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This course will help student to use structural scenario, thermal scenario and to do Structural analysis and Thermal analysis of various problems.
Students will be able to
COs Course outcomes Mapping COs with POs
CO1 Able to gain knowledge in solid
modelling, analysis and simulation. PO1(3), PO2 (2), PO3(3)
CO2 Able to identify and resolve the load
analysis and simulation problems and help
to take decision in product development. PO2(3), PO3(1), PO5(3)
CO3 Acquire hands-on skill in solid
modeling, analysis and simulation PO3(3), PO2 (1), PO5(3)
Course Content
Module I: Material and Selection Properties (6 Hrs)
Property Module, Material Definitions, Linear Elasticity, Large Strain Elasticity, Metal Plasticity, Material Calibration, Material Databases, Section Properties
Practice:
Module II: Element Selection Criteria (6 Hrs)
Solid Element Selection, Structural vs. Continuum Elements, Modeling Bending Using Continuum Elements, Stress Concentrations
Practice:
3. Stress analysis of rail road with wheel.
4. Bike frame structural analysis
Module III: Meshing (8 Hrs)
Mesh Module, Mesh Elements Mesh Generation Workflow, Local Fine-tuning
Quality Checks, Mesh Compatibility, Mesh Convergence, Dependent and Independent Part Instances
Practice:
Module IV: Boundary Condition (6 Hrs)
Step Module, Analysis Steps and Procedures, Output Requests, Output Files
Load Module, Loads and Boundary Conditions, Initial Conditions
Practice:
Module V: Contact (6 Hrs)
Mechanical Contact Properties, Contact Domain, Contact Formulation and Controls, Handling Initial Over closures, Contact Output
Practice:
Module VI: Analysis Procedures (6 Hrs)
Model and Analysis Steps, Analysis Procedures, The static, general analysis procedure, Finding a converged solution, The Static, Linear Perturbation procedure, Buckle procedure, Frequency Procedure, The dynamic, explicit analysis procedure, Stability Limit, Analysis Continuation Techniques
Practice:
Module VII: Thermal Analysis (8 Hrs)
Steady State Heat Transfer, Transient Heat Transfer, Thermal Interfaces, Thermal Stress Analysis
Practice:
Projects
Text Books/ Reference Books/ Reference Material
Course Outline Prepared By : Prof. Mukundjee Pandey & Prof. Sujit Mishra
Date: 25.05.2020
Source of reference: 3DS peer learning
.
Material and Selection Properties:
Property Module, Material Definitions, Linear Elasticity, Large Strain Elasticity
Material and Selection Properties
Metal Plasticity, Material Calibration, Material Databases, Section Properties
Practice:
Material and Selection Properties:
Practice:
2. Cable stayed bridge simulation
Element Selection Criteria:
Solid Element Selection, Structural vs. Continuum Elements, Modeling Bending Using Continuum Elements, Stress Concentrations
Element Selection Criteria
Practice:
Element Selection Criteria :
Practice:
4.Bike frame structural analysis
Meshing:
Mesh Module, Mesh Elements Mesh Generation Workflow, Local Fine-tuning.
Practice:
Meshing
Quality Checks, Mesh Compatibility
Practice:
Meshing:
Mesh Convergence
Practice:
6. Structural analysis of wind turbine blade
Meshing:
Dependent and Independent Part Instances
Practice:
6. Structural analysis of wind turbine blade
Boundary Condition
Step Module, Analysis Steps and Procedures, Output Requests
Practice:
7.Generative structural analysis applied for design optimization
Boundary Condition:
Output Files, Load Module, Loads and Boundary Conditions, Initial Conditions
Practice:
8. Stress analysis on a backhoe
Boundary Condition:
Output Files, Load Module, Loads and Boundary Conditions, Initial Conditions
Practice:
8. Stress analysis on a backhoe
Contact:
Mechanical Contact Properties, Contact Domain, Contact Formulation and Controls
Practice:
9.Analysis of Economizer.
Contact
Handling Initial Over closures, Contact Output
Practice:
10. Analysis of Screw Jack
Contact
Handling Initial Over closures, Contact Output
Practice:
10. Analysis of Screw Jack
Analysis Procedures:
Model and Analysis Steps, Analysis Procedures, The static, general analysis procedure
Practice:
11. Steady state analysis of a composite bar.
Analysis Procedures:
Finding a converged solution, The Static, Linear Perturbation procedure, Buckle procedure, Frequency Procedure
Practice:
11. Steady state analysis of a composite bar.
Analysis Procedures :
The dynamic, explicit analysis procedure, Stability Limit, Analysis Continuation Techniques
Practice:
11. Steady state analysis of a composite bar.
Thermal Analysis :
Steady State Heat Transfer, Transient Heat Transfer, Thermal Interfaces, Thermal Stress Analysis
Practice:
12. Temperature distribution in radiators used in automobiles
Thermal Analysis :
Steady State Heat Transfer, Transient Heat Transfer, Thermal Interfaces, Thermal Stress Analysis
Practice:
13. Oven radiation simulation
Thermal Analysis :
Steady State Heat Transfer, Transient Heat Transfer, Thermal Interfaces, Thermal Stress Analysis
Practice:
14. Steady state thermal analysis of tungsten coil with internal heat generation
Thermal Analysis :
Steady State Heat Transfer, Transient Heat Transfer, Thermal Interfaces, Thermal Stress Analysis
Practice:
15. Thermal analysis of disc brake