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Laser Welding

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Laser welding is a high-energy process used in a wide range of advanced materials to obtain micro- to macro-sized joints in both similar and dissimilar combinations. Moreover, this technique is widely used in several industries, such as automotive, aerospace, and medical industries, as well as in electrical devices. Although laser welding has been used for several decades, significant and exciting innovations often arise from both the process and/or advanced materials side.

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Keywords

  • accuracy
  • aided electric current
  • Al/steel joints
  • aluminium
  • aluminum alloy T-joint
  • BTi-6431S
  • buy-to-fly
  • conduction regime
  • dissimilar joining
  • dissimilar material
  • dissimilar metal
  • dissimilar welding
  • DP1000 steel
  • dual phase steel
  • EBSD phase mapping
  • fiber laser
  • fiber laser welding
  • finite element analysis
  • Finite element method
  • H-shaped fusion zone
  • hardness
  • high temperature titanium alloy
  • high-speed imaging
  • HLAW
  • hybrid welding
  • IMC layers
  • intermetallic layer
  • keyhole
  • L-joint
  • laser beam
  • laser beam welding
  • laser keyhole welding
  • laser offset welding
  • laser stake welding
  • laser welding
  • laser welding-brazing
  • laser welds
  • liquid metal
  • LKW
  • low alloyed steel
  • MAG
  • magnesium alloy thin sheet
  • mass transfer
  • Mechanical properties
  • Microstructure
  • n/a
  • Penetration
  • phase transformation
  • porosity control
  • prediction
  • pulsed Nd:YAG laser beam welding
  • SKM
  • spatter
  • Stainless Steel
  • steel S700MC
  • T-joint
  • tensile properties
  • tensile strength
  • Ti-5Al-5V-5Mo-3Cr
  • Titanium
  • Ti–6Al–4V
  • trip steel
  • weld morphology
  • weld pool behavior
  • WPP
  • WW

Links

DOI: 10.3390/books978-3-03928-862-5

Editions

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