Deformation, Fracture and Microstructure of Metallic Materials

Deformation, Fracture and Microstructure of Metallic Materials

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The reprint has collected the latest scientific achievements in the microstructure-related deformation and fracture behavior of various metallic materials (e.g., steels, superalloys, and titanium alloys) under monotonical or cyclic loads. According to the research findings arising from this collection of works, the initial microstructure and microstructural evolution have a significant effect on deformation and fracture mechanisms and, thus, mechanical properties. To understand these influences, microstructure characterization, mechanical property testing, and numerical simulation are discussed in this reprint. These results are beneficial for promoting the potential applications of these materials and for the future development of novel high-performance metallic materials.

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  • 35CrMo steel
  • annealing twin
  • austenitic low-density steel
  • cooling intensity
  • crack initiation mechanism
  • damage initiation
  • damage mechanism
  • deformation mechanism
  • digital image correlation
  • discontinuous yielding
  • ductile-to-brittle transition range
  • electrical discharge machining
  • electron beam melting
  • face-centered cubic metal
  • Fatigue
  • fatigue strength
  • fatigue strength prediction
  • film cooling hole
  • finite element simulation
  • G20Mn5QT steel
  • grain boundary engineering
  • heat transfer coefficient
  • heat treatment
  • high-cycle fatigue
  • History of engineering & technology
  • low-carbon steel
  • low-strength tee
  • master curve
  • Materials science
  • Mechanical engineering & materials
  • Mechanical Property
  • Mg-Zn-Ca alloy
  • Microstructure
  • mini-CT
  • molecular dynamics simulation
  • n/a
  • plastic deformation
  • Poisson’s ratio
  • process defects
  • recast layer
  • reference temperature
  • residual stress
  • seamless steel tubes
  • shape effect
  • size effect
  • solute cluster hardening
  • special grain boundary
  • special-shaped epoxy steel sleeve
  • strain hardening
  • strain monitoring
  • strain rate
  • stress concentration
  • Technology, engineering, agriculture
  • Technology: general issues
  • Titanium
  • twin boundary


DOI: 10.3390/books978-3-0365-7862-0


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