| S.NO |
Course Code |
Softwares |
Duration in hours |
Master Diploma in Product Design and Analysis |
| 1 |
MCADD MD21 |
AutoCAD-2D ( mechanical ) +CATIA +Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +Pro/ENGINEER |
400 |
| 2 |
MCADD MD22 |
AutoCAD-2D ( mechanical ) +Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +Pro/ENGINEER +NX-CAM +NX-CAD |
440 |
| 3 |
MCADD MD23 |
AutoCAD-2D ( mechanical ) +Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +SolidWorks +Pro/ENGINEER |
400 |
| 4 |
MCADD MD24 |
AutoCAD-2D ( mechanical ) +Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +SolidWorks +CATIA |
400 |
| 5 |
MCADD MD25 |
AutoCAD-2D ( mechanical ) +Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +SolidWorks +NX-CAM +NX-CAD |
440 |
| 6 |
MCADD MD26 |
AutoCAD-2D ( mechanical ) +CATIA +Ansys +PPM Concepts +Primavera +GD & T +SolidWorks |
400 |
| 7 |
MCADD MD27 |
AutoCAD-2D ( mechanical ) +Ansys +PPM Concepts +Primavera +GD & T +SolidWorks +NX-CAM +NX-CAD |
440 |
| 8 |
MCADD MD28 |
AutoCAD-2D ( mechanical ) +Ansys +PPM Concepts +Primavera +GD & T +SolidWorks +Pro/ENGINEER |
400 |
| 9 |
MCADD MD29 |
AutoCAD-2D ( mechanical ) +CATIA +Ansys +PPM Concepts +Primavera +GD & T +Pro/ENGINEER |
400 |
| 10 |
MCADD MD30 |
AutoCAD-2D ( mechanical ) +Ansys +PPM Concepts +Primavera +GD & T +Pro/ENGINEER +NX-CAM +NX-CAD |
440 |
| 11 |
MCADD MD31 |
AutoCAD-2D ( mechanical ) +CATIA +Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +NX-CAM +NX-CAD |
440 |
| 12 |
MCADD MD32 |
AutoCAD-2D ( mechanical ) +CATIA +Ansys +PPM Concepts +Primavera +GD & T +NX-CAM +NX-CAD |
440 |
| 13 |
MCADD MD33 |
Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +SolidWorks +Pro/ENGINEER |
320 |
| 14 |
MCADD MD34 |
Ansys +PPM Concepts +Primavera +GD & T +SolidWorks +Pro/ENGINEER |
320 |
| 15 |
MCADD MD35 |
CATIA +Ansys +PPM Concepts +Primavera +GD & T +Pro/ENGINEER |
320 |
| 16 |
MCADD MD36 |
Ansys +PPM Concepts +Primavera +GD & T +Pro/ENGINEER +NX-CAM +NX-CAD |
360 |
| 17 |
MCADD MD37 |
CATIA +Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +Pro/ENGINEER |
320 |
| 18 |
MCADD MD38 |
Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +Pro/ENGINEER +NX-CAM +NX-CAD |
360 |
| 19 |
MCADD MD39 |
CATIA +Ansys +PPM Concepts +Primavera +GD & T +NX-CAM +NX-CAD |
360 |
| 20 |
MCADD MD40 |
CATIA +Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +NX-CAM +NX-CAD |
360 |
| 21 |
MCADD MD41 |
CATIA +Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +SolidWorks |
320 |
| 22 |
MCADD MD42 |
CATIA +Ansys +PPM Concepts +Primavera +GD & T +SolidWorks |
320 |
| 23 |
MCADD MD43 |
Ansys +PPM Concepts +MSP ( mechanical ) +GD & T +SolidWorks +NX-CAM +NX-CAD |
360 |
| 24 |
MCADD MD44 |
Ansys +PPM Concepts +Primavera +GD & T +SolidWorks +NX-CAM +NX-CAD |
360 |
| 25 |
MCADD MD45 |
AutoCAD-2D ( mechanical ) +CATIA +Ansys +GD & T +SolidWorks +Pro/ENGINEER +NX-CAM +NX-CAD |
536 |
| 26 |
MCADD MD46 |
CATIA +Ansys +GD & T +SolidWorks +Pro/ENGINEER +NX-CAM +NX-CAD |
456 |
Foundation in Mechanical CADD |
| 27 |
MCADD F02 |
AutoCAD-2D ( mechanical ) |
80 |
Professional in Product Design |
| 28 |
MCADD P21 |
AutoCAD-2D ( mechanical ) +CATIA +GD & T +Pro/ENGINEER |
256 |
| 29 |
MCADD P22 |
AutoCAD-2D ( mechanical ) +GD & T +Pro/ENGINEER +NX-CAD |
256 |
| 30 |
MCADD P23 |
AutoCAD-2D ( mechanical ) +GD & T +SolidWorks +Pro/ENGINEER |
256 |
| 31 |
MCADD P24 |
AutoCAD-2D ( mechanical ) +CATIA +GD & T +NX-CAD |
256 |
| 32 |
MCADD P25 |
AutoCAD-2D ( mechanical ) +CATIA +GD & T +SolidWorks |
256 |
| 33 |
MCADD P26 |
AutoCAD-2D ( mechanical ) +GD & T +SolidWorks +NX-CAD |
256 |
| 34 |
MCADD P27 |
CATIA +GD & T +SolidWorks +Pro/ENGINEER |
256 |
| 35 |
MCADD P28 |
CATIA +GD & T +Pro/ENGINEER +NX-CAD |
256 |
| 36 |
MCADD P29 |
GD & T +SolidWorks +Pro/ENGINEER +NX-CAD |
256 |
| 37 |
MCADD P30 |
CATIA +GD & T +SolidWorks +NX-CAD |
256 |
Professional in Product Design and Analysis |
| 38 |
MCADD P31 |
AutoCAD-2D ( mechanical ) +Ansys +GD & T +Pro/ENGINEER |
256 |
| 39 |
MCADD P32 |
AutoCAD-2D ( mechanical ) +CATIA +Ansys +GD & T |
256 |
| 40 |
MCADD P33 |
AutoCAD-2D ( mechanical ) +Ansys +GD & T +NX-CAD |
256 |
| 41 |
MCADD P34 |
AutoCAD-2D ( mechanical ) +Ansys +GD & T +SolidWorks |
256 |
| 42 |
MCADD P35 |
Ansys +GD & T +Pro/ENGINEER +NX-CAD |
256 |
| 43 |
MCADD P36 |
CATIA +Ansys +GD & T +Pro/ENGINEER |
256 |
| 44 |
MCADD P37 |
Ansys +GD & T +SolidWorks +Pro/ENGINEER |
256 |
| 45 |
MCADD P38 |
CATIA +Ansys +GD & T +NX-CAD |
256 |
| 46 |
MCADD P39 |
CATIA +Ansys +GD & T +SolidWorks |
256 |
| 47 |
MCADD P40 |
Ansys +GD & T +SolidWorks +NX-CAD |
256 |
Professional in Pro/ENGINEER |
| 48 |
MCADD P41 |
Pro/ENGINEER +Pro/ENGINEER-Mold Design +Pro/ENGINEER-Mechanism +GD & T |
136 |
Master Diploma in Automotive Design |
| 49 |
MCADD MD48 |
Ansys +NX-CAM +Pro/ENGINEER +CATIA +NX-CAD +GD & T +NX-NASTRAN +Overview of Automotive Design |
464 |
Master Diploma in Aerospace Design |
| 50 |
MCADD MD49 |
Ansys +NX-CAM +Pro/ENGINEER +CATIA +NX-CAD +GD & T +NX-NASTRAN +Overview of Aerospace Design |
464 |
Diploma in product design |
| 51 |
MCADD D21 |
AutoCAD-2D ( mechanical ) +GD & T +Pro/ENGINEER |
176 |
| 52 |
MCADD D22 |
AutoCAD-2D ( mechanical ) +CATIA +GD & T |
176 |
| 53 |
MCADD D23 |
AutoCAD-2D ( mechanical ) +GD & T +SolidWorks |
176 |
| 54 |
MCADD D24 |
AutoCAD-2D ( mechanical ) +GD & T +NX-CAD |
176 |
| 55 |
MCADD D25 |
CATIA +GD & T +Pro/ENGINEER |
176 |
| 56 |
MCADD D26 |
GD & T +Pro/ENGINEER +NX-CAD |
176 |
| 57 |
MCADD D27 |
GD & T +SolidWorks +Pro/ENGINEER |
176 |
| 58 |
MCADD D28 |
CATIA +GD & T +NX-CAD |
176 |
| 59 |
MCADD D29 |
CATIA +GD & T +SolidWorks |
176 |
| 60 |
MCADD D30 |
GD & T +SolidWorks +NX-CAD |
176 |
Diploma in Product Design and Analysis |
| 61 |
MCADD D31 |
Ansys +GD & T +Pro/ENGINEER |
176 |
| 62 |
MCADD D32 |
CATIA +Ansys +GD & T |
176 |
| 63 |
MCADD D33 |
Ansys +GD & T +SolidWorks |
176 |
| 64 |
MCADD D34 |
Ansys +GD & T +NX-CAD |
176 |
Diploma in Individual software products |
| 65 |
MCADD D13 |
AutoCAD-2D ( mechanical ) +AutoCAD-3D ( mechanical ) |
120 |
| 66 |
MCADD D35 |
GD & T +Pro/ENGINEER +Pro/ENGINEER-Mold Design |
120 |
| 67 |
MCADD D36 |
GD & T +Pro/ENGINEER +Pro/ENGINEER-Mechanism |
112 |
| 68 |
MCADD D37 |
GD & T +NX-CAM +NX-CAD |
136 |
Diploma in Mechanical CADD |
| 69 |
MCADD D38 |
AutoCAD-2D ( mechanical ) +PPM Concepts +MSP ( mechanical ) |
144 |
Foundation program |
| 70 |
MCADD F07 |
Ansys |
80 |
| 71 |
MCADD F21 |
Pro/ENGINEER +GD & T |
96 |
| 72 |
MCADD F22 |
GD & T +SolidWorks |
96 |
| 73 |
MCADD F23 |
CATIA +GD & T |
96 |
| 74 |
MCADD F24 |
GD & T +NX-CAD |
96 |
| 75 |
MCADD F25 |
NX-NASTRAN |
80 |
Special Courses |
| 76 |
MCADD Spl01 |
Pro/ENGINEER-Mold Design |
24 |
| 77 |
MCADD Spl02 |
Pro/ENGINEER-Mechanism |
16 |
| 78 |
MCADD Spl03 |
Ansys-Vibrational |
40 |
| 79 |
MCADD Spl04 |
AutoCAD-3D |
40 |
| 80 |
MCADD Spl05 |
NX-CAM |
40 |
| 81 |
MCADD Spl06 |
GD & T |
16 |
Key Topics (AutoCAD)
 |
Introduction to CAD Industry |
|
Drawing Settings |
|
Orthographic Drawings |
|
Isometric Drawings |
|
Perspective Drawings |
|
Editing the drawings |
|
Annotations andDimensions |
|
Layer management |
|
Project Planning and Management: An Overview |
|
Selection Methods |
|
Creating and UpdatingRepeated Elements |
|
Parametric Drawings |
|
Preparing Joinery Details /BOM |
|
Presenting the Project |
|
Working with a team |
|
Layout Management |
|
Scale setting and Plotting |
|
Import and Export |
|
Key Topics (Pro/ENGINEER)
| | Pro/ENGINEER concepts |
| | Using the Pro/ENGINEER interface |
| | Creating sketcher geometry |
| | Creating extrudes, revolves, and ribs |
| | Selecting and editing |
| | Creating datum features |
| | Utilizing internal sketches and embedded datums |
| | Creating sweeps and blends |
| | Creating holes and shells |
| | Creating rounds, chamfers and Drafts |
| | Variable section sweeps, Helical sweeps and Swept blends |
| | Creating patterns |
| | Group, copy, and mirror tools |
| | Measuring and inspecting models |
| | Advanced reference management |
| | Relations and parameters |
| | Layers, Family tables & UDF |
| | Assembling with constraints |
| | Exploding assemblies |
| | Creating surface features |
| | Editing surface features in Pro/ENGINEER |
| | Creating drawing views |
| | Creating drawing details |
| | Using advanced assembly constraints |
| | Creating and using component interfaces |
| | Creating and using flexible components |
| | Using assembly features and shrinkwrap |
| | Replacing components in an assembly |
| | Understanding simplified reps |
| | Creating cross-sections, display styles, and combined views |
| | Substituting components by rep, envelope, and model |
| | Creating and using assembly structure and skeletons |
| | Introduction to sheet metal design |
| | Primary walls, Secondary and unattached walls |
| | Unbend, bend back and cuts |
| | Notches and punches |
| | Sheet metal forms |
| | Bending & Unbending sheet metal geometry |
| | Converting solid parts |
| | Sheet metal drawings with flat states and bend order table |
| | Real time rendering |
|
Key Topics (Pro/ENGINEER Mechanism Design)
| | Introduction to Mechanism Design |
| | Understanding the Mechanism Design Process |
| | Creating the Model |
| | Verifying the Mechanism |
| | Adding Servo Motors |
| | Preparing for Analysis of a Mechanism |
| | Analyzing the Mechanism |
| | Evaluating Analysis Results |
| | Substituting Components By Rep, Envelope, and Model |
| | Understanding Advanced Simplified Rep Functionality |
| | Managing complex drawings |
| | Project |
|
Key Topics (Pro/ENGINEER Mold Design)
| | Basic about mold |
| | Type of molds |
| | Mold parts |
| | Creating the reference model |
| | Understanding shrinkage |
| | Creating a work piece automatically |
| | Creating and assembling a work piece manually |
| | Mold volume creation |
| | Parting line and parting surface creation |
| | Splitting mold volumes |
| | Mold component extraction |
| | Mold features creation |
| | Filling and opening the mold |
|
Key Topics (SolidWorks)
|
Sketcher basics |
|
3D sketching |
|
Part modeling |
|
Creating reference geometries |
|
Editing features |
|
Advanced modeling tools |
|
Configuration |
|
Design table/library features |
|
Import/Export of files |
|
Surface overview |
|
Bottom-up assembly |
|
Top-Down assembly |
|
Exploding assemblies |
|
Simulation/ Detailing |
|
BOM, Balloon tools |
|
Sheet metal |
|
PDM Works |
|
Weldment |
|
Key Topics (ANSYS)
|
Introduction to Engineering Design |
|
Different types of Numerical Methods & applications |
|
Practical Applications of FEA |
|
Basics of Finite Element Method (FEM) |
|
Analytical Method to solve any Mechanics Problem |
|
Theoretical FEM Procedure to solve above Mechanics Problem |
|
Theories of Failure |
|
Basic Linear & Torsional Equation |
|
Getting Started with ANSYS 11.0 |
|
CAD Modeling Using ANSYS |
|
Introduction to Meshing |
|
Types of elements & FEA design intent |
|
Meshing Techniques |
|
Assigning material properties |
|
Working with different boundary conditions |
|
Performing Different Analysis & Viewing Results |
|
1D element example Problems |
|
2D Plane Stress/strain example problem |
|
3D Analysis |
|
Thermal |
|
Coupled field Analysis |
|
Key Topics (CATIA V5)
| | CATIA user interface |
| | Creating and editing sketches |
| | Creating sketch based features |
| | Creating transformation features |
| | Creating dress up features |
| | Creating advanced replication tools |
| | Editing parts in assembly |
| | Creating surface features |
| | Generative Sheetmetal design |
| | Drawing view generation |
| | Drawing view generation |
| | Bill of materials, balloons |
| | Finalizing the drawing and printing |
| | Dress up on 2D Views |
| | Real time rendering |
|
Key Topics (GD&T)
| | Dimensions and Drawings |
| | Tolerance dimensioning |
| | Ways of expressing tolerance |
| | IT grades |
| | Introduction to "ASME Y14.5M-1994" |
| | GD&T Rules |
| | Maximum Material Condition of a feature of size |
| | Least Material Condition of a feature of size |
| | Concept of virtual condition |
| | Concept of bonus tolerance |
| | Planar datums |
| | Modifiers and Symbols |
| | Tolerance types |
|
Key Topics (Unigraphics NX)
|
User Interface |
|
Sketcher essentials |
|
Constraining sketches |
|
Managing sketches |
|
Datums |
|
Creating part features |
|
Editing parts |
|
Knowledge Fusion |
|
Creating fundamental curves |
|
Editing Curves |
|
Editing Freeform Features |
|
Basic Assembly Concepts |
|
Creating Assemblies |
|
Positioning Assembly Components |
|
Assembly Arrangements and Arrays |
|
Assembly Revisions and Component Replacements |
|
Assembly Sequencing and Motion |
|
Assemblies – Clearance and Analysis |
|
Deformable Components |
|
Part Families |
|
Introduction to Drafting |
|
Drawings and Viewss |
|
Creating dimensions, notes and labels |
|
Plotting Drawings |
|
GD&T Symbols |
|
Key Topics (Unigraphics NX CAM)
|
The Operation Navigator |
|
Manufacturing Objects |
|
Manufacturing Operations and Post-processing |
|
Wizards and Shop Documentation |
|
Planar Milling - Introduction and Profiling |
|
Engrave Text |
|
Face Milling |
|
Cavity Milling |
|
Z-Level Milling |
|
Thread Milling |
|
Area Milling |
|
Flow Cutting |
|
Radial Cutting |
|
Surface Area Cutting |
|
Engraving |
|
Contour Profiling |
|
Common Parameters |
|
Rough and Finish Turning |
|
Centerline Drilling |
|
Groove and Thread Operations |
|
Multiple Spindles and IPW |
|
Key Topics (PPM Concepts)
|
Instructions to Project Planning and Management |
|
What is a project? |
|
What is project management? |
|
Project management context |
|
Processes of a project management |
|
Initiation |
|
Planning |
|
Execution |
|
Controlling |
|
closure |
|
Knowledge areas in a project |
|
Cost management |
|
Scope management |
|
Quality management |
|
Risk management |
|
Human resources management |
|
Procurement management |
|
Integration management |
|
Communication Management |
|
Key Topics (Microsoft Office Project)
|
Activities, Calendars - Definitions, Sequencing & estimate duration |
|
How to develop a schedule plan and control |
|
Network analysis-CPM, PERT, PDM |
|
How to prepare Work Breakdown Structure (WBS) |
|
How to update WBS |
|
Constraints |
|
How to manage cost in a project |
|
How to do Resource Planning and Cost Estimation |
|
How to prepare Resource Sheet |
|
How to apply resource to each activity |
|
How to define Resource Pool and to allocate Resources |
|
Filters and Grouping |
|
How Material Resources are being allocated |
|
Analyzing resources by leveling the resource using crashing. |
|
Earned Value Analysis |
|
Method of developing different types of reports according to industrial needs |
|
Scheduling in multiple projects |
|
Customisation |
|
Key Topics (Primavera)
| | Defining Calendars |
| | Project Portfolio Management |
| | Defining the Enterprise Project Structure (EPS) |
| | Defining Organisation Breakdown Structure (OBS) |
| | Defining the Project Structure under the EPS |
| | Activities – Definition, sequencing & Estimating duration |
| | Effectively using the four types of PDM relationship |
| | Scheduling the project |
| | Defining constraints & overcoming conflicts |
| | Defining & Assigning activity codes |
| | Defining & assigning WBS codes |
| | How to organize the activities by using activity Codes & WBS codes |
| | Filtering activities |
| | Defining and assigning Work products and Documents |
| | Changing currency setting |
| | Defining Roles |
| | Defining Resources |
| | Assigning by Roles |
| | Assigning by resources |
| | Estimating the cost of the project |
| | How to analyse the resource by using resource profile & resource table |
| | How to do resource leveling |
| | Defining project codes and resource codes |
| | Updating the project progress & comparing the actual progress with baseline |
| | Analysing earned value management |
| | Preparing different types of tabular reports according to the industrial needs |
| | Preparing Graphical reports |
| | Highlighting the progress in the bar chart |
| | Application of Global change |
|
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