Area: |
Department of Mechanical Engineering |
Credits: |
25.0 |
Contact Hours: |
4.0 |
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** The tuition pattern below provides details of the types of classes and their duration. This is to be used as a guide only. For more precise information please check your unit outline. ** |
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Lecture: |
1 x 2 Hours Weekly |
Tutorial: |
1 x 1 Hours Weekly |
Laboratory: |
1 x 1 Hours Weekly |
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Syllabus: |
Direct method - stiffness matrices for spring element, tensile element and torsion element. Element assembly and solution for unknowns. Influence of node numbers on element assembly. Direct method - stiffness matrix for a simple plane beam element. Formulation of stiffness matrices using Rayleigh-Ritz method. Interpolation function (or shape function) formulation. Lagrange's interpolation formula and Hermitian interpolation formula. Finite Element Formulation for an Euler beam element. Higher order beam elements. Introduction to ANSYS, a general purpose FE package. Mass matrix, mass condensation and Guyan reduction. Finite elements in vibrations. Isoparametric elements. Finite elements for plates. Gauss quadrature. Symmetry and substructures. |
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** To ensure that the most up-to-date information about unit references, texts and outcomes appears, they will be provided in your unit outline prior to commencement. ** |
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Field of Education: |
30700 Mechanical and Industrial Engineering and Technology (Narrow Grouping) |
HECS Band (if applicable): |
2 |
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Extent to which this unit or thesis utilises online information: |
Informational |
Result Type: |
Grade/Mark |
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Availability |
Year |
Location |
Period |
Internal |
Area External |
Central External |
2004 |
Bentley Campus |
Semester 1 |
Y |
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Area External |
refers to external course/units run by the School or Department, offered online or through Web CT, or offered by research. |
Central External | refers to external course/units run through the Curtin Bentley-based Distance Education Area |
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