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Computational Methods of Multi-Physics Problems

Computational Methods of Multi-Physics Problems

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This book offers a collection of six papers addressing problems associated with the computational modeling of multi-field problems. Some of the proposed contributions present novel computational techniques, while other topics focus on applying state-of-the-art techniques in order to solve coupled problems in various areas including the prediction of material failure during the lithiation process, which is of major importance in batteries; efficient models for flexoelectricity, which require higher-order continuity; the prediction of composite pipes under thermomechanical conditions; material failure in rock; and computational materials design. The latter exploits nano-scale modeling in order to predict various material properties for two-dimensional materials with applications in, for example, semiconductors. In summary, this book provides a good overview of the computational modeling of different multi-field problems.

This book is included in DOAB.

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Keywords

  • buried gas distribution pipes
  • cohesive zone model
  • composite
  • electrofusion socket joints
  • Finite element method
  • first-principles
  • flexoelectricity
  • fracture analysis
  • fracture of geo-materials
  • h-BN and Graphene sheets
  • high density polyethylene (HDPE)
  • interface modeling
  • level set technique
  • lithium-ion battery
  • mechanical
  • medium density polyethylene (MDPE)
  • meshless method
  • molecular dynamics simulation
  • patch repair
  • peridynamics
  • phase field approach to fracture
  • pressure gradient effect
  • Rock mechanics
  • size effect
  • temperature variation
  • thermal
  • thermal conductance
  • thermal conductivity
  • two-dimensional semiconductor
  • Von Mises stress

Links

DOI: 10.3390/books978-3-03921-418-1

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