[1] 马晓丽,华学明,沈甘迪,等. 高效弧焊设备与方法在船舶制造中的应用现状[J]. 焊接技术,2008,37(1):1-4. MA Xiaoli,HUA Xueming,SHEN Gandi,et al. Application status of highly efficient arc welding equipments and methods in shipbuilding[J]. Welding Technology,2008,37(1):1-4. [2] 陈彦宾,冯杰才,李俐群. 高强钢厚板激光-GMAW复合双面同步横焊特性研究[J]. 机械工程学报,2016,52(2):47-55. CHEN Yanbin,FENG Jiecai,LI Liqun. Research on the characteristics of double-sided hybrid laser-GMAW synchronous horizontal welding of high-strength thick steel plates[J]. Journal of Mechanical Engineering,2016,52(2):47-55. [3] 刘殿宝,张广军,吴林. 大厚板双面双TIG电弧打底焊熔池成形特性[J]. 焊接学报,2012,33(3):37-40. LIU Dianbao, ZHANG Guangjun, WU Lin. Characteristics of pool formation in backing weld for large and thick plates using double-sided double TIG arc welding[J]. Transactions of the China Welding Institution,2012,33(3):37-40. [4] 杨东青,李大用,张广军. 坡口预留间隙对高强度钢厚板打底焊缝成形的影响[J]. 焊接学报,2015,36(11):57-60. YANG Dongqing,LI Dayong,ZHANG Guangjun. Effect of reserved groove gap on backing welding of high-strength steel thick plates[J]. Transactions of the China Welding Institution,2015,36(11):57-60. [5] KIM C. Back bead characteristics during butt welding of a thick plate for various backing conditions[J]. Materials Science Forum,2010,654(6):350-353. [6] SUGITANI Y,MAO W. Automatic simultaneous control of bead height and back bead shape utilizing arc sensor in semi-automatic MAG welding with backing plate[J]. Quarterly Journal of the Japan Welding Society,1994,12(4):468-476. [7] YAMANE S,YAMAMOTO H,ISHIHARA T,et al. Adaptive control of back bead in V groove welding without backing plate[J]. Science and Technology of Welding and Joining,2004,9(2):138-148. [8] YAMANE S,YAMAMOTO H,KANEKO Y,et al. Sensing and seam tracking of welding line in backingless V groove welding[J]. Science and Technology of Welding and Joining,2006,11(5):586-592. [9] YAMANE S,UJI K,NAKAJIMA T,et al. Application of switch back welding to V groove MAG welding[J]. Welding International,2015,29(2):103-109. [10] YANG Chengdong,ZHONG Jiyong,CHEN Yuxi,et al. The realization of no back chipping for thick plate welding[J]. International Journal of Advanced Manufacture and Technology,2014,74(1):79-88. [11] ZHANG Huajun,ZHANG Guangjun,CAI Chunbo,et al. Fundamental studies on in-process controlling angular distortion in asymmetrical double-sided double arc welding[J]. Journal of Materials Processing Technology,2008,205(1):214-223. [12] WATANABE T,NAGAI Y,KITAZAWA Y K. Back bead control system for gas shielded arc one side welding[J]. Research and Development Kobe Steel Engineering Reports,1987,37(4):77-80. [13] WU Chuansong,JIA Chuanbao,CHEN Maoai. A controlsystem for keyhole plasma arc welding of stainless steel with medium thickness[J]. Welding Journal,2010,89(11):225s-231s. [14] WAHBA M,MIZUTANI M,KATAYAMA S. Single pass hybrid laser-arc welding of 25 mm thick square groove butt joints[J]. Materials and Design,2016,97(5):1-6. [15] LI Kehai,ZHANG Yuming. Consumable doubleelectrode GMAW part I:the process[J]. Welding Journal,2008,87(1):11s-17s. [16] KANEMARU S,SASAKI T,SATO T,et al. Study for TIG-MIG hybrid welding process[J]. Welding in the World,2014,58(1):11-18. [17] MENG Xiangmeng,QIN Guoliang,ZHANG Yuqi,et al. High speed TIG-MAG hybrid arc welding of mild steel plate[J]. Journal of Materials Processing Technology,2014,214(11):2417-2424. [18] 杨涛,张生虎,高洪明,等. TIG-MIG复合焊电弧特性机理分析[J]. 焊接学报,2012,33(7):25-28. YANG Tao,ZHANG Shenghu,GAO Hongming,et al. Analysis of mechanism for TIG-MIG hybrid arc properties[J]. Transactions of the China Welding Institution,2012,33(7):25-28. [19] MIAO Yugang,XU Xiangfang,WU Bintao,et al. Effects of bypass current on the stability of weld pool during double sided arc welding[J]. Journal of Materials Processing Technology,2014,214(8):1590-1596. [20] 王新鑫,樊丁,黄健康,等. TIG焊电弧-熔池传热与流动数值模拟[J]. 机械工程学报,2015,51(10):69-78. WANG Xinxin,FAN Ding,HUANG Jiankang,et al. Numerical simulation of heat transfer and fluid flow for arc-weld pool in TIG welding[J]. Journal of Mechanical Engineering,2015,51(10):69-78. [21] 彭远江,马崇山. 手工电弧焊单面焊双面成形的机理及成形控制的探讨[J]. 焊接技术,1989,18(5):37-41. PENG Yuanjiang,MA Chongshan. Discussion on the mechanism and forming control of single side welding of manual arc welding[J]. Welding Technology,1989,18(5):37-41. [22] 周方明,于治水,王宇,等. TIG-MIG双面对称焊焊缝成形机理研究[J]. 机械工程学报,2004,40(4):58-61. ZHOU Fangming,YU Zhishui,WANG Yu,et al. Study on shaping mechanism of weld for TIG-MIG double-sided symmetric arc welding[J]. Chinese Journal of Mechanical Engineering,2004,40(4):58-61. [23] 陈姬,宗然,武传松,等. TIG-MIG复合焊电弧间相互作用对焊接过程的影响[J]. 机械工程学报,2016,52(6):59-64. CHEN Ji,ZONG Ran,WU Chuansong,et al. Influence of arcs interaction on TIG-MIG hybrid welding process[J]. Journal of Mechanical Engineering,2016,52(6):59-64. [24] SAHOO P,DEBROY T,MCNALLAN M J. Surface tension of binary metal-surface active solute systems under conditions relevant to welding metallurgy[J]. Metallurgical Transactions B,1988,19(3):483-491. [25] ZHAO Y Z,ZHAO H Y,LEI Y P,et al. Theoretical study of Marangoni convection and weld penetration under influence of high oxygen content in base metal[J]. Science and Technology of Welding and Joining,2007,12(5):410-417. [26] 赵琳,塚本进,荒金吾郎,等. 激光-电弧复合焊接保护气体O2含量对焊缝均匀性和熔池流动的影响[J]. 中国激光,2015,42(6):130-136. ZHAO Lin,TSUKAMOTO Susumu,ARAKANE Goro,et al. Influence of shielding oxygen content on weld homogeneity and fluid flow in laser-arc hybrid welding[J]. Chinese Journal of Lasers,2015,42(6):130-136. |