ENGME540-19T (HAM)

Finite Element Analysis

15 Points

Edit Header Content
Division of Health Engineering Computing & Science
School of Engineering

Staff

Edit Staff Content

Convenor(s)

Lecturer(s)

Administrator(s)

Placement Coordinator(s)

Tutor(s)

Student Representative(s)

Lab Technician(s)

Librarian(s)

: debby.dada@waikato.ac.nz

You can contact staff by:

  • Calling +64 7 838 4466 select option 1, then enter the extension.
  • Extensions starting with 4, 5, 9 or 3 can also be direct dialled:
    • For extensions starting with 4: dial +64 7 838 extension.
    • For extensions starting with 5: dial +64 7 858 extension.
    • For extensions starting with 9: dial +64 7 837 extension.
    • For extensions starting with 3: dial +64 7 2620 + the last 3 digits of the extension e.g. 3123 = +64 7 262 0123.
Edit Staff Content

Paper Description

Edit Paper Description Content

Modeling and computer simulation of engineering systems is widely used for research and by industry. This paper exposes students to a range of simulation methods and modern software for a range of subject areas. This paper builds on knowledge in a wide range of subject areas including mathematics, computing, dynamics, mechanics of materials and thermofluids. This paper is taught through lectures, tutorials and computer simulation workshops. This paper requires students to be able to both write their own programming code (Matlab) and use commercial software, to implement the Finite Element Method (FEM) to solve mechanical engineering problems.

Edit Paper Description Content

Paper Structure

Edit Paper Structure Content

There is no lecture, and self-study of FEA theory by referring Panopto recordings of ENGME540-19”A” lectures.

2 x 2hr lab sessions per week.

The lecturer will be available during T semester to answer your questions (by arrangement).

5 Practical (Matlab and ANSYS) assignments 60%, 1 or 2 Theoretical assignments 40%.

There is no Exam/Test.

Important Note for International Students: For international students in New Zealand under student visas, regular attendance is part of your visa obligation and is checked as a requirement on the University under the Code of Practice for the Pastoral Care of International Students, to which the University is a signatory. Academic staff are formally required to monitor attendance in classes and submission of compulsory assessment events/items and to report to Waikato International in the event that any problem with irregular attendance or non-submission is not resolved.

Edit Paper Structure Content

Learning Outcomes

Edit Learning Outcomes Content

Students who successfully complete the course should be able to:

  • 1. determine displacements and stresses in skeletal structural elements by minimizing the total potential energy using the Rayleigh-Ritz Method
    Linked to the following assessments:
  • 2. determine displacements and stresses in skeletal structural elements and temperature distribution in heat transfer problems by solving the partial differential equations using the Galerkin Method
    Linked to the following assessments:
  • 3. develop MATLAB codes and solve simple Finite Element Analysys (FEA) problems in axial loading, bending, heat transfer
    Linked to the following assessments:
  • 4. develop MATLAB codes for determining natural frequencies, critical loads and modes of simple structures
    Linked to the following assessments:
  • 5. calculate stresses and displacements of mechanical structures and components using an FEA software package
    Linked to the following assessments:
  • 6. determine the natural frequencies, critical loads and modes of mechanical structures and components using an FEA software package
    Linked to the following assessments:
Edit Learning Outcomes Content
Edit Learning Outcomes Content

Assessment

Edit Assessments Content

Assessment Components

Edit Assessments Content

The internal assessment/exam ratio (as stated in the University Calendar) is 100:0. There is no final exam. The final exam makes up 0% of the overall mark.

The internal assessment/exam ratio (as stated in the University Calendar) is 100:0 or 0:0, whichever is more favourable for the student. The final exam makes up either 0% or 0% of the overall mark.

Component DescriptionDue Date TimePercentage of overall markSubmission MethodCompulsory
1. FEA Theory Assignment
20 Dec 2019
5:00 PM
40
  • In Class: In Lab
  • Hand-in: Assignment Box
2. Matlab Assignment 1
25 Nov 2019
9:00 AM
12
  • Email: Convenor
  • Hand-in: In Lab
  • Hand-in: Assignment Box
3. Matlab Assignment 2
2 Dec 2019
9:00 AM
12
  • Email: Convenor
  • In Class: In Lab
  • Hand-in: Assignment Box
4. ANSYS (FEA Software) Assignment 1
9 Dec 2019
9:00 AM
12
  • Email: Convenor
  • Hand-in: In Lab
  • Hand-in: Assignment Box
5. ANSYS (FEA Software) Assignment 2
16 Dec 2019
9:00 AM
12
  • Email: Convenor
  • In Class: In Lab
  • Hand-in: Assignment Box
6. ANSYS (FEA Software) Assignment 3
20 Dec 2019
5:00 PM
12
  • Email: Convenor
  • In Class: In Lab
  • Hand-in: Assignment Box
Assessment Total:     100    
Failing to complete a compulsory assessment component of a paper will result in an IC grade
Edit Assessments Content

Required and Recommended Readings

Edit Required Readings Content

Required Readings

Edit Required Readings Content

Software manuals will be available and Lecture outline notes will be provided. Additional recommended reading for FEA:

Most handouts for this section of the paper, will be available on Moodle for students to download.

Edit Required Readings Content

Recommended Readings

Edit Recommended Readings Content

A First Course in the Finite Element Method by Daryl L. Logan 4th Edition, Thomson, 2007.

Edit Recommended Readings Content

Online Support

Edit Online Support Content

A Moodle site will operate for this paper. Students are expected to use Moodle; for example announcements made there are expected to be read. No printed notes will be given out by the lecturer; all documentation will be placed on Moodle.

PLEASE NOTE: Moodle will be used for class notices etc and it is your responsibility to check the site regularly. Instructions provided on Moodle and in lectures are considered to be given to the class as a whole.
Edit Online Support Content

Workload

Edit Workload Content

Contact Hours: No Lectures; Laboratories 24;

Non-contact hours: Studying FEA Theory 72; Assignments 54; Total 126.

Contact hours + Non-contact hours; 150 hours

Edit Workload Content

Linkages to Other Papers

Edit Linkages Content
This paper is an elective part of the Bachelor of Engineering and is particularly suitable for the Mechanical Engineering programme.
Edit Linkages Content

Prerequisite(s)

Prerequisite papers: ENGMP213 or ENGCV212 or ENMP213

Corequisite(s)

Equivalent(s)

Restriction(s)

Restricted papers: ENME440

Edit Linkages Content