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ENGINEERING FACULTY / MECHATRONICS ENGINEERING / MEK4029 - FINITE ELEMENTS METHOD
GENERAL INFORMATION ABOUT THE COURSE
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Course Title
Theoretical
Practical
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E Mail
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Course Objective
To inform the basics of finite element method, applications in engineering. Apllying sustainable design principles
Brief Content of the Course
The system analysis (manually). Variation and weighted residue method. The Ritz and Rayleigh-Ritz method. Application of finite element method to Rayleigh-Ritz and Galerkin methods. General approach to structural analysis. Minimum potential energy and virtual displacement method. Matrix of shape functions. Characteristic properties of the elements. Parameter functions. Minimization criteria. C type continuous shape functions. One, two and three dimensional elements. Linear symmetric elements. Two dimensional stress analysis. Line stress and plane strain. Left element stiffness and loading matrices. Example of a plane stress. Rotational symmetric and 3 dimensional stress analysis. Beam and plane frame elements. Using sub system. High-order shape functions of C ° continuous elements and its derivation. Continuous shape functions of C1 type and its derivation. Strategies for the sustainability of the useage of the knowledge acquired after this course. Curvilinear isoparametric elements and numerical integration. Plate finite elements for fine plates in the effect of taste. A detailed numeric application. Apllying sustainable design principles.
Prerequisites
Course Objectives
Course Objectives
1
Understanding the basic principles of the finite element method
2
Understanding the methods used in the structural engineering of the finite element method
3
Understanding of minimum potential energy principle and virtual displacement method
4
Understanding of stress analysis with finite element method
5
Understanding of form function, parameter function and convergence criteria
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Course Category
Course Category
Percentage
Mathematics and Basic Sciences
Basic Vocational Courses
Expertise /Field Courses