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Basic of Engineering Analysis Training for Automotive Product

Basic of Engineering Analysis Training for Automotive Product - NAFEMS Recognised Training Course

Basic of Engineering Analysis Training for Automotive Product

 

Title:

Basic of Engineering Analysis Training for Automotive Product

Provider:ORS Technologies Sdn Bhd
Duration:40 Hours (5 days)
Date of Recognition:November 2021
Delivery Method:In Person Classroom
Location:

Malaysia

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Objectives

  • To impart simulation driven design approach in engineering design and analysis according to industrial requirements and global trend.
  • To provide industrial driven knowledge with analytical thinking and skill in design evaluation and design improvement using innovative CAD/CAE technology.
  • To understand the Basic FEM/FEA To provide industrial driven knowledge with analytical thinking and skill in design evaluation and design improvement using innovative CAD/CAE technology.
  • To develop an understanding of how to apply the tools in HyperMesh to the CAE analysis process and apply geometry cleanup, mid- surface generation and defeaturing tools to prepare the geometry for meshing.
  • To efficiently analyze designs, improving the overall design process using CAE/CAD Technology
  • To develop understanding on the dynamic analysis, and post processing analysis results using both HyperMesh and HyperView

Outcomes

  • Participants will able to demonstrate industrial and technology driven method and approach on conceptual design and engineering design for industrial products.
  • Enhance participants’ skill, knowledge and technology in virtual engineering simulation for industrial products.
  • Emphasis on the Finite Element modelling methods, classifications and its technical reasoning to sharpen the participants skills in capturing the actual geometry as much into mathematical/analysis model.
  • Participant will be able to demonstrate basic understanding on FEM/FEA Participants will able to demonstrate industrial driven knowledge with analytical thinking and skill in design evaluation and design improvement using innovative CAD/CAE technology.
  • Participant will be able to develop an understanding of how to apply the tools in HyperMesh to the CAE analysis process and apply geometry cleanup, mid-surface generation and defeaturing tools to prepare the geometry for meshing.
  • Participants will be able to efficiently analyze designs, improving the overall design process using CAE/CAD Technology.
  • Participant will be able to develop post processing analysis results using both HyperMesh and HyperView

     

    PSE Competencies addressed by this training course

    FEAkn1

    List the various steps in the analysis/simulation process.

    FEAkn2

    Define the meaning of degree of freedom.

    FEAkn3

    List the nodal degrees of freedom and the associated force actions for common beam, 2D solid, 2D axisymmetric, 3D solid and shell elements, for the Displacement FEM.

    FEAco1

    Describe the sources of error inherent in finite element analysis, in general terms.

    FEAco2

    Discuss checks that may be used post-solution to check for the presence of inaccuracy.

    FEAco4

    Explain the meaning of convergence, including h and p types.

    FEAco6

    Discuss the need for a consistent set of units in any analysis and illustrate possible pitfalls.

    FEAco28

    Explain why element distortion generally results in poorer results.

    FEAco29

    Discuss the term flying structure or insufficiently constrained structure.

    FEAco35

    Discuss the terms Validation and Verification and highlight their importance.

    FEAap1

    Employ an analysis system for the determination of stresses and strains in small displacement, linear elastic problems.

    FEAap2

    Demonstrate effective use of available results presentation facilities.

    FEAap3

    Illustrate the approximate nature of finite element analysis, through examples chosen from your industry sector.

    FEAap4

    Illustrate the various steps in the Displacement Finite Element Method from assumed displacement polynomial to determination of stresses.

    FEAap7

    Employ symmetric boundary conditions effectively.

    FEAap10

    Illustrate various physical situations which will result in a Stress Singularity and explain why it is not appropriate to use finite element results at such locations directly.

    FEAap12

    Employ a range of post-solution checks to determine the integrity of FEA results.

    FEAan1

    Analyse the results from small displacement, linear static analyses and determine whether they satisfy inherent assumptions.

    FEAan2

    Compare the results from small displacement, linear elastic analyses with allowable values and comment on findings.

    FEAsy1

    Prepare an analysis specification, including modelling strategy, highlighting any assumptions relating to geometry, loads, boundary conditions and material properties.

    FEAev1

    Select an appropriate idealisation for a component / structure, which is consistent with the objectives of the analyses.

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