ABSTRACT

Finite element analysis (FEA) has become the dominant tool of analysis in many industrial fields of engineering, particularly in mechanical and aerospace engineering. This process requires significant computational work divided into several distinct phases. What Every Engineer Should Know About Computational Techniques of Finite Element Analysis of

part |1 pages

I Numerical Model Generation

chapter 1|28 pages

Finite Element Analysis

chapter 2|28 pages

Finite Element Model Generation

chapter 3|16 pages

Modeling of Physical Phenomena

chapter 4|18 pages

Constraints and Boundary Conditions

chapter 6|11 pages

Coupling Physical Phenomena

part |1 pages

Part II: Computational Reduction Techniques

chapter 7|22 pages

Matrix Factorization and Linear Systems

chapter 8|18 pages

Static Condensation

chapter 9|24 pages

Real Spectral Computations

chapter 10|18 pages

Complex Spectral Computations

chapter 11|16 pages

Dynamic Reduction

chapter 12|17 pages

Component Mode Synthesis

part |1 pages

Part III: Engineering Solution Computations

chapter 13|14 pages

Modal Solution Technique

chapter 14|12 pages

Transient Response Analysis

chapter 15|10 pages

Frequency Domain Analysis

chapter 16|16 pages

Nonlinear Analysis

chapter 17|20 pages

Sensitivity and Optimization

chapter 18|11 pages

Engineering Result Computations