Certificate Program in Product Development

Course Information
Duration: 160 Hours

Fee: $1600

Prerequisites: Must have/be pursuing a degree or diploma in Mechanical discipline

Description

The Certificate Program in Product Development is designed for the students in mechanical disciplines to help them understand the product designing process and acquire skills required to ideate, design, and develop a practically viable product. It will also help them in learning real-world industry practices and processes involved in manufacturing, thereby making them industry-ready and productive from day one. The courses offered in this certificate program will include explanation of the basic concepts, tools and techniques to advance concepts and technologies involved in the product development process, all important tools and their real-world applications in conformity with widely accepted ISO standards, GD&T, and standard practices followed in the manufacturing processes in industry.

Key Features

The training will be provided by the faculty who have long been associated with industry and have a good understanding of teaching pedagogy.
The training will be provided on the latest software packages.
A mock interview/test will be conducted in professional settings to give you an idea of what you need to do while appearing for a job interview. Industry professionals will be a part of it and will give you necessary feedback on it so that you practice and prepare for the real job interview.
An assessment test will be conducted to evaluate the students and provide feedback.
Students will be encouraged to create an online portfolio showcasing their profile with links and videos.
The students will be provided professional assistance in preparing professional resume to make it stand out and to help them find their dream job.

Learning Outcomes

Understanding of design concepts
Understanding of various standards and design considerations
Familiarity with various engineering materials and material testing instruments
Getting thorough knowledge of designing and drafting of parts and assemblies in 2D/3D
Proficiency in designing software packages such as AutoCAD, Autodesk Inventor, SOLIDWORKS, CATIA, Creo Parametric, Solid Edge, or Fusion 360, NX, SOLIDCAM, Ansys, etc. (Based on the choice of the student)]
Understanding of milling and turning operations
Understanding of CNC machining, and G & M codes
Performing various types of analysis types such as structural, stress, vibrational, thermal, etc
Learning through real-world industry projects
Getting industry ready

This certificate program consists of four modules: Module 1, Module 2, Module 3, and Module 4. The detailed course outline of these modules is as follows:

Module 1: Drafting Using Autodesk AutoCAD

The topics covered are mentioned below. You will be assigned various projects for better understanding of the concepts and tools learned.

Understanding AutoCAD tools
Generating 2D drawings
Creating orthographic views
Creating isometric view
Creating general arrangement (GA) drawings
Detailing & drafting

Projects

After completion of the topics of this module, the students will be assigned various projects to work on for better understanding of the concepts and tools learned. Some of the projects will be done under the guidance of the instructor and, and the others, individually by the students themselves.

In addition to AutoCAD software, the students will learn the following designing concepts:

Fundamentals of design
Traditional designing methods
Use of standards in design
Aesthetic and ergonomic considerations in design
Understanding various measuring instruments
Understanding manufacturing drawings
Design of machine elements
Use of fasteners such as Nuts, Bolts, Washers, etc and their applications and torque requirements
Threads and their specifications
Left Hand (LH) thread, Right Hand (RH) thread, and their applications
Common tools used in manufacturing like taps, drills, reamers, broaches, etc
Specifying the hole and slot dimensions based on the tools used to machine them

For the detailed syllabus of AutoCAD, visit https://www.cadcim.com/autocad-online-course

Module 2: Modeling Using 3D Designing Software

[Note: You can choose any one (preferably two) of the following 3D software packages: SOLIDWORKS, NX, CATIA, Solid Edge, Inventor, Creo Parametric, Fusion 360]

The topics covered are mentioned below. You will be assigned various projects for better understanding of the concepts and tools learned.

Creating 3D models
Creating assemblies of components
Creating surface models
Detailing and drafting
Creating sheet metal components
Rendering of models
Motion simulation

Projects

After completion of the topics of this module, the students will be assigned various projects on 3D machine components to reinforce the skills gained and practice the tools learned. Some of the projects will be done under the guidance of the instructor, and the others, individually by the students themselves.

In addition to the software, the students will learn the following engineering concepts:

Product lifecycle management, concurrent engineering
Safety requirements
Materials and their properties
Material standards
Material testing and instruments used for testing
Mechanical properties of engineering materials
Selection of material (Example; why most of the couplings are made of brass)
Types of manufacturing methods
Design for manufacturing and assembly (DFMA)
Fits and tolerances
Different types of bearings, gears, couplings, bushings, pins, etc. and their applications
Welding processes and welding symbols used in a drawing
Calculating bending allowances in sheet metal
GD&T symbols and their applications
Working with Geometric Dimensioning and Tolerancing (GD&T) symbols in the drawings
Tolerance Stack-up

For the detailed syllabus, visit https://www.cadcim.com/cad-cam-cae-online-courses

Module 3: Manufacturing Using SOLIDCAM

The topics covered are mentioned below. You will be assigned various projects for better understanding of the concepts and tools learned.

Introduction to manufacturing
Introduction to SOLIDCAM and its interface
Generating a program for face, profile and pocket milling operation
Generating a program for drilling, slot and thread milling operation
Generating a program for HSR Roughing operation
Generating a program for HSM Finishing operation
Generating a program for high-speed surfacing operation
Generating a program for turning operation

Projects

After completion of the topics of this module, the students will be assigned various projects on CAM Programming to reinforce the skills gained and practice the tools learned. Some of the projects will be done under the guidance of the instructor, and the others, individually by the students themselves.

In addition to the software, the students will learn the following CNC and machining concepts:

Health and safety measurements
Types of CNC machines
Coordinate System
G & M codes
Cutter profile and compensation
Types of programming
Various types of milling and turning operations

For the detailed syllabus, visit https://www.cadcim.com/solidcam-online-course

Module 4: Finite Element Analysis using ANSYS Workbench

The topics covered are mentioned below.

Creating and modifying a material
Creating and importing a geometry
Geometry clean-up
Generating various types of meshes
Applying boundary conditions
Performing various analyse such as static structural, vibrational, thermal, etc.
Parametric study of analyses performed
Post-processing and interpretation of results
Generating reports and graphs for analysis

Projects

In addition to the software, the students will learn the following FEM concepts:

Introduction to Finite Element Analysis (FEA) and ANSYS Workbench
History of FEA
General steps of the Finite Element Method
Understanding need of CAE and virtual simulation
How we can reduce cost in development of product using CAE

For the detailed syllabus, visit https://www.cadcim.com/ansys-online-course

Certificate Program in Product Development