热压扩散法制备钛钢复合板的研究进展
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摘要
用热压扩散法制备钛钢复合板操作简单、工艺安全、无污染、成本低,目前在工业生产中应用较为广泛。综述了热压扩散钛-钢复合连接机理、影响热压扩散钛-钢复合连接的因素和热压扩散钛钢复合板的制备方法。同时,对热压扩散法制备钛钢复合板的研究提出展望。
Hot-pressing diffusion method is widely used in the industry because of the simple operation, safe process, no pollution and low cost. The hot-pressing diffusion titanium steel composite connection mechanism and the effect factors of hot-pressing diffusion titanium steel composite connection and hot-pressing diffusion titanium steel composite plate preparation method were summarized. At the same time, the outlook of the preparation of titanium steel composite plate by hot-pressing diffusion method was put forward.
Hot-pressing diffusion method is widely used in the industry because of the simple operation, safe process, no pollution and low cost. The hot-pressing diffusion titanium steel composite connection mechanism and the effect factors of hot-pressing diffusion titanium steel composite connection and hot-pressing diffusion titanium steel composite plate preparation method were summarized. At the same time, the outlook of the preparation of titanium steel composite plate by hot-pressing diffusion method was put forward.
引文
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[2]贺毅强.颗粒增强金属基复合材料的研究进展[J].热加工工艺,2012,41(2):133-136.
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[6]Atasoy E,Kahraman N.Diffusion bonding of commercially pure titanium to low carbon steel using a silver interlayer[J].Materials Characterization 2008,59(10):1481-1490.
[7]Kundu S,Chatterjee S.Interface microstructure and strength properties of diffusion bonded joints of titanium-Al interlayer-18Cr-8Ni stainless steel[J].Materials Science Engineering:A,2010,527(10/11):2714-2719.
[8]Ferrante M,Pigoretti E V.Diffusion bonding of Ti-6Al-4V to AISI 316L stainless steel:mechanical resistance and interface microstructure[J].Journal of materials science 2002,37(13):2825-2833
[9]李敬勇,仇晨龙,张乐.钛-钢爆炸焊接复合板结合区微观特征研究[J].热加工工艺,2016,45(5):59-62.
[10]孙淼,张莹莹,高磊,等.钛-钢复合板管头焊接工艺研究[J].热加工工艺,2015,44(21):234-236.
[11]刘鹏,陆明,田涛,等.钛/钢复合板爆炸焊接试验及结合界面研究[J].热加工工艺,2010,39(7):30-33.
[12]杨海波.热处理制度对不锈钢复合板耐蚀性影响分析[J].热加工工艺,2016,45(4):240-245.
[13]何小松,李平仓,赵惠,等.热处理对不锈钢复合板晶间腐蚀性能的影响分析[J].热加工工艺,2015,44(10):199-203.
[14]许哲峰,荣菊,于晓华,等.热扩散法制备Ti-Al-304不锈钢复合板及微观组织性能[J].功能材料,2016,47(2):2224-2229.
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[17]Bay N.Cold welding,Part 3:Influence of surface preparation on bond strength[J].Metal construction,1986,18(10):625-629.
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[24]王海山.轧制复合Cu/Mo/Cu电子封装材料的研究[D].长沙:中南大学,2004.
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[26]焦少阳,董建新,张麦仓,等.双金属热轧复合的界面结合影响因素及结合机理[J].材料导报,2009,23(1):59-61.
[27]张毅斌.包铝镁板轧制复合机理的研究[J].材料开发与应用,2009(6):72-75.
[28]何春雨,许荣昌,任学平.钛/钢复合板累积叠轧焊复合工艺的试验研究[J].上海金属,2006,3(28):27-31.
[29]朱坤亮,竺培显,周生刚,等.热压扩散焊接法制备钛-钢复合材料及性能研究[J].热加工工艺,2014,43(20):69-71.
[30]董运涛,张家毓,李选明.钛/钢双金属的可控气氛热复合工艺初探[J].稀有金属材料与工程,2012,9(41):141-143.
[31]Ghosh M,Laik A,Bhanumurthy K,et al.Evolution of interface microstructure and strength properties in titanium-stainless steel bonded transition joints[J].Materials Science and Technology,2004,20(15):1578-1584.
[32]Zhang B,Li X,Wang T,et al.Microstructure and corrosion behavior of Zr-702 joined by electron beam welding[J].Vacuum,2015,121:159-165.
[33]Guo K W.Influence of in situ reaction on the microstructure of Si CP/Al Si7Mg welded by Nd:YAG laser with Ti filler[J].Journal of Materials Engineering and Performance,2010,19(1):52-58.
[34]Ghosh S K,Chatterjee S.On the direct diffusion bonding of titanium alloy to stainless steel[J].Materials and Manufacturing Processes,2010,25(2):1317-1323.
[35]刘福杰.先进的层状金属复合带材生产技术[J].有色金属加工,2007,59(3):1-3.
[36]赵东升,闫久春,杨士勤.TC4钛合金与0Cr18Ni10Ti不锈钢真空热轧连接[J].焊接学报,2008,29(3):97-100.
[37]刘德义,蔡建伟,任瑞铭.钛/铜中间层/钢扩散焊复合管界面组织与性能[J].焊接学报,2013,34(1):49-52.
[38]He P,Yue X,Zhang J H.Hot pressing diffusion bonding of a titanium alloy to a stainless steel with an aluminum alloy interlayer[J].Materials Science&Enginee ring A,2008,486(1/2):171-176.
[2]贺毅强.颗粒增强金属基复合材料的研究进展[J].热加工工艺,2012,41(2):133-136.
[3]Wan W,Xiong J,Yang M,et al.Effects of Cr3C2addition on thecorrosion behavior of Ti(C,N)-based cermets[J].International Journal of Refractory Metals and Hard Materials,2012,31(6):179-186.
[4]Atapour M H,Fathi M,Shamanian M.Corrosion behavior of Ti-6Al-4Valloy weldmentin hydrochloric acid[J].Materials and Corrosion,2012,63(2):134-139.
[5]Ozdemir N,Bilgin B.Interfacial properties of diffusion bonded Ti-6Al-4V to AISI 304 stainless steel by inserting a Cu interlayer[J].The International Journal of Advanced Manufacturing Technology,2009,41(5/6):519-526.
[6]Atasoy E,Kahraman N.Diffusion bonding of commercially pure titanium to low carbon steel using a silver interlayer[J].Materials Characterization 2008,59(10):1481-1490.
[7]Kundu S,Chatterjee S.Interface microstructure and strength properties of diffusion bonded joints of titanium-Al interlayer-18Cr-8Ni stainless steel[J].Materials Science Engineering:A,2010,527(10/11):2714-2719.
[8]Ferrante M,Pigoretti E V.Diffusion bonding of Ti-6Al-4V to AISI 316L stainless steel:mechanical resistance and interface microstructure[J].Journal of materials science 2002,37(13):2825-2833
[9]李敬勇,仇晨龙,张乐.钛-钢爆炸焊接复合板结合区微观特征研究[J].热加工工艺,2016,45(5):59-62.
[10]孙淼,张莹莹,高磊,等.钛-钢复合板管头焊接工艺研究[J].热加工工艺,2015,44(21):234-236.
[11]刘鹏,陆明,田涛,等.钛/钢复合板爆炸焊接试验及结合界面研究[J].热加工工艺,2010,39(7):30-33.
[12]杨海波.热处理制度对不锈钢复合板耐蚀性影响分析[J].热加工工艺,2016,45(4):240-245.
[13]何小松,李平仓,赵惠,等.热处理对不锈钢复合板晶间腐蚀性能的影响分析[J].热加工工艺,2015,44(10):199-203.
[14]许哲峰,荣菊,于晓华,等.热扩散法制备Ti-Al-304不锈钢复合板及微观组织性能[J].功能材料,2016,47(2):2224-2229.
[15]Bay N.Cold welding,Part 1:Characteristic,bonging mechanisms,bond strength[J].Metal construction,1986,18(6):369-372.
[16]Bay N.Cold welding,Part 2:Process variants and applications[J].Metal construction,1986,18(8):486-490.
[17]Bay N.Cold welding,Part 3:Influence of surface preparation on bond strength[J].Metal construction,1986,18(10):625-629.
[18]黄杏利,马岚,王礼营,等.PTA项目用钛-钢复合板模拟焊后热处理性能研究[J].热加工工艺,2016,45(19):241-244.
[19]朱坤亮,竺培显,周胜刚.热压扩散焊接法制备钛-钢复合材料及性能研究[J].热加工工艺,2014,43(20):69-76.
[20]朱泉,潘大炜,张文奇.铜、铝与钢冷轧固相复合的粘合机制[J].轧钢,1989,21(4):19-23.
[21]Peng X K,Heness G,Yeung W Y.Effect of rolling temperature on interface and bond strength development of roll bonded copper/aluminium metal laminates[J].Journal of Materials Science,1999,34(2):277-281.
[22]Peng X K,Wuhrer R,Henesset Q.On the interface development and fracture behaviour of roll bonded copper/aluminium metal laminates[J].Journal of Materials Science,1999,34(9):2029-2038.
[23]Peng X K,Wuhrer R,Henesset G.Rolling strain effects on the interlaminar properties of roll bonded copper/aluminium metal laminates[J].Journal of Materials Science,2000,35(17):4357-4363.
[24]王海山.轧制复合Cu/Mo/Cu电子封装材料的研究[D].长沙:中南大学,2004.
[25]Buchner B,Buchner B,Buchmayr B,et al.Investigation of different parameters on rollbonding quality of aluminum and steel sheets[J].Int J Mater Form,2008,1(1):1279-1282.
[26]焦少阳,董建新,张麦仓,等.双金属热轧复合的界面结合影响因素及结合机理[J].材料导报,2009,23(1):59-61.
[27]张毅斌.包铝镁板轧制复合机理的研究[J].材料开发与应用,2009(6):72-75.
[28]何春雨,许荣昌,任学平.钛/钢复合板累积叠轧焊复合工艺的试验研究[J].上海金属,2006,3(28):27-31.
[29]朱坤亮,竺培显,周生刚,等.热压扩散焊接法制备钛-钢复合材料及性能研究[J].热加工工艺,2014,43(20):69-71.
[30]董运涛,张家毓,李选明.钛/钢双金属的可控气氛热复合工艺初探[J].稀有金属材料与工程,2012,9(41):141-143.
[31]Ghosh M,Laik A,Bhanumurthy K,et al.Evolution of interface microstructure and strength properties in titanium-stainless steel bonded transition joints[J].Materials Science and Technology,2004,20(15):1578-1584.
[32]Zhang B,Li X,Wang T,et al.Microstructure and corrosion behavior of Zr-702 joined by electron beam welding[J].Vacuum,2015,121:159-165.
[33]Guo K W.Influence of in situ reaction on the microstructure of Si CP/Al Si7Mg welded by Nd:YAG laser with Ti filler[J].Journal of Materials Engineering and Performance,2010,19(1):52-58.
[34]Ghosh S K,Chatterjee S.On the direct diffusion bonding of titanium alloy to stainless steel[J].Materials and Manufacturing Processes,2010,25(2):1317-1323.
[35]刘福杰.先进的层状金属复合带材生产技术[J].有色金属加工,2007,59(3):1-3.
[36]赵东升,闫久春,杨士勤.TC4钛合金与0Cr18Ni10Ti不锈钢真空热轧连接[J].焊接学报,2008,29(3):97-100.
[37]刘德义,蔡建伟,任瑞铭.钛/铜中间层/钢扩散焊复合管界面组织与性能[J].焊接学报,2013,34(1):49-52.
[38]He P,Yue X,Zhang J H.Hot pressing diffusion bonding of a titanium alloy to a stainless steel with an aluminum alloy interlayer[J].Materials Science&Enginee ring A,2008,486(1/2):171-176.