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Multiscale Simulation of Composite Structures

Multiscale Simulation of Composite Structures

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Composites can be engineered to exhibit high strength, high stiffness, and high toughness. Composite structures have increasingly been used in various engineering applications. In recent decades, most fundamentals of science have expanded in length by many orders of magnitude. Nowadays, one of the primary goals of science and technology seems to be to develop reliable methods for linking the physical phenomena that occur over multiple length scales, particularly from a nano-/microscale to a macroscale. To engineer composites for high performance and to design advanced structures, the relationship between material nano-/microstructures and their macroscopic properties must be established to accurately predict their mechanical performance and failure. Multiscale simulation is a tool that enables studying and comprehending complex systems and phenomena that would otherwise be too expensive or dangerous, or even impossible, to study by direct experimentation and, thus, to achieve this goal.This reprint assembles high-quality chapters that advance the field of the multiscale simulation of composite structures, through the application of any modern computational and/or analytical methods alone or in conjunction with experimental techniques, for damage assessment or mechanical analysis and prediction.

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Keywords

  • adaptive neuro-fuzzy inference system
  • approximate reanalysis
  • aramid
  • axial capacity prediction
  • Biology, Life Sciences
  • bone-shaped
  • braided composites
  • buckling capacity
  • carbon fiber
  • circular opening steel beams
  • cold-formed tube
  • composite beam
  • composite steel plate shear wall
  • composite structures
  • computational techniques
  • crack width
  • damage assessment
  • damage evolution
  • deflection
  • Ductility
  • Economics, finance, business & management
  • energy absorption
  • feedforward neural network
  • Finite element
  • finite element analysis
  • Finite element method
  • Finite Element Model
  • Finite elements
  • Fisheries & related industries
  • flexural strength
  • Fullerene
  • Graphene
  • homogenization
  • hybrid machine learning
  • hybrid matrix
  • hysteresis curves
  • impact
  • Industry & industrial studies
  • invasive weed optimization
  • Mathematics & science
  • MATLAB
  • mechanical analysis
  • mesoscale model
  • Microstructure
  • Molecular Dynamics
  • multiscale
  • multiscale simulation
  • nanocomposite
  • nanotube
  • notched specimen
  • on-the-fly construction
  • particle swarm parameters
  • PMMA
  • POD
  • polymer
  • Primary industries
  • rectangular CFST columns
  • recycled concrete
  • reduced basis
  • reduced order models
  • Reference, information & interdisciplinary subjects
  • Research & information: general
  • static behavior
  • stiffened CFST beam
  • stress-strain
  • studs
  • topology optimization
  • vibrations

Links

DOI: 10.3390/books978-3-0365-6542-2

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