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Argus MeshMaker - Finite difference and finite element pre- and post-processors for the numerical modeler Update Link / Bad Link? 
Argus MeshMaker is a general-purpose finite element and finite difference pre- and post-processor for engineers and scientists who use numerical models to solve geosciences-related problems such as those encountered in groundwater modeling, petroleum reservoir engineering, physical oceanography, climate modeling, and mining.
Submitted Apr 05, 2000
Updated Mar 05, 2004
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CALFEM Update Link / Bad Link? 
CALFEM is an interactive computer program for teaching the finite element method (FEM). The name CALFEM is an abbreviation of "Computer Aided Learning of the Finite Element Method". The program can be used for different types of structural mechanics problems and field problems.
Submitted Jul 10, 1999
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CUBIT Mesh Generation Toolkit Update Link / Bad Link? 
CUBIT is a solid-modeler based preprocessor that meshes volumes and surfaces for finite element analysis. Mesh generation algorithms include quadrialteral and triangular paving, mapping, multi-sweeping, tet meshing, and various special-purpose primitives. Our smoothing algorithms are state of the art and are incorporated into volume sweeping. CUBIT contains many algorithms for controlling and automating much of the meshing process, such as automatic scheme selection, interval matching, sweep grouping, and sweep verification. One of CUBIT's strengths is its geometry module, for changing the underlying solid model into the model you wish to mesh. This is now available in library form to other applications, e.g. adaptivity, as the separate "Common Geometry Module" CGM.
Submitted Jan 16, 2001
Updated
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DYNROT - Finite element code for rotordynamic analysis Update Link / Bad Link? 
DYNROT is a toolbox based on the finite element method designed to perform a complete study of the dynamic behavior of rotors. Although initially designed to solve the basic linear rotordynamic problems (Campbell diagram for damped or undamped systems, unbalance response, critical speeds, static loading), it can be used for the study of nonstationary motions of nonlinear rotating systems and for the torsional analysis of rotors and reciprocating machines. DYNROT uses complex coordinates, both for isotropic and nonsymmetric systems. Complex arithmetic is used extensively in all parts of the subsequent analysis. The modal approach is used in some of the solution routines to increase the efficiency of the computation or to compute an equivalent viscous damping in the cases where hysteretic damping cannot be entered directly into the model. Application Areas: Aerospace; Energy systems; Gas and steam turbines; Global Positioning Systems; Materials research; System identification.
Submitted Apr 07, 2000
Updated Mar 16, 2004
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Eric's MATLAB Stuff Update Link / Bad Link? 
Stuff here includes MATLAB code for truss and frame structural analysis, and code to rotate any MATLAB plot using the mouse. Actually, the frame and truss analysis are all from the same set of code, cause it's pretty much the same thing. There are three structure definitions, a simple truss, a simple frame, and a not so simple bicycle wheel. Warning! Some of the code is commented better than other parts.
Submitted Jul 10, 1999
Updated
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FEMLAB - Multiphysics Update Link / Bad Link? 
FEMLAB® supplies a highly sought-after innovative technology that brings the power of numerical analysis into your multiphysics applications through an interactive user environment. Some of the main features of FEMLAB include easy modeling, improvising and customizing, and the simplicity with which non-standard computations can be run. FEMLAB is a tool for exploration and quick insight into physics, models, and parameters. FEMLAB offers a Graphical User Interface (GUI) and CAD tools, as well as strong visualization capabilities. FEMLAB embodies the power of MATLAB®, its agile toolboxes and Simulink® in the form of a powerful modular package.
Submitted Jul 10, 1999
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FEMLAB Demos Update Link / Bad Link? 
Live FEMLAB demos: A Rectangular Wave Guide, Flow of Paper Pulp, A Belt Pulley and Thermo-Electrical Effects.
Submitted Jul 10, 1999
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Structural Dynamics Toolbox: Modal analysis and finite element modeling with MATLAB Update Link / Bad Link? 
The Structural Dynamics Toolbox enhances MATLAB core capabilities in controls and signal processing through extensions linked to - Experimental modal analysis, - General 3-D finite element modeling, - Test/analysis correlation.
Submitted Jul 01, 1999
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sturm.m Update Link / Bad Link? 
Solve the Sturm-Liouville equation: d( F*dY/dX )/dX - G*Y = R using linear finite elements.
Submitted Aug 05, 1999
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The Finite Element Method Using MATLAB / Young W. Kwon Update Link / Bad Link? 
The finite element method (FEM) has become one of the most important and useful tools for scientists and engineers. This book features the use of MATLAB to present introductory and advanced finite element theories and formulations. MATLAB is especially convenient to write and understand finite element analysis programs because a MATLAB program manipulates matrices and vectors with ease.
Submitted Jul 26, 1999
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THERBOX - Dynamic simulation and analysis of heat transfer in closed environments Update Link / Bad Link? 
THERBOX performs dynamic simulations of heat exchanges in closed environments. As an agile tool that stands halfway between complex FEM codes and highly simplified analytical models, THERBOX is well-suited for fast preliminary calculations. Conduction, convection, and radiation are taken into account, as is masking due to an object's shape and placement when computing mutual radiation form factors. THERBOX uses simple form objects that can be automatically meshed and interactively placed in the environment. Boundary conditions, such as surface air velocities and temperatures, are stated through simple time-dependent functions.
Submitted Apr 07, 2000
Updated
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FEMLAB®- Multiphysics in MATLAB Update Link / Bad Link? 
FEMLAB is a powerful interactive environment for modeling and solving scientific and engineering problems involving partial differential equations. Using FEMLAB, you can build many models by means of the physical quantities involved, rather than the equations describing them. Models developed in FEMLAB can be saved as MATLAB programs for parametric studies or iterative designs.
Submitted Apr 05, 2000
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