冷喷涂复合加工制造技术及其应用

doi:10.11868/j.issn.1001-4381.2019.000262

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摘要冷喷涂是一种固态快速成形技术，现已用于增材制造、修复损伤的航空航天用零部件等。但冷喷涂沉积体的固有特性——高强低塑，限制了其工业应用。本文综述了冷喷涂复合加工技术的新进展及应用。重点讨论了冷喷涂可复合机械加工和喷丸等普通加工技术，也可与激光、热处理、热轧、热等静压、搅拌摩擦加工、搅拌摩擦焊和钎焊等热加工技术复合，提升冷喷涂沉积体的强塑性，以及冷喷涂层作为强化层促进有色金属的连接。最后指出冷喷涂与多种机械加工工序的协调、与焊接技术的复合等方面仍需加强，旨在复合其他技术来扩展传统加工制造的内涵。

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	李文亚
	曹聪聪
	杨夏炜
	徐雅欣

关键词 ：冷喷涂, 机械加工, 喷丸, 激光, 搅拌摩擦焊, 有色金属

Abstract：Cold spraying(CS) is a solid-state rapid forming technology, and it has been used in additive manufacturing and repairing damaged aerospace parts. However, the inherent characteristic of cold sprayed deposits, i.e. high strength and low plasticity, limits its industrial applications.The new progress and application about cold spraying hybrid other processing technologies were reviewed in this paper, focusing on the following:cold spraying can not only hybridize with general manufacturing technologies, such as machining and shot peening, but also with the hot working and manufacturing technologies, such as laser, heat treatment, hot rolling, hot isostatic pressing, friction stir processing, friction stir welding and brazing, in order to improve the strength and plasticity of the cold sprayed deposits. The strength and plasticity of the cold sprayed deposits can be improved, and the coatings deposited by cold spraying can promote the weld of nonferrous metals. At last, it should be pointed out that further coordination of cold spraying with various machining processes and cold spraying hybrid welding technology needs to be paid more attention, aiming to expand the connotation of the conventional manufacturing.

Key words： cold spraying(CS) machining shot peening(SP) laser friction stir welding nonferrous metal

收稿日期: 2019-03-21 出版日期: 2019-11-21

中图分类号:

TG174.442

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通讯作者: 李文亚(1976-),男,教授,博士生导师,主要从事冷喷涂及摩擦焊接技术方面的研究工作,联系地址:陕西省西安市友谊西路127号西北工业大学材料学院(710072),E-mail:liwy@nwpu.edu.cn E-mail: liwy@nwpu.edu.cn

引用本文:

李文亚, 曹聪聪, 杨夏炜, 徐雅欣. 冷喷涂复合加工制造技术及其应用[J]. 材料工程, 2019, 47(11): 53-63.
LI Wen-ya, CAO Cong-cong, YANG Xia-wei, XU Ya-xin. Cold spraying hybrid processing technology and its application. Journal of Materials Engineering, 2019, 47(11): 53-63.

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http://jme.biam.ac.cn/CN/10.11868/j.issn.1001-4381.2019.000262 或 http://jme.biam.ac.cn/CN/Y2019/V47/I11/53

[1] PAPYRIN A,KOSAREV V,KLINKOV S,et al.Cold spray technology[J].Advanced Materials and Processes,2001,159(9):49-51.
[2] 李文亚,黄春杰,余敏,等.冷喷涂制备复合材料涂层研究现状[J].材料工程,2013(8):1-10. LI W Y,HUANG C J,YU M,et al.State-of-the-art of cold spraying composite coatings[J].Journal of Materials Engineering,2013(8):1-10.
[3] LI W Y,LIAO H L,LI C J,et al.On high velocity impact of micro-sized metallic particles in cold spraying[J].Applied Surface Science,2006,253(5):2852-2862.
[4] YIN S,CAVALIERE P,ALDWELL B,et al.Cold spray additive manufacturing and repair:fundamentals and applications[J].Additive Manufacturing,2018,21:628-650.
[5] STOLTENHOFF T,BORCHERS C,GÄRTNER F,et al.Microstructures and key properties of cold-sprayed and thermally sprayed copper coatings[J].Surface and Coatings Technology,2006,200(16):4947-4960.
[6] MORIDI A,HASSANI-GANGARAJ S M,GUAGLIANO M,et al.Cold spray coating:review of material systems and future perspectives[J].Surface Engineering,2014,30(6):369-395.
[7] GUO X P,ZHANG G,LI W Y,et al.Investigation of the microstructure and tribological behavior of cold sprayed tin-bronze based composite coatings[J].Applied Surface Science,2009,255(6):3822-3828.
[8] WANG Q,BIRBILIS N,HUANG H,et al.Microstructure characterization and nanomechanics of cold-sprayed pure Al and Al-Al₂O₃ composite coatings[J].Surface and Coatings Technology,2013,232:216-223.
[9] ROKNI M R,WIDENER C A,CRAWFORD G A.Microstructural evolution of 7075 Al gas atomized powder and high-pressure cold sprayed deposition[J].Surface and Coatings Technology,2014,251:254-263.
[10] GARDON M,LATORRE A,TORRELL M,et al.Cold gas spray titanium coatings onto a biocompatible polymer[J].Materials Letters,2013,106:97-99.
[11] KHUN N W,TAN A W Y,SUN W,et al.Wear and corrosion resistance of thick Ti-6Al-4V coating deposited on Ti-6Al-4V substrate via high-pressure cold spray[J].Journal of Thermal Spray Technology,2017,26(6):1393-1407.
[12] PIERCY B,ALLEN C,GULLÁ A F.Ta and Ti anti-passivation interlayers for oxygen-evolving anodes produced by cold gas spray[J].Journal of Thermal Spray Technology,2015,24(4):702-710.
[13] AJDELSZTAJN L,JODOIN B,KIM G E,et al.Cold spray deposition of nanocrystalline aluminium alloys[J].Metallurgical and Materials Transactions A,2005,36(3):657-666.
[14] LI C J,LI W Y,WANG Y Y.Formation of metastable phases in cold sprayed soft metallic deposit[J].Surface and Coatings Technology,2005,198(1/3):469-473.
[15] HENAO J,CONCUSTELL A,CANO I G,et al.Influence of cold gas spray process conditions on the microstructure of Fe-based amorphous coatings[J].Journal of Alloys and Compounds,2015,622:995-999.
[16] LI W Y,ZHANG C J,LIAO H L,et al.Characterizations of cold-sprayed nickel-alumina composite coating with relatively large nickel-coated alumina powder[J].Surface and Coatings Technology,2008,202(19):4855-4860.
[17] YIN S,XIE Y C,CIZEK J,et al.Advanced diamond-reinforced metal matrix composites via cold spray:properties and deposition mechanism[J].Composites Part B,2017,113:44-54.
[18] LI W Y,LIAO H L,LI J L,et al.Microstructure and microhardness of cold-sprayed CuNiIn coating[J].Advanced Engineering Materials,2008,10(8):746-749.
[19] SUN W,TAN A W Y,MARINESCU I,et al.Adhesion,tribological and corrosion properties of cold-sprayed CoCrMo and Ti6A14V coatings on 6061-T651 Al alloy[J].Surface and Coatings Technology,2017,326:291-298.
[20] YIN S,LI W Y,SONG B,et al.Deposition of FeCoNiCrMn high entropy alloy (HEA) coating via solid-state cold spraying[J].Journal of Materials Science and Technology,2019,35(6):1003-1007.
[21] MILLER S A,DARY F C,GAYDOS M,et al.Methods of manufacturing large-area sputtering targets by cold spray:US8703233B2[P].2014-04-22.
[22] EASON P D,FEWKES J A,KENNETT S C,et al.On the characterization of bulk copper produced by cold gas dynamic spray processing in as fabricated and annealed conditions[J].Materials Science and Engineering:A,2011,528(28):8174-8178.
[23] VILLAFUERTE J.Recent trends in cold spray technology:looking at the future[J].Surface Engineering,2010,26(6):393-394.
[24] CHAMPAGNE V,HELFRITCH D.The unique abilities of cold spray deposition[J].International Materials Reviews,2016,61(7):1-19.
[25] CADNEY S,BROCHU M,RICHER P,et al.Cold gas dynamic spraying as a method for freeforming and joining materials[J].Surface and Coatings Technology,2008,202(12):2801-2806.
[26] ASSADI H,KREYE H,GÄRTNER F,et al.Cold spraying-a materials perspective[J].Acta Materialia,2016,116:382-407.
[27] LI W Y,YANG K,YIN S,et al.Solid-state additive manufacturing and repairing by cold spraying:a review[J].Journal of Materials Science and Technology,2018,34:440-457.
[28] LI W Y,LI C J.Optimal design of a novel cold spray gun nozzle at a limited space[J].Journal of Thermal Spray Technology,2005,14(3):391-396.
[29] BUHL S,BREUNINGER P,ANTONYUK S.Optimization of a laval nozzle for energy-efficient cold spraying of microparticles[J].Materials and Manufacturing Processes,2018,33(2):115-122.
[30] BHATTIPROLU V S,JOHNSON K W,OZDEMIR O C,et al.Influence of feedstock powder and cold spray processing parameters on microstructure and mechanical properties of Ti-6Al-4V cold spray depositions[J].Surface and Coatings Technology,2018,335:1-12.
[31] JODOIN B,AJDELSZTAJN L,SANSOUCY E,et al.Effect of particle size,morphology,and hardness on cold gas dynamic sprayed aluminum alloy coatings[J].Surface and Coatings Technology,2006,201(6):3422-3429.
[32] KHUN N W,TAN A W Y,BI K J W,et al.Effects of working gas on wear and corrosion resistances of cold sprayed Ti-6Al-4V coatings[J].Surface and Coatings Technology,2016,302:1-12.
[33] WONG W,IRISSOU E,RYABININ A N,et al.Influence of helium and nitrogen gases on the properties of cold gas dynamic sprayed pure titanium coatings[J].Journal of Thermal Spray Technology,2011,20(1/2):213-226.
[34] SUO X,YIN S,PLANCHE M P,et al.Strong effect of carrier gas species on particle velocity during cold spray processes[J].Surface and Coatings Technology,2015,268:90-93.
[35] SUN W,TAN A W Y,KHUN N W,et al.Effect of substrate surface condition on fatigue behavior of cold sprayed Ti6Al4V coatings[J].Surface and Coatings Technology,2017,320:452-457.
[36] LI W Y,ZHANG D D,HUANG C J,et al.Modelling of impact behaviour of cold spray particles:review[J].Surface Engineering,2014,30(5):299-308.
[37] YIN S,MEYER M,LI W,et al.Gas flow,particle acceleration,and heat transfer in cold spray:a review[J].Journal of Thermal Spray Technology,2016,25(5):1-23.
[38] LEE C,KIM J.Microstructure of kinetic spray coatings:a review[J].Journal of Thermal Spray Technology,2015,24(4):592-610.
[39] KIM J,LEE C.Correlation of impact conditions,interface reactions,microstructural evolution,and mechanical properties in kinetic spraying of metals:a review[J].Journal of Thermal Spray Technology,2016,25(8):1461-1489.
[40] LUO X T,LI C X,SHANG F L,et al.High velocity impact induced microstructure evolution during deposition of cold spray coatings:a review[J].Surface and Coatings Technology,2014,254(10):11-20.
[41] ATTAR H,PRASHANTH K G,ZHANG L C,et al.Effect of powder particle shape on the properties of in situ Ti-TiB composite materials produced by selective laser melting[J].Journal of Materials Science and Technology,2015,31(10):1001-1005.
[42] CASATI R,LEMKE J,VEDANI M.Microstructure and fracture behavior of 316L austenitic stainless steel produced by selective laser melting[J].Journal of Materials Science and Technology,2016,32(8):738-744.
[43] MAZUMDER J,DUTTA D,KIKUCHI N,et al.Closed loop direct metal deposition:art to part[J].Optics and Lasers in Engineering,2000,34(4/6):397-414.
[44] RAOELISON R N,XIE Y,SAPANATHAN T,et al.Cold gas dynamic spray technology:a comprehensive review of processing conditions for various technological developments till to date[J].Additive Manufacturing,2018,19:134-159.
[45] RAOELISON R N,VERDY C,LIAO H.Cold gas dynamic spray additive manufacturing today:deposit possibilities,technological solutions and viable applications[J].Materials & Design,2017,133:266-287.
[46] LI W Y,ASSADI H,GAERTNER F,et al.A review of advanced composite and nanostructured coatings by solid-state cold spraying process[J].Critical Reviews in Solid State and Materials Sciences,2018,42:1-48.
[47] SOVA A,GRIGORIEV S,OKUNKOVA A,et al.Potential of cold gas dynamic spray as additive manufacturing technology[J].International Journal of Advanced Manufacturing Technology,2013,69(9):2269-2278.
[48] SOVA A,PERVUSHIN D,SMUROV I.Development of multimaterial coatings by cold spray and gas detonation spraying[J].Surface and Coatings Technology,2010,205(4):1108-1114.
[49] FLYNN J M,SHOKRANI A,NEWMAN ST,et al.Hybrid additive and subtractive machine tools-research and industrial developments[J].International Journal of Machine Tools and Manufacture,2016,101:79-101.
[50] YAN S,NIE Y,ZHU Z,et al.Characteristics of microstructure and fatigue resistance of hybrid fiber laser-MIG welded Al-Mg alloy joints[J].Applied Surface Science,2014,298:12-18.
[51] GAO M,CHEN C,MEI S,et al.Parameter optimization and mechanism of laser-arc hybrid welding of dissimilar Al alloy and stainless steel[J].International Journal of Advanced Manufacturing Technology,2014,74(1/4):199-208.
[52] CHANG W S,RAJESH S R,CHUN C K,et al.Microstructure and mechanical properties of hybrid laser-friction stir welding between AA6061-T6 Al alloy and AZ31 Mg alloy[J].Journal of Materials Science and Technology,2011,27(3):199-204.
[53] 付斯林,李成新.冷喷连接铝铜异质接头的组织结构和力学性能[J].机械工程学报,2018,54(10):93-102. FU S L,LI C X.Microstructure and mechanical properties of Al-Cu joints by cold spray bonding[J].Journal of Mechanical Engineering,2018,54(10):93-102.
[54] CHAMPAGNE J V K,CHAMPAGNE Ⅲ V K,DUDLEY M A.Method to join dissimilar materials by the cold spray process:US2016/0089750A1[P].2016-03-31.
[55] CADNEY S,BROCHU M,RICHER P,et al. Cold gas dynamic spraying as a method for freeforming and joining materials[J]. Surface and Coatings Technology,2008,202(12):2801-2806.
[56] LI C J,LI W Y.Deposition characteristics of titanium coating in cold spraying[J].Surface and Coatings Technology,2003,167(2/3):278-283.
[57] MORIDI A S M,HASSANI-GANGARAJ S,VEZZU L,et al.Fatigue behavior of cold spray coatings:the effect of conventional and severe shot peening as pre-/post-treatment[J].Surface and Coatings Technology,2015,283:247-254.
[58] ZHOU H X,LI C X,JI G,et al.Local microstructure inhomogeneity and gas temperature effect in in-situ shot-peening assisted cold-sprayed Ti-6Al-4V coating[J].Journal of Alloys and Compounds,2018,766:694-704.
[59] 李长久,雒晓涛,杨冠军.一种高致密度冷喷涂金属/金属沉积体的制备方法和应用:CN104894554A[P].2015-04-10. LI C J,LUO X T,YANG G J.A method for manufacturing high dense cold sprayed metal or metal deposit and its application:CN104894554 A[P].2015-04-10.
[60] LUO X T,WEI Y K,WANG Y,et al.Microstructure and mechanical property of Ti and Ti6Al4V prepared by an in-situ shot peening assisted cold spraying[J].Materials & Design,2015,85:527-533.
[61] FU S L,LI C X,WEI Y K,et al.Novel method of aluminum to copper bonding by cold spray[J].Journal of Thermal Spray Technology,2018,27:624-640.
[62] ARABGOL Z,VILLA M,ASSADI H,et al.Influence of thermal properties and temperature of substrate on the quality of cold-sprayed deposits[J].Acta Materialia,2017,127:287-301.
[63] 曹聪聪,李文亚,杨康,等.基体硬度和热学性质对冷喷涂TC4钛合金涂层组织和力学性能的影响[J].材料导报,2019,33(1):277-282. CAO C C,LI W Y,YANG K,et al.Influence of substrate hardness and thermal characteristics on microstructure and mechanical properties of cold sprayed TC4 titanium alloy coatings[J].Materials Review,2019,33(1):277-282.
[64] YANG K,LI W Y,YANG X W,et al.Anisotropic response of cold sprayed copper deposits[J].Surface and Coatings Technology,2018,335:219-227.
[65] VO P,IRISSOU E,LEGOUX J G,et al.Mechanical and microstructural characterization of cold-sprayed Ti-6Al-4V after heat treatment[J].Journal of Thermal Spray Technology,2013,22(6):954-964.
[66] HUANG R Z,MA W H,FUKANUMA H.Development of ultra-strong adhesive strength coatings using cold spray[J].Surface and Coatings Technology,2014,258:832-841.
[67] LEWANDOWSKI J J,SEIFI M.Metal additive manufacturing:a review of mechanical properties[J].Annual Review of Materials Research,2016,46(1):151-186.
[68] ZHONG H Z,QIAN M,HOU W,et al.The beta phase evolution in Ti-6Al-4V additively manufactured by laser metal deposition due to cyclic phase transformations[J].Materials Letters,2017,216:50-53.
[69] KROMER R,VERDY C,COSTIL S,et al.Laser surface texturing to enhance adhesion bond strength of spray coatings-cold spraying,wire-arc spraying,and atmospheric plasma spraying[J].Surface and Coatings Technology,2018,352:642-653.
[70] KROMER R,DANLOS Y,COSTIL S.Cold gas-sprayed deposition of metallic coatings onto ceramic substrates using laser surface texturing pre-treatment[J].Journal of Thermal Spray Technology,2018,27(5):809-817.
[71] 酉琪,章德铭,于月光,等.激光辅助冷喷涂技术应用进展[J].热喷涂技术,2018,10(2):15-21. YOU Q,ZHANG D M,YU Y G,et al.The review for the application of laser assisted cold spray technology[J].Thermal Spray Technology,2018,10(2):15-21.
[72] BIRT A M,CHAMPAGNE V K,SISSON R D,et al.Statistically guided development of laser-assisted cold spray for microstructural control of Ti-6Al-4V[J].Materials Science and Engineering:A,2017,48(4):1931-1943.
[73] PERTON M,COSTIL S,WONG W,et al.Effect of pulsed laser ablation and continuous laser heating on the adhesion and cohesion of cold sprayed Ti-6Al-4V coatings[J].Journal of Thermal Spray Technology,2012,21(6):1322-1333.
[74] LUPOI R,SPARKES M,COCKBURN A,et al.High speed titanium coatings by supersonic laser deposition[J].Materials Letters,2011,65(21/22):3205-3207.
[75] BIRT A M,CHAMPAGNE V K,SISSON R D,et al.Microstructural analysis of cold-sprayed Ti-6Al-4V at the micro-and nano-scale[J].Journal of Thermal Spray Technology,2015,24(7):1277-1288.
[76] ZHOU X,MOHANTY P.Corrosion behaviour of cold sprayed titanium coatings in simulated body fluid[J].Corrosion Engineering Science and Technology,2012,47(2):145-154.
[77] MARROCCO T,HUSSAIN T,MCCARTNEY D G,et al.Corrosion performance of laser posttreated cold sprayed titanium coatings[J].Journal of Thermal Spray Technology,2011,20(4):909-917.
[78] FELICE R,ANTONELLO A,PIERPAOLO C.Thermo-mechanical finite element modeling of the laser treatment of titanium cold-sprayed coatings[J].Coatings,2018,8(6):219-236.
[79] CARLONE P,ASTARITA A,RUBINO F,et al.Selective laser treatment on cold-sprayed titanium coatings:numerical modeling and experimental analysis[J].Metallurgical and Materials Transactions B,2016,47(6):3310-3317.
[80] ASTARITA A,GENNA S,LEONE C,et al.Study of the laser marking process of cold sprayed titanium coatings on aluminium substrates[J].Optics and Laser Technology,2016,83:168-176.
[81] LI W Y,GUO X P,VERDY C,et al.Improvement of microstructure and property of cold-sprayed Cu-4at.%Cr-2at.%Nb alloy by heat treatment[J].Scripta Materialia,2006,55(4):327-330.
[82] REN Y Q,KING P C,YANG Y S,et al.Characterization of heat treatment-induced pore structure changes in cold sprayed titanium[J].Materials Characterization,2017,132:69-75.
[83] ROKNI M R,WIDENER C A,OZDEMIR O C,et al.Microstructure and mechanical properties of cold sprayed 6061 Al in as-sprayed and heat treated condition[J].Surface and Coatings Technology,2017,309:641-650.
[84] SUN J F,HAN Y,CUI K.Innovative fabrication of porous titanium coating on titanium by cold spraying and vacuum sintering[J].Materials Letters,2008,62(21/22):3623-3625.
[85] LOPATIN N V.Effect of hot rolling by screw mill on microstructure of a Ti-6Al-4V titanium alloy[J].International Journal of Material Forming,2013,6(4):459-465.
[86] GAJDA D,MORAWSKI A,ZALESKI A,et al.Enhancement of pinning centers density and structure by using hot isostatic pressure of 1.2 GPa in Ba(Fe_0.92,Co_0.08)₂As₂ superconducting material[J].Journal of Alloys and Compounds,2017,726:1220-1225.
[87] GAJDA D,MORAWSKI A,ZALESKI A,et al.The influence of HIP on the homogeneity,J_c,B_irr,T_c and F_p in MgB₂ wires[J].Superconductor Science and Technology,2014,28(1):1-7.
[88] SHENG L Y,NAN L,ZHANG W,et al.Microstructure and mechanical properties determined in compressive tests of quasi-rapidly solidified NiAl-Cr(Mo)-Hf eutectic alloy after hot isostatic pressure and high temperature treatments[J].Journal of Materials Engineering and Performance,2010,19(5):732-736.
[89] LI Z,YANG X,ZHANG J,et al.Interfacial mechanical behavior and electrochemical corrosion characteristics of cold-sprayed and hot-rolled titanium/stainless/steel couples[J].Advanced Engineering Materials,2016,18(7):1240-1249.
[90] TARIQ N H,GYANSAH L,QIU X,et al.Thermo-mechanical post-treatment:a strategic approach to improve microstructure and mechanical properties of cold spray additively manufactured composites[J].Materials & Design,2018,156:287-299.
[91] BLOSE R E.Spray forming titanium alloys using the cold spray process[C]//ASM.International Thermal Spray Conference.Basel:ASM International,2005:2-4.
[92] MA Z Y,FENG A H,CHEN D L,et al.Recent advances in friction stir welding/processing of aluminum alloys:microstructural evolution and mechanical properties[J].Critical Reviews in Solid State and Materials Sciences,2017,43(1):1-65.
[93] KHODABAKHSHI F,MARZBANRAD B,SHAH L H,et al.Friction-stir processing of a cold sprayed AA7075 coating layer on the AZ31B substrate:structural homogeneity,microstructures and hardness[J].Surface and Coatings Technology,2017,331:116-128.
[94] HUANG C J,LI W Y,FENG Y,et al.Microstructural evolution and mechanical properties enhancement of a cold-sprayed Cu-Zn alloy coating with friction stir processing[J].Materials Characterization,2017,125:76-82.
[95] HUANG C J,YAN X C,LI W Y,et al.Post-spray modification of cold-sprayed Ni-Ti coatings by high-temperature vacuum annealing and friction stir processing[J].Applied Surface Science,2018,451:56-66.
[96] PEAT T,GALLOWAY A,TOUMPIS A,et al.The erosion performance of cold spray deposited metal matrix composite coatings with subsequent friction stir processing[J].Applied Surface Science,2017,396:635-648.
[97] HODDER K J,IZADI H,MCDONALD A G,et al.Fabrication of aluminum-alumina metal matrix composites via cold gas dynamic spraying at low pressure followed by friction stir processing[J].Materials Science and Engineering:A,2012,556:114-121.
[98] YANG K,LI W Y,NIU P L,et al.Cold sprayed AA2024/Al₂O₃ metal matrix composites improved by friction stir processing:microstructure characterization,mechanical performance and strengthening mechanisms[J].Journal of Alloys and Compounds,2017,736:115-123.
[99] PADHY G K,WU C S,GAO S.Friction stir based welding and processing technologies-processes,parameters,microstructures and applications:a review[J].Journal of Materials Science and Technology,2018,34(1):1-38.
[100] SIMAR A,BRÉCHET Y,MEESTER B,et al.Integrated modeling of friction stir welding of 6×××series Al alloys:process,microstructure and properties[J].Progress in Materials Science,2012,57(1):95-183.
[101] CHAMPAGNE V K,WEST M K,ROKNI M R,et al.Joining of cast ZE41A Mg to wrought 6061 Al by the cold spray process and friction stir welding[J].Journal of Thermal Spray Technology,2016,25(1/2):143-159.
[102] LI S H,CHEN Y H,KANG J D,et al.Friction stir lap welding of aluminum alloy to advanced high strength steel using a cold-spray deposition as an interlayer[J].Materials Letters,2019,239:212-215.
[103] LI N,LI W Y,YANG X W,et al.Corrosion characteristics and wear performance of cold sprayed coatings of reinforced Al deposited onto friction stir welded AA2024-T3 joints[J].Surface and Coatings Technology,2018,349:1069-1076.
[104] LI N,LI W Y,YANG X W,et al.An investigation into the mechanism for enhanced mechanical properties in friction stir welded AA2024-T3 joints coated with cold spraying[J].Applied Surface Science,2018,439:623-631.
[105] LI W Y,LI N,YANG X W,et al.Impact of cold spraying on microstructure and mechanical properties of optimized friction stir welded AA2024-T3 joint[J].Materials Science and Engineering:A,2017,702:73-80.
[106] ZHAO C Y,ZHANG H,SHAO T G,et al.Microstructure and corrosion behavior of Al coating deposited by cold spraying onto FSW AA2219-T87 joint[J].Corrosion Engineering Science and Technology,2018,54(1):1-7.
[107] LUAN T M,GUO W B,YANG S H,et al.Effect of intermetallic compounds on mechanical properties of copper joints ultrasonic-soldered with Sn-Zn alloy[J].Journal of Materials Processing Technology,2017,248:123-129.
[108] 聂海杰,李红,龙伟民,等.采用冷喷涂铜涂层做中间层的镁合金与钢共晶接触反应钎焊工艺及接头性能[J].焊接学报,2017,37(7):83-87. NIE H J,LI H,LONG W M,et al.Brazing process and joint properties of eutectic contact reaction between magnesium alloy and steel using cold sprayed copper coating as the intermediate layer[J].Transactions of the China Welding Institution,2017,37(7):83-87.
[109] 何培龙,程方杰,齐书梅,等.冷喷涂Zn粉后5083铝合金的中温钎焊研究[J].材料导报,2017,31(2):52-55. HE P L,CHENG F J,QI S M,et al.Study on middle temperature brazing of 5083 aluminum alloy after depositing Zn coatings produced by cold gas dynamic spray[J].Materials Review,2017,31(2):52-55.

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