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Welding International Volume 32, 2018 - Issue 7
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Articles

Relationship between melt flows based on three-dimensional X-ray transmission in situ observation and spatter reduction by angle of incidence and defocussing distance in high-power laser welding of stainless steel

Yousuke KawahitoMember, Joining and Welding Research Institute, Osaka University, OsakaView further author information
,
Kouki NakadaStudent Member, Graduate School of Engineering, Osaka University, OsakaView further author information
,
Yousuke UemuraStudent Member, Graduate School of Engineering, Osaka University, OsakaView further author information
,
Masami MizutaniMember, Joining and Welding Research Institute, Osaka University, OsakaView further author information
,
Kouji NishimotoMember,Anan National College of TechnologyView further author information
,
Hiroshi KawakamiMember,Graduate School of Engineering, Mie UniversityView further author information
&
Seiji KatayamaMember, Joining and Welding Research Institute, Osaka University, OsakaView further author information
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Pages 485-496 | Published online: 18 Oct 2018

References

  • Semak V, Matsunawa: A. The role of recoil pressure in energy balance during laser materials processing. J Phys D:Appl Phys. 1997;30:2541–2552.
  • Kinoshita K, Mizutani M, Kawahito Y, et al. Phenomena elucidation in high-power fiber laser welding of stainless steel. Quarterly Journal of JWS. 2007;25(1): 18–23. in Japanese
  • Li S, Chen G, Katayama S, et al. Relationship between spatter formation and dynamic molten pool during high-power deep-penetration laser welding. Appl Surf Sci. 2014;303:481–488.
  • Kawahito Y, Uemura Y, Doi Y, et al. Elucidation of effect of welding speed on melt flows in high-brightness and high-power laser welding of stainless steel on basis of three-dimensional X-ray transmission in-situ observation. Quarterly Journal of JWS. 2015;33(1): 13–19. in Japanese
  • Zhang MJ, Chen GY, Zhou Y, et al. Observation of spatter formation mechanisms in high-power fiber laser welding of thick plate. Appl Surf Sci. 2013;280:868–875.
  • Heider A, Sollinger J, Abt F, et al. High-speed X-Ray analysis of spatter formation in laser welding of copper. Physics Procedia. 2013;41:112–118.
  • Schweier M, Heins JF, Haubold MW, et al. Spatter formation in laser welding with beam oscillation. Physics Procedia. 2013;41:20–30.
  • Kaplan AFH, Powell J. Spatter in laser welding. J Laser Appl. 2011;23:1–7.
  • Kawahito Y, Mizutani M, Katayama S. High quality welding of stainless steel with 10 kW high power fibre laser. Sci Technol Weld Join. 2009;14:288–294.

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