添加Al-TiB中间合金对铝合金组织、磨损和压缩变形行为的影响

中国有色金属学报, 2012, 22(5): 1001-1011. doi: 10.1016/S1003-6326(11)61276-4

添加Al-TiB中间合金对铝合金组织、磨损和压缩变形行为的影响

^1, , ^2, , ^3, , ^4,

1.Advanced Materials and Processes Research Institute(CSIR LAB), Bhopal462064, India

2.Advanced Materials and Processes Research Institute(CSIR LAB), Bhopal462064, India

3.Advanced Materials and Processes Research Institute(CSIR LAB), Bhopal462064, India

4.Advanced Materials and Processes Research Institute(CSIR LAB), Bhopal462064, India

关键词：铝合金 , 晶粒细化 , Al-TiB中间合金 , 压缩变形 , 滑动磨损

Effect of Al-TiB master alloy addition on microstructure, wear and compressive deformation behaviour of aluminum alloys

D. P. MONDAL ^1, , Nidhi JHA ^2, , Anshul BADKUL ^3, , S.DAS ^4,

1.Advanced Materials and Processes Research Institute(CSIR LAB), Bhopal462064, India

2.Advanced Materials and Processes Research Institute(CSIR LAB), Bhopal462064, India

3.Advanced Materials and Processes Research Institute(CSIR LAB), Bhopal462064, India

4.Advanced Materials and Processes Research Institute(CSIR LAB), Bhopal462064, India

Keywords： aluminum alloys , grain refinement , Al-TiB master alloy , compressive deformation , sliding wear

在7178铝合金中添加不同比例的Al-10％TiB中间合金,考察TiB对铝合金的晶粒细化、磨损和压缩变形行为的影响.组织观察表明,TiB颗粒起着晶粒细化剂的作用,导致生成球状枝晶.当Al-TiB中间合金的添加量超过20％时,合金的耐磨性和强度随着中间合金添加量的增加而降低,即使其枝晶组织变得更细而接近于球状组织.

Aluminum-10％ TiB master alloy was added in various proportions in 7178 Al alloy in order to examine the effect of TiB on grain refinement,wear and compressive deformation of the later one.Microstructural characterization reveals that TiB particles act as grain refiners for primary base alloy and result in globular dendrites.It was observed that the wear resistance and strength of the alloy decreased when the master alloy addition increased beyond 20％,even though the dendrites become much finer and almost spherical in nature.

参考文献

[1]	BAKES H;BENJAMIN D;KRIKPATRICK C W.Metal Handbook[M].Metals Park,Ohio:ASM,1979:8.
[2]	A. Heinz;A. Haszler;C. Keidel;S. Moldenhauer;R. Benedictus;W. S. Miller .Recent development in aluminium alloys for aerospace applications[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2000(1):102-107.
[3]	STRAKE E A;STALEY J T .Applications of modern aluminium alloys to aircraft[J].Progress in Aerospace Sciences,1999,32:131-172.
[4]	FROES F H .Advanced metals for aerospace and automotive use[J].Materials Science and Engineering A,1994,184:119-133.
[5]	WAN Y;XUE Q J .Effect of phosphorous containing additives on the wear of aluminium in the lubricated condition on steel contact[J].Tribology Letters,1996,2:37-39.
[6]	MANDAL A;CHAKRABORTY M;MURTY B S .Effect of TiB2 particles on sliding wear behaviour of Al-4Cu alloy[J].Wear,2007,262:160-166.
[7]	ALPAS A T;ZHANG J .Effect of SiC particulate reinforcement on the dry sliding wear of aluminium-silicon alloys (A356)[J].Wear,1992,155:83-104.
[8]	DEUIS R L;SUBRAMANIAN C;YELLUP J M .Dry sliding wear of aluminium composites--A review[J].Composites Science and Technology,1997,57:415-435.
[9]	R.A.Saravanan;J.M.Lee .Dry sliding wear behavior of A356-15 Pct SiCp composites under controlled atmospheric conditions[J].Metallurgical and materials transactions. A, physical metallurgy and materials science,1999(9):2523-2538.
[10]	WU S Q;ZHU H G;TJONG S C .Wear behavior of in situ Al-based composite containing TiB2,Al2O3 and Al3Ti particles[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1999,30:243-247.
[11]	TEE K L;LU L;LAI M O .Wear performance of in-situ Al-TiB2 composite[J].Wear,2006,240:59-64.
[12]	ALPAS A T;ZHANG J .Effect of microstructure (Particulate size and volume fraction) and counterface material on sliding wear resistance of particulariye reinforced aluminum matrix composites[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1994,25:969-982.
[13]	CROSSLEY F A;MONDOLFO L F .Mechanism of grain refinement in aluminum alloys[J].Trens AIME,1951,191:1143-1148.
[14]	C. Mallikarjuna;S.M. Shashidhara;U.S. Mallik;K.I. Parashivamurthy .Grain refinement and wear properties evaluation of aluminum alloy 2014 matrix-TiB_2 in-situ composites[J].Materials & design,2011(6):3554-3559.
[15]	IQBAL N;van DIJK N H;HANSEN T;KATGERMAN L KEARLEY G J .The role of solute titanium and TiB2 particle in the liquid-solid phase transformation of aluminum alloys[J].Materials Science and Engineering A,2004,386:20-26.
[16]	KUNNAM P;LIMMANEEVICHITR C .Effect of process parameters on morphology and grain refinement efficiency of TiAl3 and TiB2 in aluminum cesting[J].Journal of Materials Science and Technology,2008,24:54-56.
[17]	EASTON M;StJHON D .Grain refinement of aluminum alloys:Part Ⅱ.Confirmation of,and mechanism for,the solute paradigm[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1999,30:1625-1633.
[18]	GREER A L;BUNN A M;TRONCHE A;EVANS P V BRISTOW D J .Modelling of inoculation of metallic melts:Application to grain refinement of alurninium by Al-Ti-B[J].Acta Matarialia,2000,48:2823-2835.
[19]	BACKERUD L .How does a good grain refiner works[J].Light Metals Age,1983,41:6-12.
[20]	MARCANTONIO J A;MONDOLFO L F .Grain refinement in aluminum alloyed with titanium and boron[J].Metals Transaction,1971,2:465-471.
[21]	EASTON M;StJOHN D .Improved production of grain size of aluminum alloys that includes effect of cooling rate[J].Materials Science and Engineering A,2008,486:8-13.
[22]	MONDAL D P;GANESH N V;MUNESHWAR V S;DAS S RAMAKRISHAN N .Effect of SiC concentration and strain rate on the compressive deformation behavior of 2014 Al-SiCp composite[J].Materials Science and Engineering A,2006,433:18-31.

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