Ø Introduction to Finite Element Methods (FEM)
Ø Applied FEM - Industrial Approach Methodologies using FEM
Ø Industrial Approach to Design and Validation
Ø Element Formulation in FEM
Ø Shape functions in FEM
Ø Preparing geometry for meshing
Ø Organising FE Models
Ø Geometry Construction - Create & Edit
Ø Repairing Surface Topology
Ø Defeaturing models Transformation

Advanced Methodologies in Structural Analysis

Ø Structural Analysis
Ø Linear Static Analysis
Ø Thermal Analysis
Ø Modal Analysis
Ø Couple Analysis
Ø Non-linear Analysis
Ø Frequency Response Analysis
Ø Analysis setup for various solvers
Ø Bucking Analysis
Ø Linear structural analysis
Ø Spectrum analysis
Ø Transient analysis
Ø Fatigue analysis
Ø Steady state thermal analysis
Ø Composite analysis
Ø Optimization analysis
Ø Fluid Structural interaction

Mesh Generation

Ø What is mesh
Ø Types of mesh in FEA
- Mesh quality
- Skewness
- Smoothness
- Aspect ratio

Structural mesh topology

Ø 2D Topology – H – Mesh, O – Mesh, C – mesh
Ø 3D Topology – H-H, H-O, H-C, O-O, O-C, C-C

Practical stress analysis

Ø Stresses from simple components
Ø Material behaviors and failure mechanisms
Ø Fatigue and fracture
Ø Heat transfer and thermal stress analysis
Ø Simple component design
Ø Dynamic Analysis
Ø Harmonic frequency response analysis
Ø Transient dynamic analysis

Application Techniques (FEA)

Ø Techniques of geometry modeling
Ø Key points, lines, areas and volumes
Ø Geometric construction
Ø Simple Mesh Generation
Ø Choice of elements
Ø Element (material properties)
Ø Element shape (tri/quad)
Ø Mesh density (element size)
Ø Automatic generation of FE model
Ø Model optimization
Ø Boundary Conditions Selection
Ø Symmetry
Ø Pressure surfaces
Ø Solution & Post processing
Ø Model database, results files
Ø Plotting, printing etc.. Results
Ø Analysis Checking

Based projects using/Assignment

Domain A. simple cantilever
Domain B. Mohr’s Circle and state of stress
Domain C. Analysis of a Beam
Domain D: Design of Aircraft Structures or Design of Automotive Structures NOTE:
Only ONE of the above mentioned domains will be considered, participants must clearly
mention their choice of Domains in the modules.

CFD solution approached, FEA solution approached concept may be considered as different area of specialization because of the in-depth knowledge of the fundamental of the topics.



Eligibility:

Engineers (B.E./B.Tech/M.E./M.Tech) in any of the following disciplines: Mechanical,
Civil, Automobile, Aeronautical, Marine, Thermal, Chemical etc

Perquisites: Knowledge of 2D and 3D modeling, ability to reason logically. Fluid mechanics and Stress analysis knowledge will be an added advantage.

Duration:

Classes will be conducted from Monday to Friday on an average of minimum of 3 times
in a week for weekdays Track and Saturday/Sunday for Weekend Track.

Starting date: Regular batch commences 1st week of every month

Regular Track: 3 hours/day
Fast Track: 6 hours/day

Focus on area of specialization of participants while all topics are covered.
Minimum Time Duration: 42 hours


NB: Fee and conditions of services are subject to change without prior notice

Course duration can be customize to suite the time frame of the participants

Highlights of our courses: · 99% practical -oriented training · Live-projects based training Registration and payment: There are limited numbers of places in each course, so early Indication of interest is very important. Payment is required for confirmation of place. Participants are expected to register a week before the commencement of the training. Payment should be made to our bank account: To be provided on request. Class size: The training is design to accommodate few participants only Real life or dummy project(s) will be provided to test the participants’ ability to use the acquired skills to handle real life projects

Address: Suite 28, No 4 Irewole Street, Awosika B/S,
Opebi, Ikeja, Lagos State, Nigeria
Email: [email protected] website: www.vogwconcept.com
Tel: 08055623360, 07085740887