[1]蔡养川,罗 震.A-TIG焊在不锈钢领域的应用[J].焊管,2015,38(7):1-5.[doi:1001-3938(2015)07-0001-05]
 CAI Yangchuan,LUO Zhen.Application of A-TIG Welding in Stainless Steel Field[J].,2015,38(7):1-5.[doi:1001-3938(2015)07-0001-05]
点击复制

A-TIG焊在不锈钢领域的应用()
分享到:

《焊管》[ISSN:1001-3938/CN:61-1160/TE]

卷:
38
期数:
2015年第7期
页码:
1-5
栏目:
试验与研究
出版日期:
2015-07-28

文章信息/Info

Title:
Application of A-TIG Welding in Stainless Steel Field
文章编号:
1001-3938(2015)07-0001-05
作者:
蔡养川罗    震
天津大学 材料科学与工程学院,天津 300072
Author(s):
CAI Yangchuan LUO Zhen
College of Materials Science and Engineering, Tianjin University, Tianjin 300072, China
关键词:
焊接A-TIG奥氏体不锈钢熔深焊缝组织力学性能
Keywords:
welding A-TIG austenitic stainless steel  penetration weld organization mechanical properties
分类号:
TG44
DOI:
1001-3938(2015)07-0001-05
文献标志码:
A
摘要:
以奥氏体不锈钢为例,简要介绍了A-TIG试验原理以及其在不锈钢领域的应用。系统地分析了活性剂对焊缝组织、力学性能和耐腐蚀性能的影响。目前主要存在三种焊缝熔深增加机理,即“电弧收缩”理论、“阳极斑点”理论和“表面张力温度梯度改变”理论,并对这三种理论进行了系统地阐述。
Abstract:
Taking austenitic stainless steel as an example, it briefly introduced the A-TIG test principle in this article,and application of A-TIG wedding in stainless steel field. It systematically analyzed the influence of surfactant on weld organization, mechanical properties and corrosion resistance. At present, there are three types of weld penetration increase mechanism, namely the "arc contraction" theory, the "anode spots" theory and the “surface tension temperature gradient change” theory, it systematically expatiated the above three theories.

参考文献/References:

[1]刘凤尧. 不锈钢和钛合金活性剂焊接和熔深增加机理的研究[D]. 哈尔滨:哈尔滨工业大学. 2003(1): 1-7.
[2]LUCAS W, HOUSE D S. Activating flux-increasing the performance and productivity of the TIG and plasma processes[J]. Welding and Metal Fabrication, 1996, 64(1): 1-11.
[3]凡福群. 氧化物、氯化物活性焊剂作用机理的研究[D]. 大连:大连理工大学. 2013(1): 7-11.
[4]张瑞华, 樊丁, 尹燕,等. 不锈钢A-TIG焊的活性剂研制[J]. 甘肃工业大学学报, 2002, 28(1): 7-9.
[5]杨春利, 牛尾诚夫, 田中学. TIG 电弧活性化焊接现象和机理研究(1)—活性化TIG焊接中的电弧现象[J].焊接,2000(5): 15-18.
[6]林三宝, 杨春利, 刘凤尧, 等. 不锈钢TIG焊活性剂对焊缝性能的影响[J]. 哈尔滨工业大学学报, 2002, 34(3): 308-311.
[7]杨春利, 牛尾诚夫, 田中学,等. TIG电弧活性化焊接现象和机理研究(1)—表面活性剂对不锈钢材料TIG焊熔深的影响[J]. 焊接, 2000(4): 16-18.
[8]杨春利, 牛尾诚夫, 田中学,等. TIG电弧活性化焊接现象和机理研究(2)—活性化TIG焊接中的电弧现象[J]. 焊接, 2000(5): 15-18.
[9]王卫玲, 张立武, 胡世民,等. A-TIG焊接技术在奥氏体不锈钢焊接中的应用研究[J]. 固体火箭技术,2003, 26(2): 49-52.
[10] SIERADZKI K. Stress corrosion cracking. Encyclopedia of Materials: Science and Technology[DB/OL]. http://www. sciencedirect.com/science/article/pii/B00804315-26015965.
[11]DIETZEL W. Stress corrosion cracking in metals. Ency- clopedia of Materials: Science and Technology[DB/OL].http://www.sciencedirect.com/science/article/pii/B0084-31526015977.
[12] TURNBULL A. Stress corrosion cracking: mechanisms.Encyclopedia of Materials: Science and Technology[DB/OL]. http://www.sciencedirect.com/science/article/pii./B0080431526015989.
[13]张俊旺, 王文先, 王保东,等. 奥氏体不锈钢焊接接头抗腐蚀性能研究[J]. 太原理工大学学报, 2006, 37(3): 310-312, 326.
[14]杨春利, 林三宝. 电弧焊基础[M]. 哈尔滨:哈尔滨工业大学出版社,2003: 15.
[15]樊丁, 顾玉芬, 林焰,等. 低碳钢A-TIG焊接法的实验研究[J]. 甘肃工业大学学报,2000(3): 16-21.
[16] PATON B E, ZAMKOV  N, PRILUTSKY V P, et al. Contraction of the welding arc caused by the flux in tungsten-electrode argon-arc-welding [J]. Paton Welding Journal, 2000(1): 5-11.
[17] HOWSE D S, LUEAS W. Investigation into arc constriction by active fluxes for tungsten inert gas welding [J].Science and Technology of Welding and Joining,2000, 5(3) :189-193.
[18]张瑞华. 活性焊接法及熔深增加机理的数值模拟研究[D]. 兰州: 兰州理工大学, 2005.
[19]刘凤尧. 不锈钢和钛合金活性剂焊接和熔深增加机理的研究[D]. 哈尔滨: 哈尔滨工业大学, 2003.
[20]LI Q M , WANG X H , ZOU Z D, et al. Effects effect of activating flux on arc shape and arc voltage in tungsten inert gas welding [J]. Transaction of Nonl’crrous Metals Society of China,2007(17): 486-490.
[21] LUDWIG H C. Current density and anode spot size in the gas tungsten arc[J]. Welding Journal, 1968(47):234-240.
[22]MECHEV V S. Mechanism of contraction of the welding arc in the presence of electronegative particles [J]. Welding International, 1993, 7(2): 154-156.
[23]XIAO Y H, OUDEN den G. Measurements of surface tension of liquid metals and alloys under arc welding conditions [J]. Int. Mat. Rev. , 1977, 13(9): 781-794.
[24] SHIRALI A  A. Effect of trace elements on weld penetration of TIG/GTA welds [J]. Joining Science, 1992,1(3): 167-175.
[25]LECONTE S, PAIL lard P, CHAPELLE P, et al. Effect of oxide fluxes on activation mechanisms of tungsten inert gas process [J]. Science and Technology of Welding and Joining, 2008, 11(4): 389-397.

相似文献/References:

[1]赵春友.中直径直缝双面埋弧焊钢管[J].焊管,2007,30(5):59.[doi:1001-3938(2007)05-0059-02]
 ZHAO Chun-you.Longitudinal Double Submerged Arc Welded Pipe with Medium Diameter[J].,2007,30(7):59.[doi:1001-3938(2007)05-0059-02]
[2]郭瑞杰,付桂英,杨天冰,等.长输油气管道激光焊接技术[J].焊管,2007,30(6):78.[doi:1001-3938(2007)06-0078-03]
 GUO Rui-jie,FU Gui-ying.Laser Welding Technology of Long Distance Pipeline[J].,2007,30(7):78.[doi:1001-3938(2007)06-0078-03]
[3]毕宗岳,张锦刚.连续管焊丝的试验研究[J].焊管,2008,31(1):26.[doi:1001-3938(2008)01-0026-03]
 BI Zong-yue,ZHANG Jin-gang.Testing & Research of Welding Wire Used for Coil Tubing[J].,2008,31(7):26.[doi:1001-3938(2008)01-0026-03]
[4]韩志诚,王少刚,徐凤林,等.双相不锈钢的焊接研究进展[J].焊管,2008,31(3):5.[doi:1001-3938(2008)03-0005-04]
 HAN Zhi-cheng,WANG Shao-gang,XU Feng-lin,et al.Progress of Research on Welding of Duplex Stainless Steel[J].,2008,31(7):5.[doi:1001-3938(2008)03-0005-04]
[5]张盟军,刘换军,张 璐,等.林肯焊机并联技术的应用[J].焊管,2008,31(3):56.[doi:1001-3938(2008)03-0056-02]
 ZHANG Meng-jun,LIU Huan-jun,ZHANG Lu,et al.Parallel Connection Technology Application of Lincoln Welding Machine[J].,2008,31(7):56.[doi:1001-3938(2008)03-0056-02]
[6]周友龙,方永龙,袁卫东,等.T91/TP347H管接头焊接工艺试验研究[J].焊管,2008,31(4):17.[doi:1001-3938(2008)04-0017-04]
 ZHOU You-long,FANG Yong-long,YUAN Wei-dong,et al.Study on Welding Procedure Test of T91/TP347H Pipe Joint[J].,2008,31(7):17.[doi:1001-3938(2008)04-0017-04]
[7]冯 斌,刘 宇,刘方明.X70级管线钢焊接热裂纹模拟研究[J].焊管,2009,32(1):15.[doi:1001-3938(2009)01-0015-06]
 FENG Bin,LIU Yu,LIU Fang-min.Welding Thermal Crack Simulation Study on X70 Grade Pipeline Steel[J].,2009,32(7):15.[doi:1001-3938(2009)01-0015-06]
[8]徐 刚,王 旭,李树军,等.林肯交流焊机斯考特连接的研究[J].焊管,2009,32(3):52.[doi:1001-3938(2009)03-0052-02]
 XU Gang,WANG Xu,LI Shu-jun,et al.The Research of Lincoln AC Welding Machine Scott Connection[J].,2009,32(7):52.[doi:1001-3938(2009)03-0052-02]
[9]张祥,曾涛.基于ANSYS压力容器筒体与平板封头焊缝残余应力有限元分析[J].焊管,2009,32(5):22.[doi:1001-3938(2009)05-0022-03]
 ZHANG Xiang,ZENG Tao.The Finite Element Analysis on the Weld Residual Stress of the Pressure Vessel Cylinder and Plate Dome Based on ANSYS[J].,2009,32(7):22.[doi:1001-3938(2009)05-0022-03]
[10]尹长华,邹欣,李广民.“东西伯利亚—太平洋”管道工程项目中焊接相关认证介绍[J].焊管,2009,32(6):59.[doi:1001-3938(2009)06-0059-05]
 YIN Chang-hua,ZOU Xin,LI Guang-min.Regarding qualification and certificate Correlated with Welding[J].,2009,32(7):59.[doi:1001-3938(2009)06-0059-05]

备注/Memo

备注/Memo:
收稿日期:2014-11-13
作者简介:蔡养川(1987—),男,博士研究生,主要从事焊接材料方面的研究工作。
更新日期/Last Update: