Eligibility Criteria | B.Tech/M.Tech/Diploma |
Course Duration | 2 Months |
Certificate | Will be Provided |
AutoCAD
AutoCAD is most widely used CAD software and is used in almost all the engineering fields, Draft, annotate and design 2 d geometry and 3 d models with solids, surfaces and mesh objects, Design faster with industry-specific tool set, Automatic tasks such as comparing drawings, adding blocks, creating schedules and more, you will learn all the basic and advanced skills needed for mechanical engineering.
Key Contents
Introduction to engineering drawing & 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 Modelling
Advance drafting using AutoCAD Mechanical
Mechanical features drawing
Drafting assemblies
CATIA
CATIA V5 is one of the most powerful Computer Aided Three Dimensional Application for parametric solid modeling developed by Dassault Systems. With 3D sketching and visualization features, it helps users to create high-quality mechanical products. CATIA is extensively used in the aerospace industry and the automotive industry.
Key Contents
CATIA user interface
Creating and editing sketches
Creating sketch based features
Creating transformation features
Creating dress up features
Creating advanced replication tools
Assembly design
Editing parts in assembly
Creating surface based features
Generative sheet metal design
Drawing view generation
Bill of materials, balloons
Finalizing the drawing and printing Dress up on 2D Views
Real-time rendering
Creo
Creo is one of the most widely used 3D CAD tools in the industry. It is a widely used 3D CAD software tool that transports all tasks involved in product development using diverse tools, with the participation of people of a variety of skills, from different geographical locations. Advantages of Creo over other 3D solutions include a faster time-to-market, product quality, design efficiency; minimum errors, less scrap and rework.
Key Contents
Introduction to Creo Parametric
Understanding Solid Modelling Concepts
Understanding Feature-Based Concepts
Understanding the Ribbon Interface
Managing Files in Creo Parametric
Creating Sketcher Geometry
PART DESIGN
Creating Datum and Axes Procedure
Assembling with Constraints
Creating New Assembly Models Procedure
Understanding Assembly Constraint Status
Introduction to Surfacing
Surface Modelling Paradigms
Creo Parametric Sheetmetal Design Process
Adding Other Sheetmetal Features
Introduction, Creating New Drawing & Drawing Views and other tools
NX CAD
The UG-NX is a high-end advanced CAD, CAE, and CAM product life cycle management software solution from Siemens. Manufacturing companies across multiple industries use NX CAD due to its sophisticated design capabilities and proven strengths in significantly reducing design time. The integrated software solution covers all aspects of the product development process to streamline and increase product development process.
Key Contents
User interface
Sketcher essentials
Constraining sketches
Datums
Creating part features
Editing parts
Creating fundamental curves
Editing Curves
Editing freeform features
Basic assembly concept
Creating assembly constrains
Positioning assembly component
Assembly revision and component replacement
Assembly sequencing
Assemblies-clearance and analysis
Deformable components
Part families
Introduction to drafting
Drafting and View & Creating dimensions notes and labels, Plotting drawings
HyperMesh
HyperMesh is the market-leading, multi-disciplinary finite element pre-processor which manages the generation of the largest, most complex models, starting with the import of a CAD geometry to exporting a ready-to-run solver file. HyperMesh supports a wide variety of CAD and solver interfaces, making it a perfect solution for most industry verticals and domains.
Key Contents
Getting Started with HyperMesh
Working with Panels
Importing and Repairing CAD
Generating a Midsurface
Auto-Midsurfacing with Advanced Geometry and Mesh Editing Using the Quick Edit Panel
Creating 1-D Elements
AutoMeshing
3D Element
Creating a Hexahedral Mesh using the Solid Map
Checking and Editing Mesh
Analysis Setup
Formatting Model for Analysis
Obtaining and Assigning Beam Cross-Section Properties using HyperBeam
Working with Loads on Geometry
Free Body Diagram
Revit MEP
Revit MEP is part of Autodesk's BIM (Building Information Modeling) software portfolio and is designed for mechanical, electrical and plumbing engineers working either in isolation or as part of a BIM project. Autodesk Revit MEP is a very popular software solution that is used for designing complex building systems.
Key Contents
Introduction
MEP Design
Revit MEP
Work Sharing
Family Creation
Solid Modeling
Equipment
Light Fixture
Devices
HVAC Design
Heating and Cooling Load Analysis
Logical System and Duct Work
Mechanical piping System
Inspect System
Electrical Design
Lighting Analysis
Power and Communication Design
Plumbing Design
Fire Protection System
Schedules
Printing
SolidWorks
SOLIDWORKS solutions cover all aspects of the product development process with a seamless, integrated workflow: design, verification, sustainable design, communication, and data management. Companies can shorten the design cycle, increase productivity, and deliver innovative products to the market faster. SolidWorks offers complete 3D CAD software tools that allow you to create, simulate, publish, and manage your data.
Key Contents
Sketcher basics
3D sketching
Part modeling
Creating reference geometries
Editing features
Advanced modeling tools
Configuration
Design table/library features
Import/Export of files
Surface modeling
Bottom-up assembly design
Top-down assembly design
Exploding assemblies
Simulation/Detailing
BOM, balloon tools
Sheet metal design
Ansys
ANSYS Mechanical is a finite element analysis tool widely used for the analysis and solving of complex mechanical problems. ANSYS is capable of predicting the behavior of components in the manufacturing industry and real-world environments. This allows engineers and designers to virtually analyze how their products and components work in real-world environments at an early stage of product design.
Key Contents
Basic Concepts
The Toolbar
The Project Schematic
Static structural analysis
Beams and Frames
Treatment of Distributed Loads
Modeling of 2-D Elasticity Problems
Buckling analysis
Mode analysis
Steady-state Thermal analysis
Introduction of Fluid Analysis (CFX and CFD)
Modeling of Fluid Flow
Fluid Domain
Meshing
Boundary Conditions
Result view