Computational multiscale modeling of fluids and solids : theory and applications

Computational multiscale modeling of fluids and solids : theory and applications / Martin Oliver Steinhauser.

The expanded 3rd edition of this established textbook offers an updated overview and review of the computational physics techniques used in materials modelling over different length and time scales. It describes in detail the theory and application of some of the most important methods used to simul...

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Bibliographic Details
Main Author: Steinhauser, M. O. (Martin Oliver)
Format: eBook
Language:English
Published: Cham, Switzerland : Springer, 2022.
Edition:Third edition.
Series:Graduate texts in physics,
Subjects:
Fluids > Mathematical models.
Solids > Mathematical models.
Multiscale modeling.
Fluids > Mathematical models
Multiscale modeling
Solids > Mathematical models
Online Access:Click for online access

MARC

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505 0 |a Introduction to Multiscale Modeling -- Multiscale Computational Materials Science -- Mathematical and Physical Prerequisites -- Fundamentals of Numerical Simulation -- Computational Methods on Electronic/Atomistic Scale. 
520 |a The expanded 3rd edition of this established textbook offers an updated overview and review of the computational physics techniques used in materials modelling over different length and time scales. It describes in detail the theory and application of some of the most important methods used to simulate materials across the various levels of spatial and temporal resolution. Quantum mechanical methods such as the Hartree-Fock approximation for solving the Schrödinger equation at the smallest spatial resolution are discussed as well as the Molecular Dynamics and Monte-Carlo methods on the micro- and meso-scale up to macroscopic methods used predominantly in the Engineering world such as Finite Elements (FE) or Smoothed Particle Hydrodynamics (SPH). Extensively updated throughout, this new edition includes additional sections on polymer theory, statistical physics and continuum theory, the latter being the basis of FE methods and SPH. Each chapter now first provides an overview of the key topics covered, with a new "key points" section at the end. The book is aimed at beginning or advanced graduate students who want to enter the field of computational science on multi-scales. It provides an in-depth overview of the basic physical, mathematical and numerical principles for modelling solids and fluids on the micro-, meso-, and macro-scale. With a set of exercises, selected solutions and several case studies, it is a suitable book for students in physics, engineering, and materials science, and a practical reference resource for those already using materials modelling and computational methods in their research. 
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