Mechanical Engineer Design Course

The Mechanical Engineering Design Course is tailored for aspiring design engineers who aim to build a strong foundation in industry-standard mechanical design practices. This program bridges the gap between academic knowledge and real-world industrial applications by focusing on hands-on training, design codes, fabrication practices, and CAD tools used in core mechanical industries.

With a curriculum inspired by the renowned standards of Kagira Drawing Solutions, the course emphasizes practical drawing creation, fabrication detailing, pressure vessel design, piping layout, and mechanical component design. By the end of this course, students will gain the technical competency and confidence required to enter the design departments of manufacturing, fabrication, EPC, and pressure vessel companies.

Mechanical Engineering Design Course (Kagira Style)

Module 1: Engineering Drawing Standards

• Introduction to engineering drawing (first/third angle)

• Orthographic & isometric projections

• Welding symbols & surface finish

• BOM (Bill of Materials) creation

• GD&T as per ASME Y14.5

Module 2: Fabrication Design Concepts

• Sheet metal development

• Welding & fabrication design

• Structural fabrication drawings (I-beams, C-channels, L-angles)

• Platform, ladder, and handrail detailing

• Welding joint types and their selection

Module 3: Mechanical Component Design

• Shaft, bearing, coupling, key design

• Bolt & flange connections

• Plate and frame assemblies

• Pipe supports and hangers

• Design using standard parts (IS/ANSI/ISO)

Module 4: Software Tools Training

(Usually focuses on at least 2 major CAD tools):

• AutoCAD

  • 2D drafting, layout creation

  • Fabrication drawing practice

• SolidWorks or Creo/Pro-E

  • 3D modeling of mechanical parts

  • Assembly and exploded views

  • Sheet metal & weldments

  • Detailing and drawing extraction

• Optionally: CATIA / NX / Ansys basics

Module 5: Pressure Vessel & Piping Design (Core Kagira Content)

• Introduction to pressure vessel components:

  • Shells, heads, nozzles, supports

• ASME Section VIII Division 1 overview

• Piping layout, GAD (General Arrangement Drawings)

• Pipe fittings, valves, flanges (IS/ASME standards)

• Isometric & orthographic piping drawings

• MTO (Material Take-Off)

Module 6: Design Calculations & Codes

• Manual calculations:

  • Shell thickness

  • Nozzle reinforcement

  • Wind load & seismic load checks

• ASME Code formulas for pressure vessel design

• Pipe thickness calculation as per ASME B31.3

• Introduction to software like PV Elite / Caesar II (optional)

Module 7: Projects & Industry Exposure

• Real fabrication drawing projects

• Pressure vessel or skid package design assignment

• Design reports & documentation

• Industry inspection drawings (with QAP/NDT marks)

Module 8: Job Preparation

• Design portfolio creation

• Interview Q&A for design engineers

• Common industry mistakes to avoid

• Resume & job portal tips

Conclusion

Upon successful completion of this Mechanical Engineering Design Course, participants will have acquired the critical skills needed for a successful career in mechanical design and drafting. With hands-on training in CAD software, exposure to industry-relevant standards like ASME and IS codes, and the ability to interpret and create fabrication-ready drawings, students will be well-prepared for entry-level roles in core industries.

This program not only enhances technical knowledge but also builds the confidence to face interviews and tackle real-world engineering problems. Whether you are a diploma holder or a graduate engineer, this course serves as a strong launchpad into the world of industrial design and mechanical engineering innovation.

Mechanical Engineer Design Course