轻质高强层状复合材料研究现状
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摘要
综述了层状复合板材的研究现状。从制备技术、复合机理、界面形态等方面叙述了轻质、高强层状复合板材的研究现状和发展趋势,指出采用合适的工艺制备铝、镁、钛三种金属结构材料的层状板材,是获得轻质高强的结构材料的有效途径之一。
Research status of laminated composite plate is summarized in this paper.From the aspects of preparing technology,composition mechanism and interface morphology,research status and development trends of light and high strength laminated composite are described.It is proposed that using appropriate technology to prepare three kinds of metal structure materials,such as aluminum,magnesium and titanium is the effective ways to obtain the light and high strength structural material.
Research status of laminated composite plate is summarized in this paper.From the aspects of preparing technology,composition mechanism and interface morphology,research status and development trends of light and high strength laminated composite are described.It is proposed that using appropriate technology to prepare three kinds of metal structure materials,such as aluminum,magnesium and titanium is the effective ways to obtain the light and high strength structural material.
引文
[1]张胜华.层状金属复合材料的研究现状[C].铝加工高新技术论文集,长沙,中国有色金属加工工业协会,2001.
[2]张建军.Al/Mg/Al热轧复合板的制备及其微观组织和力学性能研究[D].太原:太原理工大学,2016.
[3]杨婷慧.铝镁叠层复合材料力学性能计算与轧制复合工艺[D].南京:南京理工大学,2010.
[4]胡宏波.铝/镁/钛层状复合板轧制工艺与结合界面研究[D].重庆:重庆大学,2015.
[5]Grydin O,et al.Twin-roll casting of aluminum—steel clad strips[J].Journal of Manufacturing Process(2013),http://dx.doi.org/10.1016/j.jmapro.2013.08.008.
[6]H.W.Liu,C.Guo,Y.Cheng,et al.Interfacial strength and structure of stainless steel-semi-solid aluminum alloy clad metal[J].Materials Letters,2006(06):180-184.
[7]黄莉莉,池成忠,梁伟,等.退火温度对热轧5052/AZ31/5052镁铝复合板组织和性能的影响[J].轻合金加工技术,2013,(41)1:7-41.
[8]武佳琪.镁/钛异种金属爆炸焊接界面微观组织及性能的研究[D].太原:太原理工,2015.
[9]夏鸿博,王少刚,贲海峰.钛/铝爆炸复合板结合区域的微观组织及力学性能的研究[J].压力容器,2013(08):15-20.
[10]王全柱,邓光平,侯发臣.AZ31/7A 52复合材料爆炸焊接工艺研究[J].材料开发与应用,2011,(26)1:29-33.
[11]张婷婷,王文先,袁晓丹等.Mg/Al合金爆炸焊连接及其界面接合机制[J].机械工程学报,2016(12):52-58.
[12]徐卫,朱明,郭胜利,等.钛-铝复合板界面组织及其对加工性能的影响[J].稀有金属,2011,(35)3:342-348.
[13]胡捷,李德福.层状钛/铝复合板的组织和性能[C].第二届层压金属复合材料生产技术开发与应用研讨会,北京,2010.10:148-157.
[14]Liu X B,Chen R S,Han E H.Preliminary investigations on the Mg-Al-Zn/Al laminated composite fabricated by equal channel angular extrusion[J].Journal of Materials Processing Technology,2009,209:4675-4681.
[15]任广笑,王红霞,周斌,等.等通道转角挤压制备7075Al/AZ31复合板界面组织及结合强度[J].材料热处理学报,2016(05):33-39.
[16]刘鹏涛,马立峰,贾伟涛,等.包铝镁合金复合板轧制制备新工艺[J].材料科学与工程学报,2016(03):497-499+481.
[17]李坊平,于文斌,蒋显全,等.铸造1060/AZ31包铝镁合金界面结构与显微组织[J].北京科技大学学报,2012(09):1048-1053.
[18]李坊平,于文斌,蒋显全,等.铸造1060/Mg-2.0Mn-0.6Ca包铝镁合金的界面结构与显微组织[J].稀有金属材料与工程,2012(S2):388-392.
[19]王文焱,史士钦,尚郑平,等.铸轧法制备钛铝复合板的界面组织与性能[J].特种铸造及有色合金,2016(10):1084-1088.
[20]Parks J M.Re-crystallization welding[J].Welding J,1953,32(5):209s-222s.
[21]Cave J.The mechanism of cold pressure welding by rolling[J].J.Inst.Met,1973,101(7):203-207.
[22]Peng X K,Heness G,Yeung W Y.Effect of rolling temperature on interface and bond strength development of roll bonded copper/aluminum metal laminates[J].Journal of materials science,1999,34(2):277-281.
[23]Sanders D G.Diffusion bonding of metals:U.S.Patent 6,129,261[P].2000-10-10.
[24]Eizadjou M,Manesh H D,Janghorban K.Investigation of roll bonding between aluminum alloy strips[J].Materials&Design,2008,29(4):909-913.
[25]陈燕俊.金属叠层复合材料的制备工业和界面研究[D].杭州:浙江大学,2001.
[26]Tortorici P C,Dayananda M A.Phase formation and interdiffusion in A1-clad 430 stainless steels[J].Materials Science and Engineering:A,1998,244(2):207-215.
[27]朱永伟,谢刚朝.层压金属复合材料的加工技术[J].矿冶工程,1998,18(2):68-72.
[28]Wang J,Misra A.An overview of interface-dominated deformation mechanisms in metallic multilayer's[J].Current Opinion in Solid State and Materials Science,2011,15(1):20-28.
[29]张翼航,陈飞帆.复合轧制工艺对Al/Mg复合板冶金结合层组织和性能的影响[J].上海有色金属,2014,35(3):105-109.
[30]付莹.铸造双金属复层材料制备技术及界面研究[D].大连:大连理工大学,2013.
[31]Gao Xingguo,The research of AZ31B magnesium alloy and pure titanium using the friction stir welding[J].Rare Metals Letters,2007,26:44-45.
[32]Gao M,Wang Z M.Li X Y.Laser keyhole welding of dissimilar Ti-6Al-4V Titanium alloy to AZ31B Magnesium alloy[J].Metallurgical and Materials Transactions A,2012,43(1):163-172.
[33]王涛,曹睿,等.镁和钛异种金属冷金属过渡焊接接头微观组织及力学性能的分析[J].机械工程学报,2014,50(04):75-79.
[34]M Ahasan Habib,Liqun Ruan,Ryuji Kimura.Cladding of titanium and magnesium alloy by explosive welding using underwater shockwave technique and effect on interface[J].Materials Science Forum,2014,767:160-165.
[35]Luo J G,Acoff,V L.Using cold roll bonding and annealing to process Ti/Al multi-layered composites from elemental foils[J].Materials Science and Engineering:A,2004,379(1):164-172.
[36]郭训忠,陶杰,袁正.爆炸焊接TA1/Al复合管的界面及性能研究[J].稀有金属材料与工程,2012,41(4):139-143.
[37]Bataev I A,Bataev A A,Mali V I,et al.Structural and mechanical properties of metallic-intermetallic laminate composite produced by explosive welding and annealing[J].Materials and Design,2012,35(30):225-234.
[38]马志新,李德富,胡捷,等.采用爆炸+轧制法制备钛/铝复合板[J].稀有金属,2004,28(4):797-799.
[39]熊江涛,张赋升,李京龙.镁合金与钛合金的瞬间液相扩散焊[J].稀有金属材料与工程,2006,(35)10:1677-1680.
[40]Yasser Fouad.Characterization of a high strength Al-alloy interlayer for mechanical bonding of Ti to AZ31 and associate d tri-layered clad sheet[J].Alexandria Engineering Journal,2014,53:289-293.
[2]张建军.Al/Mg/Al热轧复合板的制备及其微观组织和力学性能研究[D].太原:太原理工大学,2016.
[3]杨婷慧.铝镁叠层复合材料力学性能计算与轧制复合工艺[D].南京:南京理工大学,2010.
[4]胡宏波.铝/镁/钛层状复合板轧制工艺与结合界面研究[D].重庆:重庆大学,2015.
[5]Grydin O,et al.Twin-roll casting of aluminum—steel clad strips[J].Journal of Manufacturing Process(2013),http://dx.doi.org/10.1016/j.jmapro.2013.08.008.
[6]H.W.Liu,C.Guo,Y.Cheng,et al.Interfacial strength and structure of stainless steel-semi-solid aluminum alloy clad metal[J].Materials Letters,2006(06):180-184.
[7]黄莉莉,池成忠,梁伟,等.退火温度对热轧5052/AZ31/5052镁铝复合板组织和性能的影响[J].轻合金加工技术,2013,(41)1:7-41.
[8]武佳琪.镁/钛异种金属爆炸焊接界面微观组织及性能的研究[D].太原:太原理工,2015.
[9]夏鸿博,王少刚,贲海峰.钛/铝爆炸复合板结合区域的微观组织及力学性能的研究[J].压力容器,2013(08):15-20.
[10]王全柱,邓光平,侯发臣.AZ31/7A 52复合材料爆炸焊接工艺研究[J].材料开发与应用,2011,(26)1:29-33.
[11]张婷婷,王文先,袁晓丹等.Mg/Al合金爆炸焊连接及其界面接合机制[J].机械工程学报,2016(12):52-58.
[12]徐卫,朱明,郭胜利,等.钛-铝复合板界面组织及其对加工性能的影响[J].稀有金属,2011,(35)3:342-348.
[13]胡捷,李德福.层状钛/铝复合板的组织和性能[C].第二届层压金属复合材料生产技术开发与应用研讨会,北京,2010.10:148-157.
[14]Liu X B,Chen R S,Han E H.Preliminary investigations on the Mg-Al-Zn/Al laminated composite fabricated by equal channel angular extrusion[J].Journal of Materials Processing Technology,2009,209:4675-4681.
[15]任广笑,王红霞,周斌,等.等通道转角挤压制备7075Al/AZ31复合板界面组织及结合强度[J].材料热处理学报,2016(05):33-39.
[16]刘鹏涛,马立峰,贾伟涛,等.包铝镁合金复合板轧制制备新工艺[J].材料科学与工程学报,2016(03):497-499+481.
[17]李坊平,于文斌,蒋显全,等.铸造1060/AZ31包铝镁合金界面结构与显微组织[J].北京科技大学学报,2012(09):1048-1053.
[18]李坊平,于文斌,蒋显全,等.铸造1060/Mg-2.0Mn-0.6Ca包铝镁合金的界面结构与显微组织[J].稀有金属材料与工程,2012(S2):388-392.
[19]王文焱,史士钦,尚郑平,等.铸轧法制备钛铝复合板的界面组织与性能[J].特种铸造及有色合金,2016(10):1084-1088.
[20]Parks J M.Re-crystallization welding[J].Welding J,1953,32(5):209s-222s.
[21]Cave J.The mechanism of cold pressure welding by rolling[J].J.Inst.Met,1973,101(7):203-207.
[22]Peng X K,Heness G,Yeung W Y.Effect of rolling temperature on interface and bond strength development of roll bonded copper/aluminum metal laminates[J].Journal of materials science,1999,34(2):277-281.
[23]Sanders D G.Diffusion bonding of metals:U.S.Patent 6,129,261[P].2000-10-10.
[24]Eizadjou M,Manesh H D,Janghorban K.Investigation of roll bonding between aluminum alloy strips[J].Materials&Design,2008,29(4):909-913.
[25]陈燕俊.金属叠层复合材料的制备工业和界面研究[D].杭州:浙江大学,2001.
[26]Tortorici P C,Dayananda M A.Phase formation and interdiffusion in A1-clad 430 stainless steels[J].Materials Science and Engineering:A,1998,244(2):207-215.
[27]朱永伟,谢刚朝.层压金属复合材料的加工技术[J].矿冶工程,1998,18(2):68-72.
[28]Wang J,Misra A.An overview of interface-dominated deformation mechanisms in metallic multilayer's[J].Current Opinion in Solid State and Materials Science,2011,15(1):20-28.
[29]张翼航,陈飞帆.复合轧制工艺对Al/Mg复合板冶金结合层组织和性能的影响[J].上海有色金属,2014,35(3):105-109.
[30]付莹.铸造双金属复层材料制备技术及界面研究[D].大连:大连理工大学,2013.
[31]Gao Xingguo,The research of AZ31B magnesium alloy and pure titanium using the friction stir welding[J].Rare Metals Letters,2007,26:44-45.
[32]Gao M,Wang Z M.Li X Y.Laser keyhole welding of dissimilar Ti-6Al-4V Titanium alloy to AZ31B Magnesium alloy[J].Metallurgical and Materials Transactions A,2012,43(1):163-172.
[33]王涛,曹睿,等.镁和钛异种金属冷金属过渡焊接接头微观组织及力学性能的分析[J].机械工程学报,2014,50(04):75-79.
[34]M Ahasan Habib,Liqun Ruan,Ryuji Kimura.Cladding of titanium and magnesium alloy by explosive welding using underwater shockwave technique and effect on interface[J].Materials Science Forum,2014,767:160-165.
[35]Luo J G,Acoff,V L.Using cold roll bonding and annealing to process Ti/Al multi-layered composites from elemental foils[J].Materials Science and Engineering:A,2004,379(1):164-172.
[36]郭训忠,陶杰,袁正.爆炸焊接TA1/Al复合管的界面及性能研究[J].稀有金属材料与工程,2012,41(4):139-143.
[37]Bataev I A,Bataev A A,Mali V I,et al.Structural and mechanical properties of metallic-intermetallic laminate composite produced by explosive welding and annealing[J].Materials and Design,2012,35(30):225-234.
[38]马志新,李德富,胡捷,等.采用爆炸+轧制法制备钛/铝复合板[J].稀有金属,2004,28(4):797-799.
[39]熊江涛,张赋升,李京龙.镁合金与钛合金的瞬间液相扩散焊[J].稀有金属材料与工程,2006,(35)10:1677-1680.
[40]Yasser Fouad.Characterization of a high strength Al-alloy interlayer for mechanical bonding of Ti to AZ31 and associate d tri-layered clad sheet[J].Alexandria Engineering Journal,2014,53:289-293.