2
9罗泉祥,许惠斌.SiC_p/A356半固态定点搅拌钎焊界面微观结构演变[J].科技创新与应用,2014,4(28):66-68.
10高增,牛济泰,王西涛.SiC_P/Al复合材料焊接方法及其填充材料研究进展[J].热加工工艺,2014,43(15):11-15. 被引量：5

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