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This innovative approach to teaching the finite element method blends theoretical, textbook-based learning with practical application using online and video resources. This hybrid teaching package features computational software such as MATLAB®, and tutorials presenting software applications such as PTC Creo Parametric, ANSYS APDL, ANSYS Workbench and SolidWorks, complete with detailed annotations and instructions so students can confidently develop hands-on experience. Suitable for senior undergraduate and graduate level classes, students will transition seamlessly between mathematical models and practical commercial software problems,…
Balances textbook-based theory of the finite element method with in-depth exercises in code implementation and software-based analysis online to prepare students for the workplace
Beginning with fundamentals, such as the governing equations for simple structural systems, guides students to understanding how mathematics can be applied to the development of finite element formulations
MATLAB® program files provided online for many sample exercise problems, helping students to understand the finite element method without having to code from scratch
Tutorial videos with detailed annotations and instructions provide students with self-guided learning using commercial software packages, empowering them to perform sophisticated analyses and build practical experience using industry-accepted tools
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Authors
Sung W. Lee,University of Maryland, College Park
Prof. Sung W. Lee received his Ph.D. degree from the Massachusetts Institute of Technology. He is currently Professor of Aerospace Engineering at the University of Maryland where he taught courses on the finite element methods and carried out numerous sponsored researches on the finite element modeling of solids and structures. He had served on the editorial advisory boards of such international journals as Computational Mechanics, International Journal for Numerical Methods in Engineering, and Computer Modeling in Engineering and Sciences. He received a lifetime achievement award for his work on computational analysis of shell structures at the 2015 International Conference on Computational and Experimental Engineering and Sciences.
Peter W. Chung,University of Maryland, College Park
Peter W. Chung's research has been concerned mainly with the computability of interdisciplinary and multiscale problems with applications motivated primarily by his early career experiences in the US Army Research Laboratory. He is currently Professor of Mechanical Engineering at the University of Maryland. Through his time in both government and academic sectors, Professor Chung has had the privilege of conducting research as well as participating in significant policy-shaping activities including service to the Materials Genome Initiative (MGI) and the Army Materiel Command Logistics Transformation Task Force. He is recipient of the Superior Civilian Service Award, the second highest civilian award in the Department of the Army.