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Quick Facts

Medium Of Instructions	Mode Of Learning	Mode Of Delivery
English	Self Study	Video and Text Based

Course Overview

The Advanced Certificate Program in Computer-Aided Design certification course is offered to the students by the Ramaiah University of Applied Sciences. The course is designed for engineering graduates. Candidates who apply for the programme will be able to learn different aspects related to computer-aided design, such as geometric models, prototype building, engineering drawing, etc. The Advanced Certificate Program in Computer-Aided Design syllabus includes 3 modules, and every module takes up to 4 weeks to get completed. So, the entire curriculum can be completed within three months. The course is self-paced and can be accessed in online mode. The Advanced Certificate Program in Computer-Aided Design online course also includes laboratory work and projects along with the theoretical aspects. Students who complete the course get a certificate at the end of the programme.

The Highlights

Online programme
360 hours of total duration
Offered by Ramaiah University of Applied Sciences, Bangalore
Study material already available
Certification available
Self-paced course
3 months duration

Programme Offerings

Modules
Projects
Online Sessions

Courses and Certificate Fees

Certificate Availability	Certificate Providing Authority
yes	MSRUAS Bangalore

The fees may be paid in cash/DD at the University, The DDs must be drawn in favour of "M. S. Ramaiah University of Applied Sciences payable at Bangalore"

Advanced Certificate Program in Computer Aided Design Fee Structure

Fee	Amount in INR
Registration Fee	Rs.2,000
Tuition Fee	Rs.27,000
Total Fee	Rs.29,000

Eligibility Criteria

Education

The Advanced Certificate Program in Computer-Aided Design can be pursued by diploma and engineering graduates from Mechanical, Machine Tool Design, Automobile, and Aeronautical departments.

What you will learn

Designing skills

Students who enroll in the Advanced Certificate Program in Computer-Aided Design will learn the following points throughout the sessions-

Students will be able to understand the products through animations, rendering, modelling, and shading techniques
Candidates will be able to create prototype models in the Advanced Certificate Program in Computer-Aided Design course
Candidates will be able to generate manufacturing drawings of mechanical aspects
Participants will be able to use different software such as solid works software and CATIA for geometric modelling
Candidates will be able to use GD&T during the Advanced Certificate Program in Computer-Aided Design training
Students will be able to improve their engineering drawing skills through this course
Participants will be able to create geometric models through the Advanced Certificate Program in Computer-Aided Design syllabus

Who it is for

The Advanced Certificate Program in Computer-Aided Design by Ramaiah University of Applied Sciences, Bangalore is apt for the following participants-

Students who pursued their degree in the mechanical or automobile department
Candidates who graduated in the aeronautical or machine tool design department.
Students who want to pursue a career in a related field

The Syllabus

Theory

Introduction to CAD, CAM, CIM, and CAPP
CAD environment (Hardware and software)
Computer-Aided Product Development Cycle
CAD coordinate system
PDM Basics
Engineering drawing fundamentals- Overview engineering drawing orthographic projections, pictorial representations, sectioning of solids, dimensioning standards, fundamental dimensioning rules

Laboratory

Solid Modeling: Basic features of modelling, sketch-based modelling, parametric modelling, overview on primitives, design form feature, detail feature operation, transform features, associative copy, Boolean operations, trim operations, scale/offset, introduction to sweep, options to sweep, tube creation, Overview on the part navigator and best practices.
Sketcher: Overview on sketcher, creating and editing a sketch, sketch constraints, sketch operations
Assembly: Introduction to assemblies, assembly concepts, creating and editing assemblies, assembly navigator, exercise on creating part and assemblies, associative copy, wave geometry linker, reference sets, working with large assemblies, inter-part modelling, assembly arrangement, function details, and best practice

Theory

Modelling techniques
Computer-aided mechanism design and simulation
CSG, B-rep, feature-based modelling, parametric modelling
Advanced wireframe and surface generation techniques
Fundamentals of metrology and GD & T

Laboratory

Detailed drawing with GD&T: introduction to drafting, drawing sheets, using views, view-dependent edits, using dimensions, export and import options, formatting, preferences, error recovery, drafting annotations, drafting symbols, utility symbols, tabular note and part list.
Sheet metal design: Sheet metal toolbars, extruding a thin surface, inserting bends, rolling back a design, using the feature palette window, applying a forming tool, creating, positioning, and patterning a form feature
Wireframe and surface modelling: Overview on curves and points, curves based modelling, editing curves, curve operations from curves and bodies Free Form modelling: Surface creation methods, Mesh Surface, Flange Surface, Surface Creation methods through Edit option, Surface modelling using Hollow, Thicken Sheet methods
Mechanism simulation: Developing simple mechanism and kinematic simulation

Theory

CAD neutral file formats- STEP,IGES,STL,VDA-FS, DXF, Parasolid XT and DRG
Scanning methods, data generation techniques, and surface creation
Introduction to reverse engineering
Rapid prototype techniques- Stereo Lithography (SLA), Fused Deposition Modeling (FDM), laminated object manufacturing(LOM), selective Laser Sintering(SLS) and Three Dimensional Printing(3DP)
Additive manufacturing techniques