This text presents a highly original treatment of the fundamentals of FEM, developed using computer algebra, based on undergraduate-level engineering mathematics and the mechanics of solids. The book is divided into two distinct parts of nine chapters and seven appendices. The first chapter reviews the energy concepts in structural mechanics with bar problems, which is continued in the next chapter for truss analysis using Mathematica programs. The Courant and Clough triangular elements for scalar potentials and linear elasticity are covered in chapters three and four, followed by four-node elements. Chapters five and six describe Taig’s isoparametric interpolants and Iron’s patch test. Rayleigh vector modes, which satisfy point-wise equilibrium, are elaborated on in chapter seven along with successful patch tests in the physical (x,y) Cartesian frame. Chapter eight explains point-wise incompressibility and employs (Moore-Penrose) inversion of rectangular matrices. The finalchapter analyzes patch-tests in all directions and introduces five-node elements for linear stresses. Curved boundaries and higher order stresses are addressed in closed algebraic form. Appendices give a short introduction to Mathematica, followed by truss analysis using symbolic codes that could be used in all FEM problems to assemble element matrices and solve for all unknowns. All Mathematica codes for theoretical formulations and graphics are included with extensive numerical examples.
The textbook is suitable for a two semester undergraduate or a one semester graduate course
Suitable for engineering, applied mathematics and physics students
Modeled for Civil, mechanical, bio-engineering and engineering mechanics disciplines
Self-study, in styling the book, encourages researchers towards innovative and independent thinking
Synthesizes numerics and graphics through symbolic computation
Mathematica® routines, for transformation and closed form integration on arbitrary convex, concave and curved regions, can be easily integrated in any C++ code for production runs
Also, appropriate for animation and augmented reality industries for color distribution and morphology
Gautam Dasgupta
Closed-form computation Generalized Barycentric coordinates Continuum mechanics Differential equations/problem solutions FEM Mathematica Fluid mechanics and Nano mechanics Linear algebra, progaming concepts Bio-morphometry Rayleigh modes Richard Courant Scalar problems Steady temperature distribution Stochastic FE Structural Engineering