[1]徐生龙,崔玉萍. 金属复合材料在机械制造中的应用研究[J]. 世界有色金属,2017,(16):70-72.
Xu S L,Cui Y P. Application of metal composite material in mechanical manufacturing[J]. World Nonferrous Metals,2017,(16):70-72.
[2]马悦,王峰. 耐蚀金属复合材料在海洋环境中应用的可行性研究[J].中国港湾建设,2012,(2):119-122.
Ma Y,Wang F. Application feasibility of anticorrosive metal composite materials in marine environment[J].China Harbour Engineering,2012,(2):119-122.
[3]Mehr V Y, Rezaeian A, Toroghinejad M R, et al. Application of accumulative roll bonding and anodizing process to produce AlCuAl2O3 composite[J]. Materials and Design,2015,70(4):53-59.
[4]Kim J G, Bae D H, Hahn B D, et al. Evaluation of the crossplane thermal conductivity of doublelayer materials[J]. Composites Part B: Engineering,2017,110:1-6.
[5]郑红霞, 李宝宽, 昌泽舟. 金属复合板生产方法的发展现状[J]. 炼钢,2001,(2):20-23.
Zheng H X,Li B K,Chang Z Z. Current development condition of process of metal clad plate[J]. Steelmaking,2001,(2):20-23.
[6]田雅琴,秦建平,李小红. 金属复合板的工艺研究现状与发展[J]. 材料开发与应用,2006,21(1):40-43.
Tian Y Q,Qin J P,Li X H. Current state and trend of metal clad sheet manufacture technology[J]. Development and Application of Materials,2006,21(1):40-43.
[7]Gao X J,Jiang Z Y,Wei D B,et al. Effects of temperature and strain rate on microstructure and mechanical properties of high chromium cast iron/low carbon steel bimetal prepared by hot diffusioncompression bonding[J]. Materials and Design,2014,63:650-657.
[8]Xiong B W, Cai C C, Lu B P. Effect of volume ratio of liquid to solid on the interfacial microstructure and mechanical properties of high chromium cast iron and medium carbon steel bimetal[J]. Journal of Alloys and Compounds,2011,509(23):6700-6704.
[9]Xiong B W,Cai C C,Wan H,et al. Fabrication of high chromium cast iron and medium carbon steel bimetal by liquidsolid casting in electromagnetic induction field[J]. Materials and Design,2011,32(5):2978-2982.
[10]Eroglu M, Kurt B. Diffusion bonding between high chromium white iron and low carbon steel[J]. Journal of Materials Science & Technology,2013,23(2):171-176.
[11]李龙,张心金,祝志超,等. 真空热轧不锈钢复合板界面结合行为的研究[J]. 材料与冶金学报,2014,13(1):46-50.
Li L,Zhang X J,Zhu Z C,et al. Investigation on bonding of stainless steel clad plate by vacuum hot rolling[J].Journal of Materials and Metallurgy,2014,13(1):46-50.
[12]黄海涛,王辉. 钢铝双金属复合板的轧制及其界面分析[J]. 热加工工艺,2019,48(11):57-61.
Huang H T,Wang H. Rolling and interface analysis of steelaluminum bimetallic composite sheets[J]. Hot Working Technology,2019,48(11):57-61.
[13]Akramifard H R,Mirzadeh H,Parsa M H. Cladding of aluminum on AISI 304L stainless steel by cold roll bonding: Mechanism, microstructure, and mechanical properties[J]. Materials Science & Engineering A,2014,613:232-239.
[14]姜龙,郑小平,宋进英,等. 轧制6061/7075铝合金复合板的工艺优化[J]. 金属热处理,2019,44(2):96-99.
Jiang L,Zheng X P,Song J Y,et al. Process optimization of rollbonding 6061/7075 aluminum alloy composite plates[J]. Heat Treatment of Metals,2019,44(2):96-99.
[15]张迎晖,王达,赵鸿金,等. 轧制压下率对Cu/Al层状复合材料界面扩散层生长的影响[J]. 特种铸造及有色合金,2011,31(6):561-564.
Zhang Y H,Wang D,Zhao H J,et al. Effects of different rolling reduction on growth rate of interface diffusion layer of Cu/Al cladding strip[J]. Special Casting & Nonferrous Alloys,2011,31(6):561-564.
[16]Sheng L Y,Yang F,Xi T F,et al. Influence of heat treatment on interface of Cu/Al bimetal composite fabricated by cold rolling[J]. Composites Part B Engineering,2011,42(6):1468-1473.
[17]Yu K,Xiong H Q,Dai Y L,et al. Bonding process and application properties of an AlNi layer composite sheet for Lithiumion battery packaging[J]. Rare Metal Materials and Engineering,2016,45(5):1100-1105.
[18]Chen Z Q,Liang W,Yu B,et al. Interfacial microstructure and mechanical properties of Al5052/Mg-9.5Li-2Al alloy clad plates[J]. Rare Metal Materials and Engineering,2015,44(3):587-591.
[19]陈靖,佟建国,任学平. 25Cr5MoA/Q235钢复合板的结合性能[J]. 工程科学学报,2007,29(10):985-988.
Chen J,Tong J G,Rn X P. Bonding behavior of 25Cr5MoA/Q235 hot rolled clad plates[J]. Chinese Journal of Engineering,2007,29(10):985-988.
[20]崔忠圻,谭耀春. 金属学与热处理[M]. 北京:机械工业出版社,2007.
C ui Z Q,Tan Y C. Metallography and Heat Treatment[M]. Beijing:China Machine Press,2007.
[21]Oh H,Lee S,Jung J Y,et al. Correlation of microstructure with the wear resistance and fracture toughness of duocast materials composed of highchromium white cast iron and lowchromium steel[J]. Metallurgical and Materials Transactions A,2001,32(3):515-524.
[22]Kim C K,Lee S,Jung J Y. Effects of heat treatment on wear resistance and fracture toughness of duocast materials composed of highchromium white cast iron and lowchromium steel[J]. Metallurgical and Materials Transactions A,2006,37(3):633-643.
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