Gennadiy P. Nikishkov. visualization of finite element models and results with Java 3D™. The step-by-step presentation includes algorithm programming and code explanation at each point

Gennadiy P. 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 step-by-step presentation includes algorithm programming and code explanation at each point.

Programming Finite Elements in Java ™ teaches the reader how to programme the algorithms of the finite element method (FEM) in Java ™. The compact, simple code helps the student to read the algorithms, to understand them and thus to be able to refine them. Scientists and engineers who are familiar with FEM techniques can benefit from the book's discussion of object-oriented implementation. this book would also be highly valuable for computer scientists who want to learn about computational science and engineering and the FE.

All of the main aspects of finite element techniques are considered: finite element solution; generation of finite elemen Programming Finite Elements in Java teaches the reader how to programme the algorithms of the finite element method (FEM) in Java. 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.

Programming Finite Elements in Java teaches the reader how to programme the algorithms of the finite element method (FEM) in Java Author. Gennadiy P.

Programming Finite Elements in Java teaches the reader how to programme the algorithms of the finite element method (FEM) in Java. 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 3. he step-by-step presentation includes algorithm programming and code explanation at each point.

Programming Finite Elements in Java™. This chapter opens the book part about generation of finite element meshes. The general approach to mesh generation is based on the block decomposition method. Creation of the finite element processor, a JavaTM program that solves two- and three-dimensional solid mechanics problems, is discussed. A general finite element solution procedure and class structure of Java program Jfem are introduced. The user divides a solution domain into multiple blocks, each of which is suitable for the local meshing process.

Автор: Nikishkov Название: Programming finite elements in java Издательство: Springer .

Programming Finite Elements in Java(TM).

Finite Elements in Java.

Programming finite elements in JavaTM. Springer Science & Business Media, 2010. Comparison of C and Java performance in finite element computations. GP Nikishkov, YG Nikishkov, S . Computers and Structures 81, 20401-2408, 2003. Finite element mesh generation for composites with ply waviness based on X-ray computed tomography. G Nikishkov, Y Nikishkov, A Makeev. Advances in Engineering Software 58, 35-44, 2013.

Programming Finite Elements in Java™ teaches the reader how to programme the algorithms of the finite element method (FEM) in Java™. The compact, simple code helps the student to read the algorithms, to understand them and thus to be able to refine them. 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.

Categories
Discussed ebooks