Valid for: 2015/16
Decided by: Education Board E
Date of Decision: 2015-04-13
Elective for: M4-me, M4-pu, MD4
Language of instruction: The course will be given in English on demand
This course aims to provide students with insight into how advanced computer aids through an extensive integration can be utilised to reduce lead times while increasing efficiency and quality in development and construction projects. Such aids are introduced in this course for the following activities: modelling, analysis and optimization through concrete design tasks and examples from industry and the research world.
Knowledge and understanding
For a passing grade the student must
• be able to analyse, as well as motivate the choice of
analysis type for a simple engineering design problem exposed to
static structural loads, flow and/or thermal loads
• be able to create an analysis model based on the chosen
analysis type
• be able to introduce necessary boundary conditions into the
analysis model
• execute the actual analysis program
• be able to evaluate the analysis results achieved and suggest
possible changes in the existing design solution
• be able to communicate the process as well as the results of
the analysis/es orally and in writing
Competences and skills
For a passing grade the student must
• based on the assignment description, carry out a complete
analysis of a design solution regarding structure, thermally and/or
of flow
• have acquired the kind of insights into the methods,
technology and terminology regarding current computer based design
analyses so that the student is able to communicate his or her
results to an industrial company verbally and in writing
Judgement and approach
For a passing grade the student must
• be able to reflect on the results achieved and suggest possible further analyses and/or design changes in the original design solution
Design analysis in the given context primarily concerns the utilisation of computer based analysis methods/techniques for quantitative problem solving in the engineering design process. The finite element method (FEM) is primarily dealt with for the analysis of these mechanical systems.
An important part of the design analysis is modelling and handling of the interactions between the different software (structural, thermal and flow) utilised. The goal is to transfer the obtained analyses results into the actual design solution, thus facilitating the preceeding design activities.
The software utilised in the course are: ANSYS WorkBench, Simulation CFD and Pro/ENGINEER.
The lectures are focused on modelling and selection of analysis type, as well as showing industrial applications. Guest lecturers with deep insights in specific techniques will be invited.
Grading scale: TH
Assessment: For a final passing grade the student must pass the two required problem-based individual assignments. The final grade is the average of the two assignment grades. Please note that the assignments can be resubmitted with improvements if the student does not receive a passing grade the first time, but they will only be credited with the minimum number of points to pass.
Required prior knowledge: MMK010/MMKA15 Manual and Computer Aided Drafting in Mechanical Engineering.
The number of participants is limited to: No
The course overlaps following course/s: MMK140
Course coordinator: Per-Erik Andersson, per-erik.andersson@mkon.lth.se
Course administrator: Cilla Perlhagen, cilla.perlhagen@design.lth.se
Course homepage: http://www.mkon.lth.se