COMSOLMultiphysics engineering practice and theoretical simulation - multi-physics numerical analysis techniques(Chinese Edition)

 
9787121185816: COMSOLMultiphysics engineering practice and theoretical simulation - multi-physics numerical analysis techniques(Chinese Edition)

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1.

WANG GANG
ISBN 10: 7121185814 ISBN 13: 9787121185816
Nuevos paperback Cantidad: 1
Librería
liu xing
(JiangSu, JS, China)
Valoración
[?]

Descripción paperback. Estado de conservación: New. Ship out in 2 business day, And Fast shipping, Free Tracking number will be provided after the shipment.Paperback. Pub Date :2012-10-01 Pages: 200 Publisher: Publishing House of Electronics Industry title: the practice and theory of the COMSOL Multiphysics simulation: multi-physics numerical analysis techniques List Price: 49.00 yuan Author: Wang Gang Press: Electronics Industry Publishing Date: October 1. 2012 ISBN: 9.787.121.185.816 words: Page: 200 Edition: 1st Edition Binding: Paperback: Weight: 440 g edit recommend the practice and theory of the COMSOL Multiphysics engineering simulation: multi-physics numerical multiphysics simulation technology analysis technology for the majority of engineers. in layman's language to explain the finite element method and engineering problems. The book involves all aspects of practical engineering problems. including acoustics. structural mechanics. fluid mechanics. heat transfer. quality of migration. the calculation of electromagnetic field. chemical reaction engineering analysis. is a true multi-physics numerical simulation introductory guide book. The authors hope that through the practice and theory of COMSOL Multiphysics simulation: multi-physics numerical analysis techniques. allowing readers to understand the true meaning of the numerical simulation technology. as well as how these theoretical knowledge should be combined with the actual. The practice and theory of the executive summary of the COMSOL Multiphysics engineering simulation: multi-physics numerical analysis techniques introduce numerical simulation techniques. and numerical simulation techniques are combined to solve practical engineering problems and Engineering Science. The practice and theory of the COMSOL Multiphysics engineering simulation: multi-physics numerical analysis techniques proceed from the basic knowledge of mathematical equations. introduced a variety of the classic mathematical equations as well as the application. and then introduce the most widely used vector finite element method. Next combination of specific engineering problems from a single physical field simulation. the strong coupling of multi-physics field weak coupling simulation and multi-physics simulation three aspects of how abstract boils down to a reasonable mathematical model to explain the practical problems. Readers to can the system geography Qing Engineering Physics simulation ideas. understanding and habits of Engineering Physics Simulation way of thinking is the combination of physical theory and engineering practice to look at the problem. Descriptions of Contents Chapter 1 Mathematical Equations 1.1 mathematical equation 1.1.1 1.1.2 course of development of the mathematical equation 1.1.3 basic form 1.1.4 Basic concepts 1.1.5 classic partial differential equations 1.1.5.1 Wave Equation 1.1.5.2 heat conduction equation 1.1.5.3 Laplace and Poisson Equations 1.2 boundary conditions 1.2.1 Initial conditions 1.2.2 boundary conditions 1.2.3 Other boundary conditions 1.3 finite difference method commonly used algorithm 1.3.1 1.3.2 Finite Element Method 1.3. 3 finite volume method 1.4 COMSOL Multiphysics coefficient partial differential equations 1.4.2 Generalized Partial Differential Equations 1.4.3 weak solution type partial differential equations 1.5 Summary 1.6 Exercises Chapter 2 Preliminary Finite Element 2.1 finite difference method for solving PDE 1.4.1 2.3 one-dimensional finite element of the weak form of the differential equations 2.2 2.4 2.5 two-dimensional two-dimensional finite element further description of the finite element instance 2.5.1 2.5.2 2.5.3 finite element meshing solving 2.6 unit type 2.6.1 a dimensional finite element basis functions 2.6.2 2D triangular element basis functions 2.6.3 2D quadrilateral element basis functions Chapter 3 single physical field simulation 3.1 heat transfer phenomena: heat conduction 3.1.1 heat conduction equation 3.1.2 heat conduction boundary conditions 3.1.3 3.1.4 COMSOL Multi. Nº de ref. de la librería FU032334

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2.

WANG GANG . AN LIN BIAN ZHU
ISBN 10: 7121185814 ISBN 13: 9787121185816
Nuevos paperback Cantidad: 1
Librería
liu xing
(JiangSu, JS, China)
Valoración
[?]

Descripción paperback. Estado de conservación: New. Ship out in 2 business day, And Fast shipping, Free Tracking number will be provided after the shipment.Paperback. Pub Date: Unknown Pages: 200 Publisher: Publishing House of Electronics Industry List Price: 49.00 yuan CHILD: Wang Gang. Editor Publisher: Electronic Industry Press ISBN: 9787121185816 Page: 200 Edition: 1 Binding: Paperback: Printing time: 16 Published :2012-10-1 Words: 254.000 product identification: 22893264 About this book describes what is numerical simulation techniques. and Numerical Simulation Technology and Engineering Science combined to solve practical engineering problems. Book starting from the basic knowledge of mathematical equations. introduced a variety of classic mathematical equations. and applications. and then introduce the most widely used vector finite element method. Next combination of specific engineering problems from a single physical field simulation. the strong coupling of multi-physics field weak coupling simulation and multi-physics simulation three aspects of how abstract boils down to a reasonable mathematical model to explain the practical problems. Readers to can the system geography Qing Engineering Physics simulation ideas. understanding and habits of Engineering Physics Simulation way of thinking is the combination of physical theory and engineering practice to look at the problem. This book is designed for the majority of engineers. in layman's language to explain the finite element method and engineering problems multiphysics simulation technology. The book involves all aspects of practical engineering problems. including acoustics. structural mechanics. fluid mechanics. heat transfer. quality of migration. the calculation of electromagnetic field. chemical reaction engineering analysis. is a true multi-physics numerical simulation introductory guide book. The authors hope that through this book. allowing readers to understand the true meaning of the numerical simulation technology. and how these theoretical knowledge should be combined with the actual The brief 1.1 Mathematical Equations 1.2 of Chapter 1 Introduction Mathematical Equations boundary conditions 1.3 commonly used algorithm 1.4 COMSOL Multiphysics to solve PDE 1.5 Summary 1.6 Exercises Chapter 2 Preliminary one-dimensional weak form of differential equations in finite difference method for Finite Element 2.1 2.2 2.3 Finite Element 2.4 two-dimensional finite element 2.5 two-dimensional finite element simulation instance Chapter 3 single physical field of 2.6 unit type 3.1 heat transfer phenomena: thermal conductivity of 3.2 phenomenon of heat transfer: convection 3.3 heat transfer phenomena: thermal radiation 3.4 application example: Friction Stir Welding 3.5 Summary 3.6 Exercises Chapter 4 weakly coupled multi-physics problems 4.1 What is indirectly coupled multi-physics problems over 4.2 physical field weak coupling problem 4.3 micro resistance beam case solving the Law 4.4 microresistivity Beam case full coupled solution method 4.5 Chapter Summary 4.6 Exercises Chapter 5 strongly coupled multi-physics problems over 5.1 physical field strongly coupled the Overview 5.2 Materials nonlinear processing 5.3 geometric nonlinear processing 5.4 5.5 Chapter Summary 5.5 Exercises first boundary nonlinear processing the six chapters eigenvalue analysis of the 6.1 eigenvalue problem description 6.2 Basic analysis of the vibration characteristics of 6.3 eigenvalue problem of calculation of 6.4 Case Analysis Chapter 7 of the advanced features of COMSOL Multiphysics 7.1 Solutions of Higher Order Partial Differential Equations 7.2 for solving partial differential equations with integral 7.3 the multiscale coupling Simulation analysis The 7.4 Senior constraints 7.5 secondary development random parameter 7.6 to 7.7 since the custom development Editor's summary and illustrations media reviews online probation sectionsFour Satisfaction guaranteed,or money back. Nº de ref. de la librería EJ023026

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3.

WANG GANG . AN LIN
ISBN 10: 7121185814 ISBN 13: 9787121185816
Nuevos paperback Cantidad: 1
Librería
liu xing
(JiangSu, JS, China)
Valoración
[?]

Descripción paperback. Estado de conservación: New. Ship out in 2 business day, And Fast shipping, Free Tracking number will be provided after the shipment.Paperback. Pub Date: October 2012 Pages: 212 Language: Chinese in Publisher: Publishing House of Electronics Industry Practice and Theory of the COMSOL Multiphysics engineering simulation: multi-physics numerical analysis techniques introduce numerical simulation techniques. and numerical simulation techniques with engineering science combined to solve practical engineering problems. The practice and theory of the COMSOL Multiphysics engineering simulation: multi-physics numerical analysis techniques proceed from the basic knowledge of mathematical equations. introduced a variety of the classic mathematical equations as well as the application. and then introduce the most widely used vector finite element method. Next combination of specific engineering problems from a single physical field simulation. the strong coupling of multi-physics field weak coupling simulation and multi-physics simulation three aspects of how abstract boils down to a reasonable mathematical model to explain the practical problems. Readers to can the system geography Qing Engineering Physics simulation ideas. understanding and habits of Engineering Physics Simulation way of thinking is the combination of physical theory and engineering practice to look at the problem. This book is designed for the majority of engineers. in layman's language to explain the finite element method and engineering problems multiphysics simulation technology. The book involves all aspects of practical engineering problems. including acoustics. structural mechanics. fluid mechanics. heat transfer. quality of migration. the calculation of electromagnetic field. chemical reaction engineering analysis. is a true multi-physics numerical simulation introductory guide book. The authors hope that through this book. allowing readers to understand the true meaning of the numerical simulation technology. and how these theoretical knowledge should be combined with the actual Contents: Chapter 1 Mathematical Equations brief 1.1 mathematical equation 1.1.1 What is the basic form of 1.1.2 course of development of the mathematical equation 1.1.3 1.1.4 Basic concepts 1.1.5 classic 1.1.5.1 Wave Equation 1.1.5.2 heat conduction partial differential equations 1.2.2 1.2.1 initial conditions equation 1.1.5.3 Laplace equation and the Poisson equation 1.2 boundary conditions boundary conditions 1.2.3 definite conditions 1.3 common algorithms 1.3.1 finite difference method 1.3.2 Finite Element 1.3 .3 finite volume method 1.4 COMSOLMultiphysics solving PDE1.4.1 coefficient partial differential equations 1.4.2 Generalized Partial Differential Equations 1.4.3 Weak Solutions of Partial Differential Equations 1.5 Summary 1.6 Exercises Chapter 2 Preliminary finite difference method for Finite Element 2.1 2.2 2.3 one-dimensional finite element weak form of the differential equations 2.4 two-dimensional finite element 2.5 two-dimensional finite element instance 2.5.1 Description 2.5.2 divided 2.5.3 grid finite element solution of 2.6 unit type 2.6.1 one-dimensional 2.6.2 2D triangular element basis functions 2.6.3 two-dimensional quadrilateral element basis functions of the finite element basis functions Chapter 3 single physical field simulation 3.1 heat transfer phenomena: heat conduction 3.1.1 heat conduction equation 3.1.2 Thermal conduction boundary conditions 3.1.3 hot the weak form of the delivery problems 3.1.4 COMSOLMultiphysics example 3.2 heat transfer phenomena: the weak form of the convective heat convection equation changes 3.2.1 3.2.2 boundary conditions 3.2.3 the 3.2.4 COMSOLMultiphysics example 3.3 heat transfer phenomena: heat radiation 3.3. Example 3.4 1 COMSOLMultiphysics. application instance: Friction Stir welding 3.5 Summary 3.6 Exercises Chapter 4 weakly coupled multi-physics problems 4.1 What is convection-diffusion problems in the physical field weakly coupled multi-physics probl. Nº de ref. de la librería NE009054

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