光电偶效应和光束整形对稳定气体保护焊接的增益 -

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光电偶效应和光束整形对稳定气体保护焊接的增益

doi:10.3788/CO.20140701.0112

HERMSDORF J?rg,
KAIERLE Stefan^,

汉诺威中心, 汉诺威 30419, 德国

基金项目:

German Federal Ministry of Education and Research（BMBF） within the Framework Concept "Research for Tomorrow's Production"(No.02PB2051);Project Management Agency Forschungszentrum Karlsruhe，Production and Manufacturing Technologies Division(PTKA-PFT)

详细信息

通讯作者:
KAIERLE Stefan，E-mail：s.kaierle@lzh.de

中图分类号:TG403
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- 被引次数:0
出版历程
- 收稿日期:2013-10-11
- 修回日期:2013-12-13
- 刊出日期:2014-01-25

Benefits of optogalvanic effect and beam shaping for laser stabilized GMA welding

HERMSDORF J?rg,
KAIERLE Stefan^,

Laser Zentrum Hannovere.V., Hannover 30419, Germany

Funds:

German Federal Ministry of Education and Research（BMBF） within the Framework Concept Research for Tomorrow's Production(No.02PB2051);Project Management Agency Forschungszentrum Karlsruhe，Production and Manufacturing Technologies Division(PTKA-PFT)

摘要

摘要:为了开发和改进诱导稳定焊接加工技术，需要通过辐射使电弧的导电率达到最大值。光电偶效应是控制该过程的主导因素，该过程的优化将会保证电弧的稳定性。光电偶效应提高了等离子体粒子电离的概率，从而提高了电弧的导电率。光子和氩原子之间的电子-原子碰撞相互作用产生了带电粒子。电离率越高，电弧的导电率就越高。为了充分利用光电偶效应，我们还应考虑工件上的光束焦点位置、光束形状和波长因素。
- 光电偶效应/
- 诱导稳定焊接/
- 瑞利长度
Abstract:To develop and refine the laser guided and stabilized(LGS) welding process, the conductivity of the electric arc must be maximized using laser radiation. The optogalvanic effect(OGE) is the leading factor in controlling it, and if optimized it will lead to the stabilization of the electric arc. The OGE raises the probability of ionization of the particles in the plasma, and thus, the conductivity of the electric arc. The interaction between the photons of the laser and the Argon atoms through electron-atom collisions create charged particles. The higher the rate of ionization is, the higher the conductivity of the electric arc. Many tests were conducted to discover how to make best use of this effect. The position of the focus of the beam in relation to the work piece, the shape of the beam, and the laser wavelength used were all taken into account.
- optogalvanic effect/
- laser guided and stabilized welding/
- Rayleigh length

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参考文献 (1)

[1] STUTE U,KLING R,HERMSDORF J. Interaction between electrical arc and Nd:YAG laser radiation[J].Annals of the CIRP,2007,56(1):197-200. [2] HERMSDORF J,OTTE F,KLING R. Development of the LGS-GMA welding process[C].Proceedings of the Fifth International WLT-Conference on Lasers in Manufacturing,Munich,June 2009. [3] CUI H. Untersuchungen der Wechselwirkung zwischen Schweisslichtbogen und fokussiertem Laserstrahl und der Anwendungsmoeglichkeit kombinierter Laser-Lichtbogentechnik; GKSS-Forschungszentrum Geesthacht GmbH 1991, ISSN0344-9629. [4] CUI H,DECKER I,PURSCH H,RUGE J,WENDELSTORF J,WOHLFAHRT H. Laserinduziertes Fokussieren des WIG-Lichtbogens[J]. Schweiβen und Schneiden. DVS-Bericht,1992(146):139-143. [5] KIM J K,LIM H S,CHO J H,KIM C H. Bead-on-plate weldability of Al 5052 alloy using a disk laser[J].AMME,2008,28(2):189. [6] ZHU X,NUR A H,MISRA P. Laser optogalvanic wavelength calibration with a commercial hollow cathode iron-neon discharge lamp[J].Spectroscopy Radiation Transfer,1994,52(2):167-17. [7] GOLDSMITH J E M,LAWLER J E. Optogalvanic spectroscopy[J].Contemp. Phys.,1981,22(2):235-248 [8] NIST.Physical Measurement Laboratory.[2013-09-17].[EB/OL].http://physics.nist.gov.

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