Aerospace Structures 2 (AERO4360)
UNIT OF STUDY
This unit aims to teach fundamentals of modern numerical and analytical techniques for evaluating stresses, strains, deformations and strengths of representative aerospace structures. In particular the focus is on developing an understanding of: Fundamental concepts and formulations of the finite element methods for basic structural analysis; Elements for typical aerospace structures, such as beams/frames, plates/shells, and their applications and limitations; Finite element techniques for various types of problems pertinent to aerospace structures; d)and, developing hands-on experience of using selected commercial finite element analysis program.
At the end of this unit of study the following will have been covered: Introduction to Finite Element Method for modern structural and stress analysis; One-dimensional rod elements; Generalization of FEM for elasticity; Two- and three-dimensional trusses; FEA for beams and frames in 2D and 3D; Two-dimensional problems using constant strain triangular elements; The two-dimensional isoparametric elements; Plates and shells elements and their applications; FEA for axisymmetric shells and pressure vessels, shells of revolution; FEA for axisymmetric solids subjected to axi-symmetric loading; FEA for structural dynamics, eigenvalue analysis, modal response, transient response; Finite element analysis for stress stiffening and buckling of beams, plates and shells; Three-dimensional problems in stress analysis; Extensions to the element library, higher order elements, special elements; Constraints; FEA modeling strategy; FEA for heat conduction; FEA for non-linear material and geometric analysis.
Our courses that offer this unit of study
- Bachelor of Engineering Honours (Aeronautical)
- Bachelor of Engineering Honours (Biomedical)
- Bachelor of Engineering Honours (Chemical and Biomolecular)
- Bachelor of Engineering Honours (Civil)
- Bachelor of Engineering Honours (Civil) and Bachelor of Design in Architecture
- Bachelor of Engineering Honours (Electrical)
- Bachelor of Engineering Honours (Mechanical)
- Bachelor of Engineering Honours (Mechatronic)
- Bachelor of Engineering Honours (Software)
- Bachelor of Engineering Honours and Bachelor of Arts
- Bachelor of Engineering Honours and Bachelor of Commerce
- Bachelor of Engineering Honours and Bachelor of Laws
- Bachelor of Engineering Honours and Bachelor of Medical Science
- Bachelor of Engineering Honours and Bachelor of Music Studies
- Bachelor of Engineering Honours and Bachelor of Project Management
- Bachelor of Engineering Honours and Bachelor of Science
- Bachelor of Engineering Honours with Advanced Engineering
- Bachelor of Engineering Honours with Space Engineering Major
- Bachelor of Project Management and Bachelor of Arts
Further unit of study information
Lecture 2.5 hrs/week; Laboratory/Tutorial 2 hrs/week.
Through semester assessment (55%) and Final Exam (45%)
R. D. Cook, D. S. Malkus and M. E. Plesha/Concepts and Applications of Finite Element Analysis/3rd/1989// T.R. Chandrupatla and A.D. Belegundu/Introduction to Finite Elements in Engineering/2nd/1997//
Faculty/department permission required?
Unit of study rules
Prerequisites and assumed knowledge
Study this unit outside a degree
If you wish to undertake one or more units of study (subjects) for your own interest but not towards a degree, you may enrol in single units as a non-award student.
If you are from another Australian tertiary institution you may be permitted to underake cross-institutional study in one or more units of study at the University of Sydney.