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Title Multiphysics modeling : numerical methods and engineering applications / edited by Qun Zhang, Song Cen.

Publication Info.

Amsterdam : Academic Press, 2015.

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Available to Pittsburg State University patrons only.

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Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Description	1 online resource : illustrations
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
Series	Tsinghua University Press computational mechanics series
Note	Preface>Chapter 1 The Physics Models>Chapter 2 Physics Coupling Phenomena and Formulations>Chapter 3 The Coupling Methods>Chapter 4 The Nonstructural Physics with Moving Boundary>Chapter 5 Stabilization Schemes for the Highly Nonlinear Problems>Chapter 6 Coupling Simulation for Rotating Machines>Chapter 7 High Performance Computing for Multiphysics Problem>Chapter 8 General Multiphysics Study Cases>Chapter 9 Multiphysics Applications in Automotive Engineering>Chapter 10 Computational Fluid Dynamic (CFD) in Aerospace Field and CFD Based Multidisciplinary>Chapter 11 Multiphysics Simulation of MEMS>Chapter 12 Bidirectional Multiphysics Simulation of Turbine Machinery>Chapter 13 Multi-physics Modeling for Biomechanical Problems>Chapter 14 Other Multi-physics Applications>Chapter 15 Code Implementation of Multiphysics Modeling.
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Contents	Cover; Title Page; Copyright Page; Contents; Preface; Acknowledgments; 1 -- The physics models; 1.1 -- Heat flow fundamentals; 1.1.1 -- Basic equations; 1.1.2 -- Boundary conditions; 1.1.3 -- Weak forms of the thermal equation; 1.1.4 -- The shape functions for FEM; 1.1.5 -- Formulations in matrix form; 1.1.6 -- The nonlinearity in thermal analysis; 1.1.6.1 -- Material properties; 1.1.6.2 -- Convection term from computational fluid dynamics (CFD) coupling; 1.1.7 -- Stabilization method for convection-dominant transport equations; 1.1.8 -- Penalty-based thermal contact.
	1.1.8.1 -- The matrix equation for thermal contact1.2 -- Fluid dynamics; 1.2.1 -- Basic equations for fluid flow; 1.2.2 -- Boundary and initial conditions for fluid flow; 1.2.3 -- The constitutive equation for fluid flow; 1.2.4 -- The weak forms; 1.2.4.1 -- Galerkin formulation for N-S equations; 1.2.4.1.1 -- The shape functions; 1.2.5 -- Finite element equations; 1.2.6 -- The nonlinearity and numerical challenging in CFD; 1.2.7 -- The stabilization methods; 1.2.7.1 -- SUPG and PSPG methods; 1.2.7.2 -- Discontinuity capturing operator (Tezduyard, 2012).
	1.2.7.3 -- Underrelaxation method and solution capping1.2.8 -- Turbulence model in CFD; 1.2.8.1 -- k-Epsilon turbulence model; 1.2.8.1.1 -- Basic equations for the k-epsilon model; 1.2.8.1.2 -- Equations in weak form; 1.2.8.1.3 -- Boundary conditions; 1.2.8.1.4 -- Equations in matrix form; 1.2.8.2 -- Wilcox k-omega turbulence model; 1.2.8.2.1 -- Basic equations for k-omega model; 1.2.8.2.2 -- Boundary conditions; 1.2.8.2.3 -- Weak forms of k-omega model; 1.2.8.2.4 -- Equations in matrix form; 1.2.8.3 -- Procedure for solving the k-epsilon/k-omega turbulence model; 1.2.8.4 -- Large eddy simulation.
	1.2.9 -- The general transport equations1.2.9.1 -- The governing equation of the transport equation; 1.2.9.2 -- The weak form of advection diffusion equation; 1.2.9.3 -- The SUPG stabilization for the advection-dominated advection-diffusion equation; 1.2.9.3.1 -- Central differencing approach; 1.2.9.3.2 -- Upwind method for convection-dominant transport equations (first-order accuracy); 1.2.9.4 -- Discontinuity capturing operator for the advection-diffusion equation; 1.3 -- Structural mechanics; 1.3.1 -- Governing equations for structure analysis; 1.3.2 -- The equation in matrix form.
	1.3.2.1 -- The weak form by virtual work (Bathe, 2006)1.3.2.1.1 -- The solution space and shape function; 1.3.2.2 -- The equations in matrix form; 1.3.3 -- The general nonlinearity in structural dynamics; 1.3.3.1 -- Nonlinear material properties; 1.3.3.2 -- Geometrical nonlinearity; 1.3.4 -- Incompressible hyperelastic material for the rubber (Watanabe, 1995); 1.3.4.1 -- High Mooney-Rivlin model; 1.3.4.2 -- Mixed interpolation for incompressible hyperelasticity; 1.3.4.2.1 -- Finite element equation; 1.3.5 -- Formulations for thin structure with large deformation.
	1.3.5.1 -- Basic equations for thin shell structure.
Subject	Mathematical physics.
	Physique mathématique.
	Mathematical physics
Added Author	Zhang, Qun, editor.
	Cen, Song, 1972- editor.
Other Form:	Print version 9780124077096
ISBN	9780124077379 (PDF ebook)
	0124077374 (PDF ebook)
	9780124077096 (hbk.)
	0124077099
Standard No.	AU@ 000056976900
	CHBIS 010796236
	CHNEW 001013487
	CHVBK 403953987
	UKMGB 017487851