Finite Element Method

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Kod Kursus

Course Code

KKKM4373

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Nama Kursus

Course Title

Kaedah Unsur Terhingga

Finite Element Method

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Taraf Kursus

Course Definition

Jabatan (Elektif)

Department (Elective)

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Sinopsis

Synopsis

Kursus bertujuan untuk memberi pengetahuan, kefahaman dan bebolehan pelajar menganalisis sesuatu masalah dengan mengunakan kaedah unsur terhingga.  Kursus ini meliputi tajuk-tajuk seperti pengenalan dan sejarah ringkas, bentuk unsur dan terminologi, tegasan dan keseimbangan, keadaan sempadan, pendekatan terus dan pendekatan matematik.  Permodelan unsur tehingga, fungsi bentuk lelurus, pendekatan tenaga potensi, pendekatan Galerkin, pembentukan matriks kekukuhan dan rumus unsur terhingga, fungsi bentuk kuadratik. Masalah 2-D simetri sepaksi. Unsur separametrik dan integrasi berangka dengan unsur tertib lebih tinggi. Masalah kerangka 2-D dan 3-D dengan kaedah unsur terhingga. Pemindahan haba mantap, kilasan, masalah aliran. Formulasi unsur terhingga, matriks jisim unsur, penilaian nilai eigen dan vektor eigen mengunakan kaedah lelaran dan Jacobi. Projek reka bentuk akan menggunakan perisian kaedah unsur terhingga.

 

The objective of this course is to develop engineering students to understand and be able to analyse engineering problems using finite element methods. This course covers topics such as Fundamental Concepts, 1-Dimensional Problems, 2-Dimensional Problems including Axisymmetric problems, Isoparametric elements and numerical integration, Beams and Frames, 3-Dimensional Problems, Scalar Field Problems and Dynamic consideration,  This course integrates theoretical and practical finite element methods to solve engineering problems. Finally, engineering projects will be given using finite element packages.

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Pra-Keperluan (jika ada)

Pre-requisite (if any):

 

KKKM2344 Mekanik Bahan

KKKM2344 Mechanic of Materials

KKKM3934 Reka Bentuk Komponen Mesin

KKKM3934 Design of Machine Components

KKKM3014 Pengiraan Berangka

KKKM3014 Numerical Methods

 

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Asas Bacaan

References

 

Chandrupatla, T.R. & Belegundu, A.D., 2003, Introduction to Finite Elements in Engineering, 3rd Edition, Prentice Hall International.

Zienkiewicz, O.C. & Taylor, R.L. The Finite Element Methods, Volume I (2005) & II (1991) 6th Edition. Mc Graw Hill, New York.

Cook, R.D., Malkus D.S. & Plesha, M.E., 2001, Concepts and Applications of Finite Element Analysis, 4th Edition, John Wiley & Sons, New York.

Buchanan, G.R., 2010, Theory and Problems of Finite Element Analysis, Schaum's Outline Series, Mc Graw Hill, New York.

Huebner, K.H., Thornton, E.A. & Byrom, T.G., 2001, The Finite Element Method for Engineers, 3rd Edition, John Wiley & Sons, New York.

 

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Resources (Excel Files)

Beam

FEM1D

Frame2D

Frame3D

Gauss

GenEigen

Heat1D

Heat2D

Invitr

Jacobi

Meshgen

Tetra3D

Truss2D