Mechanical-Powering the mechanics of tomorrow

Autocad software image

AutoCADD

AutoCAD Mechanical is a specialized version of AutoCAD designed specifically for mechanical engineering. It adds a suite of tools and libraries that enhance productivity and simplify complex mechanical design tasks. Here’s an overview of its main features and capabilities:

Anyone with a background in Mechanical Engineering—whether at the diploma (ITI), polytechnic, or bachelor's (B.E./B.Tech) level—is well-suited to take up a course in AutoCAD Mechanical.

  • Introduction to engineering drawing & AutoCAD
  • Drawing basic geometry shapes in AutoCAD
  • Modifying drawing in AutoCAD
  • Layer Management
  • Hatching and gradient technics
  • Dimensioning and Tolerancing
  • Parametric drawing
  • Blocks and attributes
  • Plots and Publish
  • Isometric drawing
  • Blocks and attributes
  • External reference (Xref) concepts
  • Plots and Publish
  • 3D Modeling
  • Advance drawing using
  • AutoCAD Mechanical
  • Mechanical features drawing
  • Drawing assemblies

Catia

CATIA (Computer-Aided Three-dimensional Interactive Application) is a multi-platform software suite developed by Dassault Systèmes. It's widely used in product design, engineering, aerospace, automotive, and industrial equipment industries for 3D modeling, simulation, and product lifecycle management.

Anyone with a background in Mechanical Engineering—whether at the diploma (ITI), polytechnic, or bachelor's (B.E./B.Tech) level—is well-suited to take up a course in CATIA.

  • Introduction to engineering drawing & AutoCAD
  • Drawing basic geometry shapes in AutoCAD
  • Modifying drawing in AutoCAD
  • Layer Management
  • Hatching and gradient technics
  • Dimensioning and Tolerancing
  • Parametric drawing
  • Blocks and attributes
  • Plots and Publish
  • Isometric drawing
  • Blocks and attributes
  • External reference (Xref) concepts
  • Plots and Publish
  • 3D Modeling
  • Advance drawing using
  • AutoCAD Mechanical
  • Mechanical features drawing
  • Drawing assemblies
catia software image
Solidworks software image

Solidworks

SolidWorks is a powerful, computer-aided design (CAD) and computer-aided engineering (CAE) software used primarily for 3D modeling and mechanical design. Developed by Dassault Systèmes, it's widely used in industries like manufacturing, automotive, aerospace, product design, and engineering.

Anyone with a background in Mechanical Engineering—whether at the diploma (ITI), polytechnic, or bachelor's (B.E./B.Tech) level—is well-suited to take up a course in SOLIDWORKS.

  • Introduction to SolidWorks interface and environment

  • Creating and managing part, assembly, and drawing files

  • 2D sketching tools, sketch relations, and dimensions

  • Using reference geometry and sketch planes

  • Extrude, Revolve, Sweep, and Loft features

  • Cut features: Extruded Cut, Revolved Cut, etc.

  • Fillet, Chamfer, Shell, and Draft tools

  • Patterning tools: Linear, Circular, and Mirror

  • Parametric modeling and design intent

  • Working with equations and design tables

  • Creating and managing configurations

  • Building assemblies and applying standard mates

  • Interference detection and motion check in assemblies

  • Creating detailed 2D drawings with views and dimensions

  • Adding annotations, tolerances, and creating BOMs

CREO

Creo is a powerful 3D CAD (Computer-Aided Design) software developed by PTC (Parametric Technology Corporation). It is widely used for product design, engineering, and manufacturing across industries such as automotive, aerospace, electronics, and industrial equipment.

Anyone with a background in Mechanical Engineering—whether at the diploma (ITI), polytechnic, or bachelor's (B.E./B.Tech) level—is well-suited to take up a course in CREO.

  • Introduction to Creo interface and workspace

  • Creating and managing part, assembly, and drawing files

  • Understanding parametric modeling and design intent

  • 2D sketching tools, constraints, and dimensioning

  • Feature-based modeling: Extrude, Revolve, Sweep, and Blend

  • Cut and remove features: Extruded Cut, Revolved Cut, etc.

  • Applying Fillets, Chamfers, Shell, and Drafts

  • Patterning and mirroring features

  • Using reference geometry (planes, axes, points)

  • Assembly creation and component placement

  • Applying assembly constraints and managing relationships

  • Creating detailed 2D drawings with views and dimensions

  • Adding tolerances, symbols, and annotations in drawings

  • Creating and managing family tables and configurations

  • Introduction to model analysis (mass properties, interference check)

creo software image
NXcad/cam software image

UGNX

UG NX (Unigraphics NX) is a high-end CAD/CAM/CAE software developed by Siemens Digital Industries Software. It is widely used for product design, engineering, and manufacturing across industries like automotive, aerospace, consumer goods, and more.

Anyone with a background in Mechanical Engineering—whether at the diploma (ITI), polytechnic, or bachelor's (B.E./B.Tech) level—is well-suited to take up a course in UGNX.

NXCAD & NXCAM

  • Introduction to NX Interface and Tools
  • Creating and Editing Sketches
  • Parametric 3D Modeling (Extrude, Revolve, Sweep, etc.)
  • Assembly Modeling
  • Drafting and 2D Drawing Generation
  • Synchronous Modeling
  • Sheet Metal Design
  • Surface Modeling Basics
  • Feature Modeling
  • Product and Manufacturing Information (PMI)
  • Design Analysis Tools (Interference, Draft Check, etc.)
  • Data Management and Exporting Formats

  • Introduction to NX CAM Environment

  • Geometry Setup for Machining

  • Tool Path Creation (Planar Milling, Cavity Milling, etc.)

  • Drilling and Hole Making Operations

  • Turning Operations (if applicable)

  • Tool Library and Tool Path Parameters

  • Simulation and Verification of Tool Paths

  • Post-Processing for CNC Code Generation

  • Multi-Axis Machining Basics

  • Machining Strategies and Optimization

  • Fixture and Workpiece Setup

  • Export and Documentation

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ANSYS FEA

ANSYS FEA is a powerful engineering simulation software used to analyze and predict how products will behave under real-world forces like stress, heat, vibration, and more. It uses the Finite Element Method (FEM) to break down complex geometries into smaller elements, making it easier to simulate and solve physical problems.

Anyone with a background in Mechanical Engineering bachelor's (B.E./B.Tech) level—is well-suited to take up a course in ANSYS FEA.

  • Introduction to Finite Element Analysis (FEA) concepts
  • Getting started with ANSYS Workbench environment
  • Creating and importing 2D/3D geometry
  • Geometry cleanup and simplification
  • Understanding element types and meshing fundamentals
  • Generating and refining mesh for accurate results
  • Applying loads and boundary conditions
  • Performing static structural analysis
  • Analyzing stress, strain, and deformation results
  • Conducting modal analysis for natural frequencies
  • Performing steady-state and transient thermal analysis
  • Solving coupled thermal-structural problems
  • Handling nonlinear material and contact behavior
  • Running dynamic and time-dependent simulations
  • Postprocessing results and generating reports
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Ansys FEA Software image
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