·676· 北京科技大学学报 第34卷 方向不一致. titanium-stainless steel composite.Mater Sci Eng A,2008,494 (1/2):329 参考文献 9]Xia CQ,Jin Z P.On the evolution of microstructure and diffusion [Findik F.Recent developments in explosive welding.Mater Des, paths in the titanium-steel explosion weld interface during heat 2011,32(3):1081 treatment.Less Common Met,1990,162:315 Nobili A,Masri T.Lafont M C.Recent developments in charac- [10]Yang Y,Zhang X M,Li Z H,et al.The microstructures in the terization of a titanium-steel explosion bond interface /Proceed- explosive cladding titanium/mild steel interface after heat treat- ings of Reactive Metals in Corrosive Applications Conference.Alba- ment.J Cent South Univ Technol,1995,2(1):105 y,1999 [11]Yang Y,Zhang X M,Li Z H,et al.Diffusion reaction in TA2/ B]Kahraman N,Gulenc B.Findik F.Joining of titanium/stainless A3 explosive cladding interface.Acta Metall Sin,1995,31 (4): steel by explosive welding and effect on interface.J Mater Process 189 Technol,2005,169(2):127 (杨扬，张新明，李正华，等.TA2/A3爆炸复合界面的扩散 4]Akbari Mousavi S AA,Farhadi Sartangi P.Experimental investi- 反应.金属学报，1995,31(4)：189) gation of explosive welding of cp-itanium/AISI 304 stainless steel. 12] Chiba A,Nishida M,Morizono Y,et al.Bonding characteristics Mater Des,2009,30(3):459 and diffusion barrier effect of the TiC phase formed at the bonding 5]Song J,Kostkaa A,Veehmayerb M,et al.Hierarchical micro- interface in an explosively welded titanium/high-carbon steel structure of explosive joints:example of titanium to steel cladding. clad.J Phase Equilibria,1995,16(5):411 Mater Sci Eng A,2011,528(6)2641 13] Morizono Y,Nishida M.,Chiba A,et al.Effect of heat treat- [6]Manikandan P,Hokamoto K,Fujita M,et al.Control of energetic ment on formation of columnar ferrite structure in explosively wel- conditions by employing interlayer of different thickness for explo- ded titanium/hypoeutectoid steel joints.Mater Sci Forum,2004, sive welding of titanium/304 stainless steel.J Mater Process Tech- 465/466:373 nal,2008,195(13):232 [14]Yang Y,Wang B F,Xiong J,et al.Adiabatic shear bands on Yan X B,LiZ H,Peng W A.Heating of titanium-steel explosive the titanium side in the titanium/mild steel explosive cladding in- cladding plate interface mechanical properties and microstructure. terface:experiments,numerical simulation,and microstructure Rare Metal Mater Eng,1990(5):38 evolution.Metall Mater Trans A,2006,37(10):3131 (颜学柏，李正华，彭文安.加热对钛一钢爆炸复合板界面力 [15]Zheng Y M.Explosive Welding and Metal Composite and their 学性能和显微结构的影响.稀有金属材料与工程，1990(5)： Engineering Application.Changsha:Central South University 38) Press,2002 [8]Akbari Mousavi S AA,Farhadi Sartangi P.Effect of post-weld (郑远谋.爆炸焊接和金属复合材料及其工程应用.长沙： heat treatment on the interface microstructure of explosively welded 中南大学出版社，2002)北 京 科 技 大 学 学 报 第 34 卷 方向不一致． 参 考 文 献 ［1］ Findik F． Recent developments in explosive welding． Mater Des， 2011，32( 3) : 1081 ［2］ Nobili A，Masri T，Lafont M C． Recent developments in charac￾terization of a titanium-steel explosion bond interface / / Proceed￾ings of Reactive Metals in Corrosive Applications Conference． Alba￾ny，1999 ［3］ Kahraman N，Gülen B，Findik F． Joining of titanium/stainless steel by explosive welding and effect on interface． J Mater Process Technol，2005，169( 2) : 127 ［4］ Akbari Mousavi S A A，Farhadi Sartangi P． Experimental investi￾gation of explosive welding of cp-titanium/AISI 304 stainless steel． Mater Des，2009，30( 3) : 459 ［5］ Song J，Kostkaa A，Veehmayerb M，et al． Hierarchical micro￾structure of explosive joints: example of titanium to steel cladding． Mater Sci Eng A，2011，528( 6) : 2641 ［6］ Manikandan P，Hokamoto K，Fujita M，et al． Control of energetic conditions by employing interlayer of different thickness for explo￾sive welding of titanium/304 stainless steel． J Mater Process Tech￾nol，2008，195( 1-3) : 232 ［7］ Yan X B，Li Z H，Peng W A． Heating of titanium-steel explosive cladding plate interface mechanical properties and microstructure． Rare Metal Mater Eng，1990( 5) : 38 ( 颜学柏，李正华，彭文安． 加热对钛--钢爆炸复合板界面力 学性能和显微结构的影响． 稀有金属材料与工程，1990( 5) : 38) ［8］ Akbari Mousavi S A A，Farhadi Sartangi P． Effect of post-weld heat treatment on the interface microstructure of explosively welded titanium-stainless steel composite． Mater Sci Eng A，2008，494 ( 1 /2) : 329 ［9］ Xia C Q，Jin Z P． On the evolution of microstructure and diffusion paths in the titanium-steel explosion weld interface during heat treatment． J Less Common Met，1990，162: 315 ［10］ Yang Y，Zhang X M，Li Z H，et al． The microstructures in the explosive cladding titanium/mild steel interface after heat treat￾ment． J Cent South Univ Technol，1995，2( 1) : 105 ［11］ Yang Y，Zhang X M，Li Z H，et al． Diffusion reaction in TA2 / A3 explosive cladding interface． Acta Metall Sin，1995，31( 4) : 189 ( 杨扬，张新明，李正华，等． TA2 /A3 爆炸复合界面的扩散 反应． 金属学报，1995，31( 4) : 189) ［12］ Chiba A，Nishida M，Morizono Y，et al． Bonding characteristics and diffusion barrier effect of the TiC phase formed at the bonding interface in an explosively welded titanium/high-carbon steel clad． J Phase Equilibria，1995，16( 5) : 411 ［13］ Morizono Y，Nishida M． ，Chiba A，et al． Effect of heat treat￾ment on formation of columnar ferrite structure in explosively wel￾ded titanium/hypoeutectoid steel joints． Mater Sci Forum，2004， 465 /466: 373 ［14］ Yang Y，Wang B F，Xiong J，et al． Adiabatic shear bands on the titanium side in the titanium/mild steel explosive cladding in￾terface: experiments，numerical simulation，and microstructure evolution． Metall Mater Trans A，2006，37( 10) : 3131 ［15］ Zheng Y M． Explosive Welding and Metal Composite and their Engineering Application． Changsha: Central South University Press，2002 ( 郑远谋． 爆炸焊接和金属复合材料及其工程应用． 长沙: 中南大学出版社，2002) ·676·