Course syllabus CADAE - CAE (Computer-aided engineering) (FFWT - SS 2018/2019)


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Course title: CAE (Computer-aided engineering)
Semester: SS 2018/2019
Course supervisor: Ing. Jan Tippner, Ph.D.
Supervising department: Department of Wood Science and Technology (FFWT)
Time allowance: full-time, 1/2 (hours of lectures per week / hours of seminars per week)
part-time, 20/0 (lectures per period / seminars per period)
Prerequisites for registration: none
Type of study: usual
Form of teaching: lecture, seminar
Mode of completion and credits: Fulfillment of requirements (3 credits)
 
Course objective:
Acquiring of knowledge in the field of CAE (Computer Aided Engineering) with focus on tools based on a numerical analysis and relations of the tools to other parts of the CAE. Introduction to: software, methods, requirements to CAD models for CAE purposes, basic procedures of analyses, typical procedures of numerical model building in various engineering analyses.
 
Course content:
1.Introduction to the course, basics of CAE and FEA. (allowance 0/3)
2.Modeling considerations, types of analyses, typical procedure of FEA. (allowance 0/3)
3.Environment of CAE tools based on FEM. (allowance 0/3)
4.Building of geometrical models. (allowance 0/3)
5.Discretization, meshing, element types. (allowance 0/3)
6.Physical model (allowance 0/3)
7.Solution and results interpretation. (allowance 0/3)
8.Parametric modelling, probabilistic modelling. (allowance 0/3)
9.Structural analyses. (allowance 0/3)
10.Dynamic analyses. (allowance 0/3)
11.Thermal analyses. (allowance 0/3)
12.Project consultation. (allowance 0/3)
13.Project consultation. (allowance 0/3)
14.Project defence. (allowance 0/3)
 
Teaching methods and workload (hours of workload):
Type of teaching methodDaily attendanceCombined form
Direct teaching
     practice42 h28 h
     consultation10 h15 h
     project work10 h10 h
Self-study
     preparation for regular assessment7 h12 h
     writing of seminar paper15 h19 h
Total84 h84 h
 
Key words:
Computer-aided Engineering, Finite Element Method, Computational Model
 
Course completion:
credits - in case of at least 80% attendance in excercises and approved seminary project (correct procedure of model building, correct description, layout as required in proposition)
 
Course methods: computer lab work with with lectures, seminary works, laboratory
 
Reading list:
Basic:
BATHE, K. Finite element procedures. Upper Saddle River: Prentice Hall, 1996. 1037 p. ISBN 0-13-301458-4.
CHEN, Z. The finite element method: its fundamentals and applications in engineering. Singapore: World Scientific, 326 p. ISBN 978-981-4350-57-0.
FOŘT, P. -- KLETEČKA, J. Autodesk Inventor : adaptivní modelování v průmyslové praxi. 1st ed. Brno: Computer Press, 2004. 283 p. Učebnice pro střední školy. ISBN 80-251-0389-7.
HUTTON, D V. Fundamentals of finite element analysis. Boston: McGraw-Hill, 2004. 494 p. McGraw-Hill series in mechanical engineering. ISBN 0-07-112231-1.
JANÍČEK, P. Systémové pojetí vybraných oborů pro techniky : hledání souvislostí : učební texty I. 1st ed. Brno: Akademické nakladatelství CERM, 2007. 682 p. ISBN 978-80-7204-555-61.
KOLÁŘ, V. -- NĚMEC, I. -- KANICKÝ, V. FEM - Principy a praxe metody konečných prvků. 1st ed. Praha: Computer Press, 1997. 12 p. ISBN 80-7226-021-9.
MOAVENI, S. Finite elements analysis : theory and application with ANSYS. Upper Saddle River: Prentice Hall, 1999. 527 p. ISBN 0-13-785098-0.
PETRUŠKA, J. Počítačové metody mechaniky II – Metoda konečných prvků. Brno: VUT v Brně, 2003. 88 p.
TOPPING, B H V. Advances in finite element procedures and techniques. Edinburgh: Civil-Comp, 1998. 298 p. ISBN 0-948749-56-3.
TOPPING, B H V. Advances in finite element technology. Edinburgh: Civil-Comp, 1996. 453 p. ISBN 0948749415.
TOPPING, B H V. -- KUMAR, B. Developments in analysis and design using finite element methods. Edinburgh: Civil-Comp, 1999. 282 p. ISBN 0-948749-61-X.
ZIENKIEWICZ, O. -- TAYLOR, R. The finite element method : Basic formulation and linear problems . Volume 1. 4th ed. London: McGraw-Hill, 1989. 648 p. ISBN 0-07-084174-8.
ZIENKIEWICZ, O. -- TAYLOR, R. The finite element method : Solid and fluid Mechanics, dynamics and non-linearity . Volume 2. 4th ed. Berkshire: McGraw-Hill, 1991. 807 p. ISBN 0-07-084175-6.

Study plans:
B-WI-WI Wood Technology and Timber Management, part-time form, initial academic year WS 2018/2019
C-FDSGN-FDSGN Furniture Design, full-time form, initial academic year WS 2018/2019
B-WI-WI Wood Technology and Timber Management, full-time form, initial academic year WS 2018/2019
 
Run in the period of: SS 2017/2018, SS 2016/2017, SS 2015/2016, WS 2015/2016, SS 2014/2015, SS 2013/2014   (and older)
Course tutor: Ing. David Děcký (instructor, lecturer)
Ing. Jaromír Milch, Ph.D. (instructor, lecturer)
Ing. Pavlína Suchomelová (instructor, lecturer)
Ing. Jan Tippner, Ph.D. (examiner, instructor, lecturer, supervisor, tutor)
Mgr. Ing. Miroslav Trcala, Ph.D. (instructor, lecturer)
Ing. Barbora Vojáčková, DiS. (instructor, lecturer)
Teaching language: Czech
Town: Brno


Last modification made by Ing. Alice Malá on 01/03/2019.

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