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Crystal Plasticity (Volume II)

Crystal Plasticity (Volume II)

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With the second volume, we continue our mission to providing theoretical and experimental research that contribute new insights and practical findings in the field of crystal plasticity-related topics. Once again, a completely new set of 26 original works (including 22 research articles, 3 communications, and 1 review) has been collected. As in the case of the first volume, here, a full spectrum of topics belonging to the field of crystal plasticity is represented, including both numerical simulations and experimental works. By taking into account the investigated materials, the papers can be assigned to the following thematic groups: Steels and iron-based alloys; Non-ferrous alloys with fcc- (Ni- and Cu-based), or hcp crystal structure (Mg- and Ti-based). Other examples include Zirconium, Bi-Sn alloy, or polycarbonate resins; Multicomponent and high-entropy alloys; General theoretical studies on crystal plasticity. Specifically, the reprint should be interesting for students of material science and engineering, Ph.D. candidates, and researchers dealing with various theoretical and practical aspects of plastic deformation in crystalline materials.

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Keywords

  • 21-4N valve steel
  • 3D FEM
  • Aluminum
  • analysis of variance
  • anisotropic materials
  • anisotropy
  • Bi–Sn alloy
  • brass-type shear band
  • close-packed phases
  • cold rolling
  • cold-rolling texture
  • constitutive law
  • constitutive modeling
  • constitutive relation
  • cooling rate
  • coplanar slip
  • copper alloy
  • corotational derivative
  • coupled temperature-displacement
  • coupling damage
  • Crystal plasticity
  • crystallographic orientation
  • crystallographic plasticity
  • Cu–Zn alloy
  • DAMASK
  • deformation behavior
  • different grades
  • Diffusion
  • dislocations
  • dual-phase steel
  • dynamic strain aging
  • ECAP
  • FCC phase
  • FeC alloy
  • FeNiCoAlTi
  • FeNiCoAlTiNb
  • finite element simulations
  • first principles
  • forming limit diagrams
  • fusion zone
  • geometrically necessary dislocation
  • Goss
  • gradient materials
  • Grain Boundary
  • heat input
  • high angular resolution electron back scatter diffraction
  • high purity titanium
  • Johnson–Cook model
  • Keeler-Brazier approach
  • large strain
  • laser weld
  • liquidus projection
  • low alloy steel
  • low-cycle fatigue
  • M-K approach
  • magnesium
  • Martensitic transformation
  • Mathematics & science
  • mechanical alloying
  • mechanical alloying (MA)
  • Mechanical properties
  • mechanical twinning
  • meso scale
  • Mg-based alloy
  • microhardness
  • Microstructure
  • molecular dynamic
  • motion decomposition
  • Multi-scale modeling
  • multilevel models
  • n/a
  • Nano (Ti,Cr)C powder
  • nanostructure
  • Nickel
  • nickel-based superalloy
  • nickel-free austenitic stainless steel
  • phase diagram
  • phase transition
  • Physics
  • plastic deformation
  • pole figure
  • polycrystalline Cu6Sn5
  • powder metallurgy
  • pre-damage
  • processing and parameters
  • profile analysis
  • Reference, information & interdisciplinary subjects
  • Research & information: general
  • residual stresses
  • resin pigment blends
  • rhenium
  • RSD
  • schmid factor
  • self-annealing
  • shape memory alloys
  • shape memory effect
  • simulate r egression models
  • slip
  • slip band
  • slip system modelling
  • statistically stored dislocation
  • strain homogeneity
  • strain rate
  • strain-gradient crystal plasticity
  • structural properties
  • superalloys
  • Superelasticity
  • superplasticity
  • Taylor model
  • temperature
  • tensile properties
  • thermodynamic modeling
  • Ti2AlNb alloy
  • TKD
  • transformation matrix
  • tube high-pressure shearing
  • twin volume fraction
  • Twinning
  • twin–matrix lamellae
  • ultra-thin grain-oriented silicon steel (UTGO)
  • vacuum hot pressing
  • whole powder pattern modeling
  • X-ray diffraction
  • Young’s moduli
  • zirconium
  • {100}
  • γ′- and γ-phases

Links

DOI: 10.3390/books978-3-0365-6288-9

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