Numerical analysis for weld pool of pulsed TIG welding 被引量：4

Numerical analysis for weld pool of pulsed TIG welding

下载PDF

导出

摘要 A two-dimensional axisymmetric mathematical model of weld pool of pulsed TIG welding was established. Numerical simulation for weld pool of pulsed TIG welding was done using FLUENT software by selecting the appropriate boundary conditions and strongly coupled control equations. The distributions of temperature field and flow field of weld pool under the periodic change of welding current were obtained. According to the maximum temperature of upper and lower surface of workpiece and depth and width of weld pool, the distributions of temperature field and flow field under different pulsed frequencies and current duty cycles were obtained and periodic variation was analyzed under pulsed current. The analysis results show that with the increase of pulsed frequency, weld pool width increases slightly while depth decreases slightly, and with the increase of current duty cycle, the width and depth of weld pool both increase significantly, and the depth increases greatly. A two-dimensional axisymmetric mathematical model of weld pool of pulsed TIG welding was established. Numerical simulation for weld pool of pulsed TIG welding was done using FLUENT software by selecting the appropriate boundary conditions and strongly coupled control equations. The distributions of temperature field and flow field of weld pool under the periodic change of welding current were obtained. According to the maximum temperature of upper and lower surface of workpiece and depth and width of weld pool, the distributions of temperature field and flow field under different pulsed frequencies and current duty cycles were obtained and periodic variation was analyzed under pulsed current. The analysis results show that with the increase of pulsed frequency, weld pool width increases slightly while depth decreases slightly, and with the increase of current duty cycle, the width and depth of weld pool both increase significantly, and the depth increases greatly.

作者黄健康郭朝博黄琳石玗樊丁

机构地区 Key Laboratory of Non-ferrous Metal Alloys and Processing State Key Laboratory of Gansu Advanced Non-ferrous Metal Materials

出处《China Welding》 EI CAS 2013年第1期71-76,共6页 中国焊接（英文版）

基金 This work was financially supported by National Natural Science Foundation of China No. 51205179.

关键词 pulsed TIG welding weld pool numerical simulation FLUENT pulsed TIG welding, weld pool, numerical simulation, FLUENT

分类号 O241 [理学—计算数学] TG444.7 [金属学及工艺—焊接]

引文网络
相关文献

参考文献5

1董文超,陆善平,李殿中,李依依.微量活性组元氧对焊接熔池Marangoni对流和熔池形貌影响的数值模拟[J].金属学报,2008,44(2):249-256. 被引量：39
2张瑞华,尹燕,樊丁,片山圣二.A-TIG焊熔深增加机理的数值模拟[J].机械工程学报,2008,44(5):175-180. 被引量：26
3董文超,陆善平,李殿中,李依依.焊接电弧与活性组元对TIG焊熔池形貌影响的数值模拟[J].焊接学报,2009,30(11):49-52. 被引量：17
4郑炜,武传松,吴林.脉冲TIG焊接熔池流场与热场动态过程的数值模拟[J].焊接学报,1997,18(4):227-231. 被引量：11
5武传松,郑炜,吴林.脉冲电流作用下TIG焊接熔池行为的数值模拟[J].金属学报,1998,34(4):416-422. 被引量：18

二级参考文献59

1赵玉珍,雷永平,史耀武.A-TIG焊中氧含量对熔池流动方式影响的数值模拟[J].金属学报,2004,40(10):1085-1092. 被引量：11
2赵玉珍,雷永平,史耀武.表面活性元素硫对焊接熔池流动方式和深宽比的影响[J].机械工程学报,2004,40(9):138-143. 被引量：11
3Lu S P, Fujii H, Sugiyama H, et al. Effects of oxygen additions to argon shielding gas on GTA weld shape [ J ]. ISIJ International, 2003, 43(10) : 1590 - 1595.
4Lu S P, Fujii H, Nogi K, et al. Effect of oxygen content in He-O2 shielding gas on weld shape in ultra deep penetration TIG [J].Science and Technology of Welding and Joining, 2007, 12(8) : 689 - 695.
5Lu S P, Dong W C, Li D Z, et al. Numerical study and comparisons of gas tungsten arc. properties between argon and nitrogen[J]. Computational Materials Science, 2009, 45(2) : 327 - 335.
6McKeUiget J, Szekely J. Heat transfer and fluid flow in the welding arc [J]. Metallurgical and Materials Transactions A, 1986, 17(7) : 1139- 1148.
7Sahoo P, DebRoy T, McNallan M J. Surface tension of binary metalsurface active solute systems under conditions relevant to welding metallurgy[J]. Metallurgical Transactions B, 1988, 19B(2): 483- 490.
8Boulos M I, Fauchais P, Pfender E. Thermal plasmas-fundamentals and applications [M]. New York: Plenum, 1994.
9Evans D L, Tankin R S. Measurement of emission and absorption of radiation by an argon plasma[J]. Physics of Fluids, 1967, 10(6) : 1137 - 1144.
10Cram L E. Statistical evaluation of radiative power losses from thermal plasmas due to spectral lines[J]. Journal of Physics D: Applied Physics, 1985, 18(3): 401-412.

共引文献90

1王新鑫,迟露鑫,许惠斌,樊丁.双TIG电弧中氧传质行为的数值分析[J].机械工程学报,2021,57(4):53-62. 被引量：1
2王涛,郑振太,董天顺,张立胜.脉冲TIG焊接工艺参数对Inconel601H镍基合金焊缝晶粒大小的影响[J].焊接学报,2015,36(4):109-112. 被引量：7
3刘志永,赵而团,王海涛,刘新峰.连续电流TIG对接焊熔池形状参数的视觉检测[J].焊接技术,2005,34(1):17-19. 被引量：1
4张瑞华,尹燕,水谷正海,片山聖二.活性剂钨极惰性气体保护电弧焊接熔池行为的观察[J].机械工程学报,2009,45(3):115-118. 被引量：18
5刘雷,于治水,陈洁.保护气氛中添加活性气体对焊接熔池形态影响的研究现状[J].上海工程技术大学学报,2009,23(2):151-156. 被引量：3
6陆善平,董文超,李殿中,李依依.电弧特性及其对熔池形貌影响的数值模拟[J].物理学报,2009,58(F06):94-103. 被引量：19
7冷小冰,张瑞华,王海涛,王荣.A-TIG焊在核电管道全位置焊接中的应用[J].电焊机,2009,39(8):14-16. 被引量：13
8张瑞华,陈磊,冷小冰.大功率激光焊熔池特性的数值模拟[J].焊接,2009(10):29-33. 被引量：2
9张瑞华,尹燕,水谷正海,片山聖二.激光辅助活性焊接法[J].焊接学报,2009,30(11):21-24. 被引量：5
10董文超,陆善平,李殿中,李依依.焊接电弧与活性组元对TIG焊熔池形貌影响的数值模拟[J].焊接学报,2009,30(11):49-52. 被引量：17

同被引文献27

1武传松,赵朋成.熔透熔池表面下塌变形的动态演变过程分析[J].金属学报,2006,42(8):865-869. 被引量：9
2MANTI R,DWIVEDI D K.Microstructure of Al-Mg-Si weld joints produced by pulse TIG welding[J].Materials and Manufacturing Processes,2007,22(1):57-61.
3PALANI P K,MURUGAN N.Selection of parameters of pulsed current gas metal arc welding[J].Journal of Materials Processing Technology,2006,172(1):1-10.
4武传松,郑炜,吴林.脉冲电流作用下TIG焊接熔池行为的数值模拟[J].金属学报,2006,40(6):898-901.
5张瑞华,尹燕,樊丁,片山圣二.A-TIG焊熔深增加机理的数值模拟[J].机械工程学报,2008,44(5):175-180. 被引量：26
6赵明,李瑞英.Numerical analysis of dynamic variation of weld pool geometry in fully-penetrated TIG welding[J].China Welding,2008,17(2):47-53. 被引量：6
7武传松,郑炜,吴林.脉冲电流作用下TIG焊接熔池行为的数值模拟[J].金属学报,1998,34(4):416-422. 被引量：18
8张瑞华,尹燕,水谷正海,片山聖二.活性剂钨极惰性气体保护电弧焊接熔池行为的观察[J].机械工程学报,2009,45(3):115-118. 被引量：18
9赵亮强,王继峰,林涛,陈善本.铝合金GTAW熔池振荡模型分析[J].上海交通大学学报,2010,44(S1):92-94. 被引量：8
10陆善平,董文超,李殿中,李依依.电弧特性及其对熔池形貌影响的数值模拟[J].物理学报,2009,58(F06):94-103. 被引量：19

引证文献4

1黄健康,何笑英,扶剑锋,石玗,樊丁.基于结构激光反射的脉冲TIG焊熔池三维表面演化观测[J].兰州理工大学学报,2016,42(1):22-25. 被引量：3
2岳建锋,任圣哲,李亮玉,刘文吉.低碳钢非对称角焊温度场有限元分析[J].焊接学报,2017,38(6):25-28.
3郭朝博,冯振,崔露露.双脉冲TIG焊熔池数值分析[J].焊接学报,2018,39(7):97-101. 被引量：1
4黄健康,潘伟,孙天亮,余淑荣,樊丁.不锈钢/碳钢TIG焊熔池表面流动行为[J].焊接学报,2019,40(8):18-25. 被引量：8

二级引证文献12

1许波,王恪典,李雪芝,李建军.焊接数值计算中几种相变潜热处理方法[J].热加工工艺,2020,0(3):7-10. 被引量：3
2魏敏,代戈,宋长生.变频调速三相异步电动机在设计中应注意的几个问题[J].防爆电机,2000,35(1):10-12.
3徐莉莉,张远.激光雷达技术的资源环境遥感监测系统设计与实现[J].激光杂志,2020,41(8):54-58. 被引量：1
4魏强,郑博方,林彦龙,杜慧敏,罗震.小管径不等厚不锈钢导管全位置焊接数值模拟[J].焊接技术,2020,49(7):22-27.
5张建晓,刘光银,刘世恩,黄健康,樊丁.12Cr2Mo1R耐热钢/304不锈钢异种钢焊接[J].焊接,2020(10):7-13. 被引量：4
6肖宇,张杰,马永山.基于功率谱AR模型的3D激光虚拟图像重建研究[J].激光杂志,2021,42(3):140-144. 被引量：1
7王志刚.气化炉SA387Gr11Cl2与316L异种钢的焊接工艺研究[J].压力容器,2021,38(3):18-24. 被引量：7
8Aleksandr Savinov,Oleg Polesskiy,Vladimir Lysak,Pavel Krasikov,Artem Chudin.Influence of shielding gas and non-consumable electrode configuration on weld formation[J].China Welding,2021,30(4):17-24. 被引量：1
9徐育烺,钱鹏,李敬勇,石铭霄,刘嘉琦.304&Q235异种钢TIG焊接接头组织及力学性能研究[J].电焊机,2022,52(1):54-62. 被引量：1
10邓子伦.搅拌头转速对球墨铸铁/低碳钢搅拌摩擦搭接接头强度的影响[J].现代工业经济和信息化,2022,12(6):294-296.

1菅晓霞,武传松.Numerical analysis of plasma arc behaviors[J].China Welding,2013,22(1):77-82. 被引量：1
2胡俊,盛晓军,罗敬文.Numerical Analysis and Experimental Study of the Effect of Workpiece Thickness on Flow Field in Laser Cutting[J].Journal of Shanghai Jiaotong university(Science),2010,15(6):676-683.
3AMEC Blaz,ODER Grega,LERHER Tone,POTR Iztok.Numerical Analysis of Railway Brake Disc[J].Journal of Shanghai Jiaotong university(Science),2011,16(2):149-151. 被引量：1
4张志函,李文亚,韩静,李京龙.Numerical analysis of joint temperature evolution during friction stir welding based on plastic deformation heat[J].China Welding,2011,20(1):76-80. 被引量：2
5秦国梁,梁永亮,耿培皓,王严,周军.Numerical analysis of thermal process in continuous drive radial friction welding[J].China Welding,2015,24(1):18-24. 被引量：1
6孙俊华,武传松.Numerical analysis of weld pool geometry in pulsed current plasma arc welding[J].China Welding,2010,19(3):6-10.
7GONTARZ Andrzej,PATER Zbigniew,TOFIL Arkadiusz.Numerical Analysis of Unconventional Forging Process of Hollowed Shaft from Ti-6Al-4V Alloy[J].Journal of Shanghai Jiaotong university(Science),2011,16(2):157-161. 被引量：1
8D.Ruan, A.S.Blicblau School of Engineering and Science, Swinburne University of Technology, P.O.Box 218, Hawthorn, Victoria 3122, Australia.Numerical Analysis of Thermal Distortion and Residual Stresses in H13 Steel Due to Vacuum Gas Quenching[J].Journal of Shanghai Jiaotong university(Science),2000,5(1):135-139.
9胥国祥,武传松,秦国梁,王旭友.Numerical analysis of temperature profile and weld dimensions in laser ＋ GMAW hybrid welding of aluminum alloy T-joint[J].China Welding,2013,22(3):51-55.
10徐新成,沈永刚.Creating Technology and Numerical Analysis of Warm Plastic Forming for Non-symmetrical Axostyle[J].Journal of Donghua University(English Edition),2010,27(4):584-588.

China Welding

2013年第1期

浏览历史

内容加载中请稍等...