任淑荣, 马宗义, 陈礼清. 搅拌摩擦焊接及其加工研究现状与展望[J]. 材料导报,2007,21(1):86-92.REN S R, MA Z Y, CHEN L Q. Research status and prospect of friction stir welding and friction stir processing[J]. Materials Review,2007,21(1):86-92.
[2]
李晓辉, 汪苏, 夏彩云. 双焦点激光焊接工艺参数对焊缝成形影响[J]. 航空材料学报,2008,28(1):45-48. LI X H, WANG S, XIA C Y. Effect of welding parameters on formation of double-focus welds[J]. Journal of Aeronautical Materials,2008,28(1):45-48.
[3]
赵衍华, 张丽娜, 刘景铎, 等. 搅拌摩擦点焊技术简介[J]. 航天制造技术,2009,2(4):1-5.ZHAO Y H, ZHANG L N, LIU J D, et al. Introduction of friction stir spot welding technology[J]. Aerospace Manufacturing Technology,2009,2(4):1-5.
[4]
THOMAS W M, NICHOLAS E D, NEEDHAM J C, et al. Friction Stir Welding[P]. Great Britain Patent:9125978.8,1991-12-06.
[5]
MISHRA R S, MA Z Y. Friction stir welding and processing[J]. Materials Science and Engineering:R,2005,50(1-2):1-78.
[6]
魏世同, 郝传勇. 01420 铝锂合金的搅拌摩擦焊接[J]. 航空材料学报,2006,26(6):21-25.WEI S T,HAO C Y. Friction stir welding process of 01420 aluminum-lithium alloy[J]. Journal of Aeronautical Materials,2006,26(6):21-25.
[7]
DAWES C J. An introduction to friction stir welding and its development[J]. Welding and Metal Fabrication,1995,63(1):12-16.
[8]
RHODES C G, MAHONEY M W. Effect of friction stir welding on micro structure of 7075 aluminum[J]. Scripta Materialia,1997,36(1):69-75.
[9]
DAWES C J, THOMAS W M. Friction stir process welds aluminium alloys:the process produces low-distortion,high-quality,low-cost welds on aluminium[J].Welding Journal,1996,75(3):41-45.
[10]
汪洪峰, 左敦稳, 邵定林, 等. 工艺参数对搅拌摩擦焊7022铝合金残余应力及耐磨耐蚀性能的影响[J]. 航空材料学报,2011,31(1):31-37. WANG H F, ZUO D W, SHAO D L, et al. Effect of process parameters on residual stress and wear and corrosion resistance of 7022 aluminium alloy by FSW[J]. Journal of Aeronautical Materials,2011,31(1):31-37.
[11]
代建辉, 赵华夏, 栾国红. 无针搅拌摩擦点焊技术研究现状分析[J]. 航空制造技术,2013,(11):52-55. DAI J H, ZHAO H X, LUAN G H. Research status of friction stir spot welding without needle[J]. Aerospace Manufacturing Technology,2013,(11):52-55.
[12]
SAKANO R, MURAKAMI K, YAMASHITA K, et al. Development of spot FSW robot system for automobile body members[A]. 3rd International Symposium of Friction Stir Welding[C]. Kobe,Japan:TWI,2004.
[13]
NGUYEN N T, KIM D Y, KIM H Y, et al. Assessment of the failure load for an AA6061-T6 friction stir spot welding joint[J]. Proceedings of the Institution of Mechanical Engineers, Part B:Journal of Engineering Manufacture,2011,225(10):1746-1756.
[14]
SCHILLING C, DOS SANTOS J. Method and device for linking at least two adjoining work pieces by friction welding[P]. USA Patent:6722556B2,2004-04-20.
[15]
杨洪刚, 赵欣. 铝合金回填式搅拌摩擦点焊工艺试验[J]. 焊接技术,2012,41(11):24-26. YAMG H G, ZHAO X. Technological test on backfilling friction stir spot welding of Al alloy[J]. Welding Technology,2012,41(11):24-26.
[16]
王朗, 王敏, 郭立杰. LY12铝合金回填式搅拌摩擦点焊工艺研究[J]. 热加工工艺,2013,42(1):150-153. WANG L, WANG M, GUO L J. Research on backfilling friction stir spot welding of LY12 Al alloy[J]. Hot Working Technology,2013,42(1):150-153.
[17]
TOZAKI Y, UEMATSU Y, TOKAJI K. A newly developed tool without probe for friction stir spot welding and its performance[J]. Journal of Materials Processing Technology,2010,210(6-7):844-851.
[18]
BAKAVOS D, PRANGNELL P B. Effect of reduced or zero pin length and anvil insulation on friction stir spot welding thin gauge 6111 automotive sheet[J]. Science and Technology of Welding and Joining,2009,14(5):443-456.
[19]
COX C D, GIBSON B T,STRAUSS A M. Effect of pin length and rotation rate on the tensile strength of a friction stir spot-welded Al alloy:a contribution to automated production[J]. Materials and Manufacturing Processes,2012,27(4):472-478.
[20]
PRANGNELL P B, BAKAVOS D. Novel approaches to friction spot welding thin aluminium automotive sheet[J]. Materials Science Forum,2010,638-642:1237-1242.
[21]
方圆. 无匙孔搅拌摩擦点焊工艺及接头性能研究[D]. 镇江:江苏科技大学,2009. FANG Y. Research on property and technology of friction stir spot welding with no probe hole[D]. Zhenjiang:Jiangsu University of Science and Technology,2009.
[22]
SUN Y F, FUJII H, TAKAKI N, et al. Microstructure and mechanical properties of mild steel joints prepared by a flat friction stir spot welding technique[J]. Materials and Design,2012,37:384-392.
[23]
SUN Y F, FUJII H, TAKAKI N, et al. Novel spot friction stir welding of 6061 and 5052 Al alloys[J]. Science and Technology of Welding and Joining,2011,16(7):605-612.
[24]
SUN Y F, FUJII H, TAKAKI N, et al. Microstructure and mechanical properties of dissimilar Al alloy/steel joints prepared by a flat spot friction stir welding technique[J]. Materials and Design,2013,47:350-357.
[25]
VENUKUMAR S, YALAGI S G, MUTHUKUMARAN S, et al. Static shear strength and fatigue life of refill friction stir spot welded AA6061-T6 sheets[J]. Science and Technology of Welding and Joining,2014,19(3):214-223.
[26]
BILICI M K, YVKLER A I. Influence of tool geometry and process parameters on macrostructure and static strength in friction stir spot welded polyethylene sheets[J]. Materials and Design,2012,33:145-152.
[27]
WANG D A, LEE S C. Microstructures and failure mechanisms of friction stir spot welds of aluminum 6061-T6 sheets[J]. Journal of Materials Processing Technology,2007,186(1):291-297.
[28]
WANG D A, CHAO C W, LIN P C, et al. Mechanical characterization of friction stir spot microwelds[J]. Journal of Materials Processing Technology,2010,210(14):1942-1948.
[29]
严铿, 黎志云, 付娟. 复合搅拌摩擦点焊接头的金属流动行为[J]. 江苏科技大学学报:自然科学版,2008,22(2):35-38. YAN K, LI Z Y, FU J. Metallic flowing behavior of Com-stirTM friction stir spot welding joint[J]. Journal of Jiangsu University of Science and Technology:Natural Science Edition,2008,22(2):35-38.
[30]
BAEK S W, CHOI D H, LEE C Y, et al. Microstructure and mechanical properties of friction stir spot welded galvanized steel[J]. Materials Transactions,2010,51(5):1044-1050.
[31]
YUAN W, MISHRA R S, WEBB S. Effect of tool design and process parameters on properties of Al alloy 6016 friction stir spot welds[J]. Journal of Materials Processing Technology,2011,211(6):972-977.
[32]
LI W Y, LI J F,GAO D L, et al. Pinless friction stir spot welding of 2024 aluminum alloy:effect of welding parameters[A]. 7th Asia Pacific IIW International Congress[C]. Singapore:International Institute of Welding,2013.72-77.
[33]
CHEN Y C, KOMAZAKI T, TSUMURA T,et al. Role of zinc coat in friction stir lap welding Al and zinc coated steel[J]. Materials Science and Technology,2008,24(1):33-39.
[34]
FENG K, WATANABE M, KUMAI S. Microstructure and joint strength of friction stir spot welded 6022 aluminum alloy sheets and plated steel sheets[J]. Materials Transactions,2011,52(7):1418-1425.
[35]
ROSENDO T, PARRA B, TIER M A D, et al. Mechanical and microstructural investigation of friction spot welded AA6181-T4 aluminium alloy[J]. Materials and Design,2011,32(3):1094-1100.
[36]
蒋若蓉, 李文亚, 杨夏炜, 等. 薄板铝合金无针搅拌摩擦焊搭接接头性能研究[A]. 第十八次全国焊接学术会议论文集[C]. 南昌:中国机械工程学会焊接学会,2013. JIANG R R, LI W Y, YANG X W, et al. Research on pinless friction stir spot welding lap joints of aluminum alloy sheet[A]. 18th National Symposium of Welding[C]. Nanchang:CMES,2013.
[37]
UEMATSU Y, TOKAII K, TOZAKI Y, et al. Effect of re-filling probe hole on tensile failure and fatigue behaviour of friction stir spot welded joints in Al-Mg-Si alloy[J]. International Journal of Fatigue,2008,30(10):1956-1966.
[38]
BADARINARAYAN H, YANG Q, ZHU S. Effect of tool geometry on static strength of friction stir spot-welded aluminum alloy[J]. International Journal of Machine Tools and Manufacture,2009,49(2):142-148.
[39]
BADARINARAYAN H, SHI Y, LI X. Effect of tool geometry on Hook formation and static strength of friction stir spot welded aluminum 5754-O sheets[J]. International Journal of Machine Tools and Manufacture,2009,49(11):814-823.
[40]
SHEN Z K, YANG X Q, ZHANG Z H, et al. Microstructure and failure mechanisms of refill friction stir spot welded 7075-T6 aluminum alloy joints[J]. Materials and Design,2013,44:476-486.
[41]
SHEN Z, YANG X, YANG S, et al. Microstructure and mechanical properties of friction spot welded 6061-T4 aluminum alloy[J]. Materials and Design,2014,54:766-778.
[42]
OLIVEIRAl P H F, AMANCIO-FILHO S T, DOS SANTOS J F, et al. Preliminary study on the feasibility of friction spot welding in PMMA[J]. Materials Letters,2010,64(19):2098-2101.
[43]
ZHANG Z H, YANG X Q, ZHANG J L. Effect of welding parameters on microstructure and mechanical properties of friction stir spot welded 5052 aluminum alloy[J]. Materials and Design,2011,32(8):4461-4470.
[44]
RAO H M, JORDON J B, BARKEY M E, et al. Influence of structural integrity on fatigue behavior of friction stir spot welded AZ31 Mg alloy[J]. Materials Science and Engineering:A,2013,564:369-380.
[45]
UEMATSU Y, TOKAJI K, TOZAKI Y. Fatigue behaviour of dissimilar friction stir spot welds between A6061-T6 and low carbon steel sheets welded by a scroll grooved tool without probe[J]. Fatigue and Fracture of Engineering Materials and Structures,2011,34(8):581-591.
[46]
UEMATSU Y, KAKIUCHI T, TOZAKI Y, et al. Comparative study of fatigue behaviour in dissimilar Al alloy/steel and Mg alloy/steel friction stir spot welds fabricated by scroll grooved tool without probe[J]. Science and Technology of Welding and Joining,2012,17(5):348-356.
[47]
TRAN V X, PAN J, PAN T. Fatigue behavior of aluminum 5754-O and 6111-T4 spot friction welds in lap-shear specimens[J].International Journal of Fatigue,2008,30(12):2175-2190.
[48]
CHOWDHURY S H, CHEN D L, BHOLE S D, et al. Lap shear strength and fatigue behavior of friction stir spot welded dissimilar magnesium-to-aluminum joints with adhesive[J]. Materials Science and Engineering:A,2013,562:53-60.
[49]
LIN P C, SU Z M, HE R Y, et al. Failure modes and fatigue life estimations of spot friction welds in cross-tension specimens of aluminum 6061-T6 sheets[J]. International Journal of Fatigue,2012,38:25-35.
[50]
MUCI-KVCHLER K H, KALAGARA S, ARBEGAST W J. Simulation of a refill friction stir spot welding process using a fully coupled thermo-mechanical FEM model[J]. Journal of Manufacturing Science and Engineering,2010,132(1):014503.
[51]
WANG D A, CHEN C H. Fatigue lives of friction stir spot welds in aluminum 6061-T6 sheets[J]. Journal of Materials Processing Technology,2009,209(1):367-375.
[52]
AHMADI S R, HASSANIFARD S, POUR M M. Fatigue life prediction of friction stir spot welds based on cyclic strain range with hardness distribution and finite element analysis[J]. Acta Mechanica,2012,223(4):829-839.
[53]
AWANG M, MUCINO V H. Energy generation during friction stir spot welding(FSSW) of Al6061-T6 plates[J]. Materials and Manufacturing Processes,2010,25(1-3):167-174.
[54]
GERLICH A, SU P, NORTH T. Peak temperatures and microstructures in aluminum and magnesium alloy friction stir spot welds[J]. Science and Technology of Welding and Joining, 2005,10(6):647-652.
[55]
ATHARIFAR H. Optimum parameters design for friction stir spot welding using a genetically optimized neural network system[J]. Journal of Engineering Manufacture,2010,224(3):403-417.
[56]
KULEKCI M K, ESME U, ER O, et al. Modeling and prediction of weld shear strength in friction stir spot welding using design of experiments and neural network[J]. Materials Science and Engineering Technology,2011,42(11):990-995.
[57]
KARTHIKEYAN R, BALASUBRAMANIAN V. Predictions of the optimized friction stir spot welding process parameters for joining AA2024 aluminum alloy using RSM[J]. The International Journal of Advanced Manufacturing Technology,2010,51(1-4):173-183.
[58]
KIM D, BADARINARAYAN H, RYU I, et al. Numerical simulation of friction stir spot welding process for aluminum alloys[J]. Metals and Materials International,2010,16(2):323-332.
[59]
ZHANG Z H, LI W Y, LI J F,et al. Numerical analysis on formation mechanism of Hook during pinless friction stir spot welding[A]. 7th Asia Pacific IIW International Congress[C]. Singapore:International Institute of Welding,2013.
[60]
丁荣辉, 黎文献, 路彦军, 等. 搅拌摩擦焊接技术最新进展[J]. 轻合金加工技术,2005,33(2):21-25. DING R H, LI W X, LU Y J, et al. Recent developments of friction stir welding[J]. Light Alloy Fabrication Technology,2005,33(2):21-25.
[61]
秦红珊, 杨新岐. 一种替代传统电阻点焊的创新技术——搅拌摩擦点焊[J]. 电焊机,2006,36(7):27-30. QIN H S, YANG X Q. A new innovative joining technology to replace conventional resistance spot welding-friction stir spot welding[J]. Electric Welding Machine,2006,36(7):27-30.
[62]
张健, 董春林, 李光, 等. 搅拌摩擦点焊在航空领域的应用[J]. 航空制造技术,2009,(16):70-73. ZHANG J, DONG C L, LI G, et al. Application of friction stir spot welding in aviation industry[J]. Aeronautical Manufacturing Technology,2009,(16):70-73.
[63]
秦红珊, 杨新岐. 搅拌摩擦点焊技术及在汽车工业应用前景[J]. 汽车技术,2006,(1):1-5. QIN H S, YANG X Q. Friction stir spot welding technology and its application in automotive industry[J]. Automobile Technology,2006,(1):1-5.
[64]
YIN Y H, IKUTA A, NORTH T H. Microstructural features and mechanical properties of AM60 and AZ31 friction stir spot welds[J]. Materials and Design,2010,31(10):4764-4776.
[65]
YAMAMOTO M, GERLICH A, NORTH T H, et al. Cracking in dissimilar Mg alloy friction stir spot welds[J]. Science and Technology of Welding and Joining,2008,13(7):583-592.
[66]
SANTOS T G, MIRANDA R M, VILACA P, et al. Microstructural mapping of friction stir welded AA7075-T6 and AlMgSc alloys using electrical conductivity[J]. Science and Technology of Welding and Joining,2011,16:630-635.
[67]
YIN Y H, SUN N, NORTH T H, et al. Microstructures and mechanical properties in dissimilar AZ91/AZ31 spot welds[J]. Materials Characterization,2010,61(10):1018-1028.
[68]
SU P, GERLICH A P, NORTH T H, et al. Intermixing in dissimilar friction stir spot welds[J]. Metallurgical and Materials Transactions A,2007,38(3):584-595.
[69]
TOZAKI Y, UEMATSU Y, TOKAJI K. Effect of tool geometry on microstructure and static strength in friction stir spot welded aluminium alloys[J]. International Journal of Machine Tools and Manufacture,2007,47(15):2230-2236.
[70]
LIN Y C, LIU J J, LIN B Y. Effects of process parameters on strength of Mg alloy AZ61 friction stir spot welds[J]. Materials and Design,2012,35:350-357.
[71]
MUSTAFA K B, AHMET I Y. Effects of welding parameters on friction stir spot welding of high density polyethylene sheets[J]. Materials and Design,2012,33:545-550.
[72]
YIN Y H, SUN N, NORTH T H, et al. Influence of tool design on mechanical properties of AZ31 friction stir spot welds[J]. Science and Technology of Welding and Joining,2010,14(1):81-86.
[73]
CAMPANELLI L C, SUHUDDIN U F H, ANTONIALLI A S, et al. Metallurgy and mechanical performance of AZ31 magnesium alloy friction spot welds[J]. Journal of Materials Processing Technology,2013,213(4):515-521.
[74]
TRAN V X, PAN J, PAN T. Effects of processing time on strengths and failure modes of dissimilar spot friction welds between aluminum 5754-O and 7075-T6 sheets[J]. Journal of Materials Processing Technology,2009,209(8):3724-3739.
[75]
BILICI M K. Application of Taguchi approach to optimize friction stir spot welding parameters of polypropylene[J]. Materials and Design,2012,35:113-119.
[76]
CHOI D H, AHN B W, LEE C Y, et al. Effect of pin shapes on joint characteristics of friction stir spot welded AA5J32 sheet[J]. Materials Transactions,2010,51(5):1028-1032.
[77]
SHIN H S, JUNG Y C. Characteristics of dissimilar friction stir spot welding of bulk metallic glass to light weight crystalline metals[J]. Intermetallics,2010,18(10):2000-2004.
[78]
SHIN H S, JUNG Y C. Characteristics of friction stir spot welding of Zr-based bulk metallic glass sheets[J]. Journal of Alloys and Compounds,2010,504(1):279-282.
[79]
PRAKASH S J, MUTHUKUMARAN S. Refilling probe hole of friction spot joints by friction forming[J]. Materials and Manufacturing Processes,2011,26(12):1539-1545.
[80]
SIMONCINIA M, FORCELLESE A. Effect of the welding parameters and tool configuration on micro- and macro-mechanical properties of similar and dissimilar FSWed joints in AA5754 and AZ31 thin sheets[J]. Materials and Design,2012,41:50-60.
[81]
FORCELLESE A, GABRIELLI F, SIMONCINI M. Mechanical properties and microstructure of joints in AZ31 thin sheets obtained by friction stir welding using "pin" and "pinless" tool configurations[J]. Materials and Design,2012,34:219-229.
[82]
TRAN V X, PAN J, PAN T. Fatigue behavior of spot friction welds in lap-shear and cross-tension specimens of dissimilar aluminum sheets[J]. International Journal of Fatigue,2010,32(7):1022-1041.
[83]
UEMATSU Y, TOKAJI K, TOZAKI Y. Fatigue behaviour of dissimilar friction stir spot weld between A6061 and SPCC welded by a scrolled groove shoulder tool[J]. Procedia Engineering,2010,2(1):193-201.
[84]
JORDON J B, HORSTEMEYER M F, DANIEWICZ S R. Fatigue characterization and modeling of friction stir spot welds in magnesium AZ31 alloy[J]. Journal of Engineering Materials and Technology-Transactions,2010,132(4):041008.
[85]
HASSANIFARD S, MOHAMMADPOUR M, RASHID H A. A novel method for improving fatigue life of friction stir spot welded joints using localized plasticity[J]. Materials and Design,2014,53:962-971.
