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Nikishkov, Gennadiy.
Programming Finite Elements in Java™ [electronic resource] / by Gennadiy Nikishkov. - XVI, 402p. 72 illus., 5 illus. in color. online resource.
Finite Element Formulation -- Finite Element Equations for Heat Transfer -- FEM for Solid Mechanics Problems -- Finite Element Program -- Finite Element Solution -- Finite Element Processor -- Finite Element Model -- Elastic Material -- Elements -- Numerical Integration -- Two-dimensional Isoparametric Elements -- Implementation of Two-dimensional Quadratic Element -- Three-dimensional Isoparametric Elements -- Implementation of Three-dimensional Quadratic Element -- Assembly and Solution -- Direct Equation Solver -- Iterative Equation Solver -- Load Data and Load Vector Assembly -- Stress Increment, Residual Vector and Results -- Elastic–Plastic Problems -- Mesh Generation -- Mesh Generator -- Two-dimensional Mesh Generators -- Generation of Three-dimensional Meshes by Sweeping -- Pasting Mesh Blocks -- Mesh Transformations -- Copying, Writing and Reading Mesh Blocks -- Visualization of Meshes and Results -- to Java 3D™ -- Visualizer -- Visualization Scene Graph -- Surface Geometry -- Edge and Face Subdivision -- Surface Subdivision -- Results Field, Color Scale, Interaction and Lights.
The finite element method (FEM) is a computational technique for solving problems which are described by partial differential equations or which can be formulated as functional minimization. The FEM is commonly used in the design and development of products, especially where structural analysis is involved. The simple object model of the Java™ programming language lends itself to efficient implementation of FEM analysis. Programming Finite Elements in Java™ teaches the reader FEM algorithms and their programming in Java™ through a single finite element Java™ program. The compact, simple code makes it straightforward to understand the algorithms and their implementation, thereby encouraging developers to extend the code to their own tasks. All of the main aspects of finite element techniques are considered: • finite element solution; • generation of finite element meshes; and • visualization of finite element models and results with Java 3D™. The step-by-step presentation includes algorithm programming and code explanation at each point. Problems and exercises are provided for each chapter, with Java™ source code and problem data sets available from http://extras.springer.com/2010/978-1-84882-971-8. Graduate students using the FEM will find the simple but detailed object-oriented programming methods presented in this textbook to be of great assistance in understanding the FEM, including mesh generation and visualization. Programming Finite Elements in Java™ will also be of interest to senior undergraduates doing special studies encompassing the FEM. Researchers and practicing engineers already familiar with the FEM but seeking an alternative approach will find this book readily suited to self study.
9781848829725
Engineering.
Computer science.
Computer science--Mathematics.
Mechanics, applied.
Engineering.
Theoretical and Applied Mechanics.
Programming Techniques.
Computational Mathematics and Numerical Analysis.
620.1
Programming Finite Elements in Java™ [electronic resource] / by Gennadiy Nikishkov. - XVI, 402p. 72 illus., 5 illus. in color. online resource.
Finite Element Formulation -- Finite Element Equations for Heat Transfer -- FEM for Solid Mechanics Problems -- Finite Element Program -- Finite Element Solution -- Finite Element Processor -- Finite Element Model -- Elastic Material -- Elements -- Numerical Integration -- Two-dimensional Isoparametric Elements -- Implementation of Two-dimensional Quadratic Element -- Three-dimensional Isoparametric Elements -- Implementation of Three-dimensional Quadratic Element -- Assembly and Solution -- Direct Equation Solver -- Iterative Equation Solver -- Load Data and Load Vector Assembly -- Stress Increment, Residual Vector and Results -- Elastic–Plastic Problems -- Mesh Generation -- Mesh Generator -- Two-dimensional Mesh Generators -- Generation of Three-dimensional Meshes by Sweeping -- Pasting Mesh Blocks -- Mesh Transformations -- Copying, Writing and Reading Mesh Blocks -- Visualization of Meshes and Results -- to Java 3D™ -- Visualizer -- Visualization Scene Graph -- Surface Geometry -- Edge and Face Subdivision -- Surface Subdivision -- Results Field, Color Scale, Interaction and Lights.
The finite element method (FEM) is a computational technique for solving problems which are described by partial differential equations or which can be formulated as functional minimization. The FEM is commonly used in the design and development of products, especially where structural analysis is involved. The simple object model of the Java™ programming language lends itself to efficient implementation of FEM analysis. Programming Finite Elements in Java™ teaches the reader FEM algorithms and their programming in Java™ through a single finite element Java™ program. The compact, simple code makes it straightforward to understand the algorithms and their implementation, thereby encouraging developers to extend the code to their own tasks. All of the main aspects of finite element techniques are considered: • finite element solution; • generation of finite element meshes; and • visualization of finite element models and results with Java 3D™. The step-by-step presentation includes algorithm programming and code explanation at each point. Problems and exercises are provided for each chapter, with Java™ source code and problem data sets available from http://extras.springer.com/2010/978-1-84882-971-8. Graduate students using the FEM will find the simple but detailed object-oriented programming methods presented in this textbook to be of great assistance in understanding the FEM, including mesh generation and visualization. Programming Finite Elements in Java™ will also be of interest to senior undergraduates doing special studies encompassing the FEM. Researchers and practicing engineers already familiar with the FEM but seeking an alternative approach will find this book readily suited to self study.
9781848829725
Engineering.
Computer science.
Computer science--Mathematics.
Mechanics, applied.
Engineering.
Theoretical and Applied Mechanics.
Programming Techniques.
Computational Mathematics and Numerical Analysis.
620.1