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Dissimilar Metal Welding

Dissimilar Metal Welding

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The combination of distinct materials is a key issue in modern industry, whereas the driving concept is to design parts with the right material in the right place. In this framework, a great deal of attention is directed towards dissimilar welding and joining technologies. In the automotive sector, for instance, the concept of “tailored blanks”, introduced in the last decade, has further highlighted the necessity to weld dissimilar materials. As far as the aeronautic field is concerned, most structures are built combining very different materials and alloys, in order to match lightweight and structural performance requirements. In this framework, the application of fusion welding techniques, namely, tungsten inert gas or laser welding, is quite challenging due to the difference in physical properties, in particular the melting point, between adjoining materials. On the other hand, solid-state welding methods, such as the friction stir welding as well as linear friction welding processes, have already proved to be capable of manufacturing sound Al-Cu, Al-Ti, Al-SS, and Al-Mg joints, to cite but a few. Recently, promising results have also been obtained using hybrid methods. Considering the novelty of the topic, many relevant issues are still open, and many research groups are continuously publishing valuable results. The aim of this book is to finalize the latest contributions on this topic.

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Keywords

  • 1050 aluminum alloy
  • Ag-Cu-Zn
  • ageing
  • aging treatment
  • AISI 316L
  • Al/steel dissimilar materials
  • Aluminum
  • aluminum alloy
  • aluminum-steel butt joint
  • arc assisted laser method
  • cloud of particles
  • Copper
  • crack growth path
  • cross-section adjustment
  • DeltaSpot welding
  • dissimilar
  • dissimilar joints
  • dissimilar materials welding
  • dissimilar metal welded joint
  • dissimilar metal welding
  • dissimilar metals
  • dissimilar Ti6Al4V/AA6060 lap joint
  • dissimilar weld
  • DP1000 steel
  • dual-beam laser welding
  • EBSD phase mapping
  • electrical properties
  • electromagnetic pulse welding
  • failure mode
  • filler metals
  • fracture load
  • fracture resistance
  • friction stir spot brazing
  • friction stir spot welding
  • friction stir welding
  • FSW
  • hardness
  • Inconel 625
  • interface
  • interfacial crack initiation
  • intermetallic compounds
  • internal supports
  • jet
  • joining area
  • laser beam welding
  • laser welding
  • lobe curve
  • local strength mismatch
  • magnetic pulse welding
  • Mechanical properties
  • Microstructure
  • n/a
  • Optimal design
  • phase potential
  • pulsed Nd:YAG laser
  • pulsed Nd:YAG laser beam welding
  • Rare earth
  • side-by-side configuration
  • solid state welding
  • spatial beam oscillation
  • spooling process tape
  • steel/Al joint
  • steel/aluminum joint
  • surface activation
  • tensile
  • tensile properties
  • tensile resistance
  • tubular joints
  • welding window
  • welding-brazing

Links

DOI: 10.3390/books978-3-03921-955-1

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