The demand for skilled mechanical design engineers is growing rapidly across industries like manufacturing, fabrication, process plants, and automotive. However, most engineering graduates struggle to meet industry expectations due to a lack of practical exposure and software proficiency. The Mechanical Engineering Design Course, designed in line with Kagira’s industry-driven training model, focuses on bridging this crucial gap.
Module 1: Fundamentals of Engineering Drawing
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Introduction to Engineering Drawing & Projections
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Orthographic Views, Sectional Views, and Isometric Projections
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GD&T (Geometric Dimensioning and Tolerancing)
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Drawing standards: ASME, ISO, DIN, BIS
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Title Block, BOM, and Revision Systems
Module 2: Material Science & Selection
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Properties of Engineering Materials
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Material Selection Criteria for Design
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Heat Treatment and Surface Finishing
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Standards: ASTM, AISI, EN, IS codes
Module 3: Machine Design Basics
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Design of Bolted, Welded, Riveted Joints
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Shafts, Keys, Couplings
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Bearings and Gears: Types, Selection, and Calculations
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Springs and Levers
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Design for Strength, Stiffness, and Fatigue
Module 4: CAD Software Training
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AutoCAD – 2D Drafting and 3D Modeling
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SolidWorks / Autodesk Inventor / Creo – Parametric Modeling
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Assembly Design, Exploded Views
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Sheet Metal and Surface Modeling
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Drafting and Detailing in CAD
Module 5: Advanced Mechanical Design Concepts
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Design for Manufacturing (DFM)
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Design for Assembly (DFA)
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Tolerance Analysis
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Failure Mode and Effect Analysis (FMEA)
Module 6: Design Calculations & Standards
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Static & Dynamic Load Calculations
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Design Safety Factors
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Thermal and Vibration Considerations
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Use of Design Data Books (PSG, Machine Design Handbook)
Module 7: Software Tools for Design Analysis
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Introduction to FEA using ANSYS / SolidWorks Simulation
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Stress, Strain, and Modal Analysis
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Thermal Analysis Basics
Module 8: Project Work
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Real-time Design Project (Machine component/system)
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Preparation of 2D Drawings & 3D Models
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BOM and Manufacturing Drawing
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Project Presentation and Report
Module 1: Fundamentals of Engineering Drawing
-
Introduction to Engineering Drawing & Projections
-
Orthographic Views, Sectional Views, and Isometric Projections
-
GD&T (Geometric Dimensioning and Tolerancing)
-
Drawing standards: ASME, ISO, DIN, BIS
-
Title Block, BOM, and Revision Systems
Module 2: Material Science & Selection
-
Properties of Engineering Materials
-
Material Selection Criteria for Design
-
Heat Treatment and Surface Finishing
-
Standards: ASTM, AISI, EN, IS codes
Module 3: Machine Design Basics
-
Design of Bolted, Welded, Riveted Joints
-
Shafts, Keys, Couplings
-
Bearings and Gears: Types, Selection, and Calculations
-
Springs and Levers
-
Design for Strength, Stiffness, and Fatigue
Module 4: CAD Software Training
-
AutoCAD – 2D Drafting and 3D Modeling
-
SolidWorks / Autodesk Inventor / Creo – Parametric Modeling
-
Assembly Design, Exploded Views
-
Sheet Metal and Surface Modeling
-
Drafting and Detailing in CAD
Module 5: Advanced Mechanical Design Concepts
-
Design for Manufacturing (DFM)
-
Design for Assembly (DFA)
-
Tolerance Analysis
-
Failure Mode and Effect Analysis (FMEA)
Module 6: Design Calculations & Standards
-
Static & Dynamic Load Calculations
-
Design Safety Factors
-
Thermal and Vibration Considerations
-
Use of Design Data Books (PSG, Machine Design Handbook)
Module 7: Software Tools for Design Analysis
-
Introduction to FEA using ANSYS / SolidWorks Simulation
-
Stress, Strain, and Modal Analysis
-
Thermal Analysis Basics
Module 8: Project Work
-
Real-time Design Project (Machine component/system)
-
Preparation of 2D Drawings & 3D Models
-
BOM and Manufacturing Drawing
-
Project Presentation and Report
CONCLUSION
This course doesn’t just teach design — it transforms learners into professionals who can think like design engineers and deliver work that meets global industry standards. It’s the ideal launchpad for anyone looking to start or upgrade their career in mechanical design.
