Mechanical
- D.A.M.E (Diploma in Advanced Mechanical Engineer
- Diploma in Advanced CNC Programming setting & Operating with CAD / CAM
- Diploma in Advanced CNC Programming and Operating with CAD / CAM
- Diploma in Advanced CNC Programming Setting and Operating
- Advanced Programming & Operations in CNC Lathe & Milling with AutoCAD
- Advanced Pogramming & Operations in CNC Lathe & Milling with MasterCAM
- Certificate Course in CNC Programmer cum Setter
- Advanced Programming & Operations in CNC Lathe & Milling
- NX (Unigraphics)
- CATIA
- ANSYS
- Diploma in Fire & Safety Engineering
- NDT Level II Non Destructive Testing
- ArtCAM
- 3D Printer
- PDMS (Plant Design Management System)
- Autodesk Fusion 360
- Autodesk Inventor
- Autodesk Revit MEP
- HVAC Design (Calculation & Theory)
- Tool & Die Design
- Solid works
- creo
- NX CAD
- GD&T
- Mastercam
- ArtCAM
- DelCAM
- NX CAM
- CNC Programmer & Setter
- Advanced CNC Programming & Operating
- AutoCAD 2020
D.A.M.E (Diploma in Advanced Mechanical Engineer
Duration: One year
Course Code: HCCC 01 Syllabus:
- Workshop calculation
- Material Science
- Quality control concept
- Pneumatics
- Hydraulics
- AutoCAD
- Mastercam
- CNC lathe programming
- CNC lathe practical
- CNC Milling programming
- CNC Milling practical
- Pro-e creo
- Fire Engineering
- Industrial safety Engineering
- Industrial visit
- Project
Diploma in Advanced CNC Programming setting & Operating with CAD / CAM
Durations: 6 Months
Course Code: HCCC 02
- CNC Programming and Setting
- AutoCAD
- MasterCAM
Practical Training 1 Month on CNC Machine at Our Own Industry
Diploma in Advanced CNC Programming and Operating with CAD / CAM
Diploma in Advanced CNC Programming Setting and Operating
Duration: 6 Months
Course Code: HCCC 04
- CNC Lathe Theory
- CNC Milling Theory
- CNC Lathe Practical
- CNC Milling Practical
- Machine Setting
- Machine Maintenance
Practical Training 3 Months on CNC Machine at Our Own Industry
Advanced Programming & Operations in CNC Lathe & Milling with AutoCAD
Duration: 3 Months
Course Code: HCCC 05
CNC Lathe
CNC Milling
AutoCAD
- 2D
- 3D
- Isometric
- Practical Training 10 Days on CNC Machine at Our Own Industry
Advanced Pogramming & Operations in CNC Lathe & Milling with MasterCAM
Duration: 3 Months
Course Code: HCCC 06
CNC Lathe
CNC Milling
MasterCAM
- 2D Drawing
- 3D Drawing
- 2D Program
- 3D Program
Practical Training 15 Days on CNC Machine at Our Own Industry
Certificate Course in CNC Programmer cum Setter
Duration: 2 Month
Course Code: HCCC 07s
- CNC Lathe
- CNC Milling
- Machine Setting
Practical Training 1 Month on CNC Machine at Our Own Industry
Advanced Programming & Operations in CNC Lathe & Milling
Duration: 1 Month
Course Code: HCCC 08
CNC Lathe
- Introduction of CNC Machine
- Application of CNC Machine
- Introduction of CNC lathe
- Co-ordinate methods
- Concept of Programming
- G-codes and M-codes
- Facing Program
- Step Turning
- Taper Turning
- Chamfer Program
- Cycle Programs
CNC MILLING
- Introduction of Milling
- G-codes and M-Codes
- Co-ordinate methods
- Facing Program,
- Chamfer and Radius Program
- Programming using I,J Method
- Pocketing Program
- Canned cycle
- Sub Program
- Maintenance and Trouble Shooting
- Measuring Instruments
Practical: 1 week
- Power ON, OFF Proper
- HOME Position Taken
- MPG (Handle Move) Applications
- MDI, JOG
- AUTO, EDIT
- MENU Offset (Work co-ordinate use)
- Display Use
- Button use (Programming Typing)
- JOB dial
- BORE dial
- JOB Setting
- JOB setting Dial, TOOL setting, JOB Running, JOB Output
NX (Unigraphics)
Duration : 1 month
Course Code: HCCC 13
- Part Modeling Sketching
- Constraining Sketches
- Surface Modeling
- Assembly Modeling
- Drafting
CATIA
Duration : 2 months
Course Code: HCCC 15
- Introduction to CATIA V5
- Drawing Sketches in the Sketcher Workbench-I
- Drawing Sketches in the Sketcher Workbench-II
- Constraining Sketches and Creating Base Features
- Reference Elements and Sketch-Based Features
- Creating Dress-Up and Hole Features
- Editing Features
- Transformation Features and Advanced Modeling Tools-I
- Advanced Modeling Tools-II
- Wireframe and Surface Design
ANSYS
Duration: 1 Month (3 Hrs / Day)
Course Code: HCCC 16
Syllabus
- 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 Problems
- Theoretical FEM Procedure to solve above Mechanics Problem
- Theories of Failure
- Basic linear & Torsional Equation
- Getting Started with ANSYS
- CAD Modeling using ANSYS
- Introduction to Meshing
- Types of elements & FEA Design intent
- Meshing Techniques
- Assigning materials properties
- Working with different boundary conditions
- Performing Different Analysis & viewing Results
- 1D element example problems
- 2D Plans Stress/Strain example problem
- 3D Analysis
- Coupled Field Analysis
Diploma in Fire & Safety Engineering
Duration: 6 Months
Course Code: HCCC 27
SAFETY MANAGEMENT
- International Health Safety Regulation
- Basic Safety management
- Emergency Response plan
- Explosure
- Security Management
SAFETY
- Basic Safety
- Ladders
- Scaffold
- Rope
- PPE (Personal Protective Equipment)
- Safety Construction
- Road Work Safety
- Air Quality Management
- Air Craft
- Ship Fire fighting
- Electrical Safety
- Grinding Wheel (Mechanical Safety)
FIRE
- ESSENTIAL OF FIRE
- FIRE EXTINGUISHERS
- i. ABC ii. Co2 iii. DCP iv. Foam v. Water + Co2 vi. Halogenated
- PHYSICAL REACTION
- i. Starvation ii. Smothering iii. Cooling
- FLAMMABLE LIQUIDS
- LPG
- FLAMMABILITY
- HYDRANT
- HYDRAULICS
- LADDERS
FIRST AID
NDT Level II Non Destructive Testing
ArtCAM
Duration : 1 Months
Course Code: HCCC 28
- Introduction of ArtCAM
- Graphic User Interface
CREATING 2D TOOLS
- Models Commands
- Editing Models
- Model Information
- File
- Model
- Bitmap Tools
- Vector Tools
- Position,Combine,Trim vector Tools
- Layers ( Vectors,Bitmaps,Reliefs )
CREATING 3D TOOLS
- Shape Editor
- Relief Tools
TOOLPATHS
- Toolpath Operations
- 2D Toolpaths
- 3D Toolpaths
- Toolpath Simulation
3D Printer
Syllabus:
Introduction About 3D Printing
Concepts, Types, Manufacturing,Applications
Types of 3D printing Process
3D Printing Material
About STL files Library
STL-conversion-Basic of CAD Tool (Import / Export Only)
Introduction about slicing software - Creality Slice
Importance of Support structure
Parts of 3D printing Machine
Loading / Unloading Material
3D printing machine interface - Home , control, Print,Pause, Stop, Resume,
Troubleshooting in 3D printing
Sample Model 1
Sample Model 2
Sample Model 3
Sample Model 4
PDMS (Plant Design Management System)
Syllabus:
AVEVA PDMS 12.0
Piping Engineering Course
- Introduction and over view of piping
- Piping basic
- Piping shape
- Piping material
- Selection of thick & Dia
- Piping flexibility
- Piping components & types
- Piping isometric
- Selection of code & standards
- Piping supports & hangers
- P&ID, PFD diagrams
- Piping insulation
PDMS (Plant Design Management System)
Equipment Modeling
- Basic
- General Utilities
- Create Equipment
- Modify Equipment
Pipe Works
- Pipe work modeling
- Modify pipe routing
- Piping Orientation
- Pipe work Utility
Structural
- Beams & Columns
- Panels & Plates
- Walls & Floors
- ASL Modeller
Supports & Electrical Works
- Hangers & Supports
- HVAC
- Cable Tray
- Create
- Modify
Drawing Manager
- Drafting
- ISO Generation
Reporters & Utilities
- Spooler
- Report Generation
- PDMS Commands
Autodesk Fusion 360
Syllabus:
Modelling
Getting started
- Modelling concept and workflow
- Exploring Fusion 360’s Graphical user Interface
Creating Sketch Geometry
- Sketching with dimensions & Constrains control
Working with solids
- Extrusion
- Revolution
- Creating Fillet & Chamfer
- Creating Sweep & Loft
Editing Your Model
T-Spline Modelling
- Creating Organic Forms using T-Splines
- Modify a T-spline Form
- Creating Solid Model from Sculpted Body
Assemblies and Constraints
- Working With Components
- Move and align Components
- Create a Rigid Group
- Use Joints to align components in an assembly
- Create as-built joints
- Define contact sets
- Set up motion study
- Apply top-down design methodology
Materials and Images (Rendering)
- Assign and edit materials
- Assign decals, setup the scene and render on the pc and online
- Creating Animation
Interoperability
Technical Drawings
- Create a Drawing of a model
- Create views
- Create and Edit Annotations
- Drawing settings and Preferences
- Output the Drawing
Autodesk Inventor
Syllabus:
Sketcher Environment:
- Introduction to Inventor Concepts
- Feature based concepts
- Parametric concepts
- Associative concepts
- Creating Sketcher Geometry & Using Sketcher Tools
Part modeling Environment:
Basic part modeling:
- Creating Extrudes, Revolve, Swept, Loft
- Advanced reference management
Assembly Environment:
- Top down & Bottom up assembly
- Assembly constraints
Drafting Environment:
- Generating drawing views
- Creating dimensions and Inserting annotations
- Bill of Materials (BOM)
Sheetmetal Environment:
- Sheetmetal design & Fundamentals
- Forming and Stamping tools
Surface Environment:
- Creation of Surfaces
- Ruled & lofted Surfaces
- Freeform Modeling
Autodesk Revit MEP
Course Name : Autodesk Revit MEP
Duration : 2 Months
Eligibility : Diploma / BE / ME (MECH)/ Equivalent
Syllabus:
STARTING MEP PROJECT
- Linking Projects
- View templates
- General System Options
ENERGY ANALYSIS FEATURES
- Use building elements for energy analysis mode
- Preparing spaces
- Zones in the system browser
VALIDATE ENERGY ANALYTCAL MODE
- Use third party tool for checking
- Heating and cooling load calculation
PLANNING MECHANICAL SYSTEM
- Adding mechanical equipment
- Adding diffuser
- Create duct system
ADDING DUCT SYSTEM
- Adding duct by duct layout
- Adding duct by duct pace holder
- Adding duct manually
- Ductsizing
ANNOTATION AND HYDRONIC CONNECTIONS
- Annotating duct
- Model pipe system
ELECTRICAL DESIGN
- Adding light fixtures
- Adding receptacles
- Adding & circuiting panel board
PANEL SCHEDULE
- Creating panel schedule
- Creating a switch system
- Circuiting receptacles
WIRING
- Adding wiring
- Modifying panel schedule
- Creating lighting circuit as per Indian standard
- PLUMBING
HVAC Design (Calculation & Theory)
Course Name : HVAC Design (Calculation & Theory)
Duration : 2 Months
Eligibility : Diploma / BE / ME (MECH) / ITI / +2 / Equivalent
Syllabus:
STARTING HVAC PROJECT
- Linking Projects
- View templates
- General System Options
ENERGY ANALYSIS FEATURES
- Use building elements for energy analysis mode
- Preparing spaces
- Zones in the system browser
VALIDATE ENERGY ANALYTCAL MODE
- Use third party tool for checking
- Heating and cooling load calculation
PLANNING MECHANICAL SYSTEM
- Adding mechanical equipment
- Adding diffuser
- Create duct system
ADDING DUCT SYSTEM
- Adding duct by duct layout
- Adding duct by duct pace holder
- Adding duct manually
- Ductsizing
ANNOTATION AND HYDRONIC CONNECTIONS
- Annotating duct
- Model pipe system
ELECTRICAL DESIGN
- Adding light fixtures
- Adding receptacles
- Adding & circuiting panel board
PANEL SCHEDULE
- Creating panel schedule
- Creating a switch system
- Circuiting receptacles
WIRING
- Adding wiring
- Modifying panel schedule
- Creating lighting circuit as per Indian standard
- PLUMBING
Tool & Die Design
Course Name : Tool & Die Design
Duration : 2 Months
Eligibility : DME, Tool & Die, Post Diploma CIPET, IT Fitter, Any one having interest to start Buisness in tool design & Manufacturing
Syllabus:
Die Design Frame work
Basic Level 1:
- BASIC DIE DESIGN AND DIE-WORK INFLUENCING FACTOR
Theory of Cutting – Types of operations – Type of Presses –Type of Press Tools – Conventional Machining Process - Design and Calculation of Simple Press Tools.
- AutoCAD Software
Draw Tools – Layer Handling Techniques – Dimensioning Techniques– 2D Animation – Using Blocks – Lisp Automation -Automation Techniques – CAD Rendering.
- Training on Design illustration to create Manufacturing Drawings.
- Demonstration of Designs in 2D and 3D.
- Project Work (Die Design for Day to Day Products).
Intermediate Level 2:
- Design of Various Press Tools (Stage Dies)– Design Calculations – Advance Machining Process - Advanced Manufacturing Techniques – Selection of Materials - Design Tips & Tricks – Selection of Design Elements – HeatTreatment Process – Fits & Tolerances.
- 3D Design Software – Applying Standards.
- Software Customization Tips & Tricks.
- Basic GD & T Symbols and Meanings.
- Project Work (Die Design & Manufacturing).
Advanced Level 3:
- Design of Progressive Dies – Trouble Shooting Techniques.
- Advanced level GD & T Usage with clear example of industry level.
- Advanced Die Design Standards with Industry Level.
- VBA Automation Basic Level to Automate Industry work.
- Project Work (Die Design & Manufacturing – Trouble shooting).
Entrepreneur Level 4:
- UG-NX Die Wizard for all Type of Press Tool Designs – Librar Creation Support -Die Forming Analysis – Die Wizard Tips & Tricks.
- Project Assignment to get Industrial Confident.
- Supporting for Own Jobs / Industry Support worker.
Solid works
Course Name : SolidWorks
Duration : 2 Months
Eligibility : Diploma / BE / ME (MECH)/ Equivalent
Syllabus:
- Introduction :
Introduction of SolidWorks
- Graphical User Interface(GUI) :
- New page
- Units Settings
- Menu bars
- Tool bars
- Task plane
- Feature Manager Design Tree
- Save
- Selections Methods
- Mouse Controls
- SKETCH :
- Line, Centerline
- Rectangle
- Corner Rectangle
- Centre Rectangle
- 3 Point Corner Rectangle
- 3 Point Centre Rectangle
- Parallelogram
- Circle
- Perimeter Circle
- Arc
- Center point Arc
- Tangent Arc
- 3 Point Arc
- Slot
- Straight Slot
- Centre point straight Slot
- 3 Point Arc Slot
- Centre point Arc Slot
- Polygon
- Spline
- Ellipse
- Partial Ellipse
- Parabola
- Conic
- Sketch Fillet
- Sketch Chamfer
- Text
- Point
- Trim Entities
- Extend Entities
- Convert Entities
- OffsetEntities
- Mirror Entities
- Dynamic Mirror
- Pattern
- Linear sketch pattern
- Circular sketch pattern
- Move Entities
- Copy Entities
- Rotate Entities
- Scale Entities
- Stretch Entities
- Relations
- Add Relations
- Display/Delete Relations
- Quick Snaps
- Rapid Sketch
- Belt Chain
- Jog Line
- PART MODELLING :
- Plane’s, Extruded Boss/Base, Extruded Cut
- Revolved Boss/Base, Revolved Cut
- Swept Boss/Base, Swept Cut
- Lofted Boss/Base, Lofted Cut
- Hole Wizard
- Rib, Shell, Draft
- Fillet, Chamfer,Free Form
- Deform, Dome
- Flex, Wrap
- Split, Combine
- Scale, Mirror
- Pattern
- Linear Pattern
- Circular Pattern
- Mirror
- Curve Driven Pattern
- Sketch Driven Pattern
- Table Driven Pattern
- Fill Pattern
- Mounting Boss
- Snap Hook
- Vent
- Reference Geometry
- Plane
- Axis
- Coordinate System
- Point
- Curves
- Split Line
- Project Curve
- Composite Curve
- Curve Through XYZ Points
- Helix and Spiral
- Thicken
- Join
- ASSEMBLY MODELING :
- Insert Component
- Mate
- Coincident
- Parallel
- Perpendicular
- Tangent
- Concentric
- Lock
- Distance
- Angle
- Advanced mates
- Symmetric
- Width
- Path mate
- Linear/Linear coupler
- Distance
- Angle
- Pattern Component
- Linear Component Pattern
- Circular Component Pattern
- Pattern Driven Component Pattern
- Sketch Driven Component Pattern
- Curve Driven Component Pattern
- Mirror Component
- Smart Fasteners
- Move Component
- Rotate Component
- Show Hidden Component
- Exploded View
- Take Snapshot
- DRAFTING :
- Sheet set
- Standard 3View
- Model View
- Project View
- Auxiliary View
- Detail View
- Break View
- Crop View
- Broken Out Section View
- Section View
- Relative To Model
- Alternate Position View
- Predefined
- Annotations
- Note
- Linear Note Pattern
- Circular Note Pattern
- Balloon
- Stacked Balloon
- Surface Finish Symbol
- Weld Symbol
- Geometric Tolerance
- Datum Feature Symbol
- Cosmetic Thread
- Revision cloud
- Centre mark
- Centre Line
- Multi Jog Leader
- Dowel pin Symbol
- Area Hatch/Fill
- Block
- Tables
- Bill of Materials
- Object
- Picture
- DXF/DWG
- RENDERING :
- Edit Appearance
- Edit Scene
- Edit Decal
- Edit Preview
- Final Render
- Options.
- IMPORT & EXPORT:
- ADD INS:
- Photo view 360
- Solid works Tool Box
- Solid works Tool Box Browser
- SURFACE MODELING :
- Extruded Surface, Revolved Surface
- Swept Surface, Lofted Surface
- Boundary Surface, Filled Surface
- Free Form, Planer Surface
- Offset Surface, Ruled Surface
- Fillet, Delete Face
- Replace Surface, Extend Surface
- Trim Surface, Untrim Surface
- Knit Surface, Thicken
- Thicken Cut, Cut with Surface
- SHEET METAL MODELING:
- Base Flange/Tab, Lofted Bend
- Edge Flange, Miter Flange
- Hem, Jog
- Sketched Bend, Cross Break
- Corners, Forming Tools
- Fold, Unfold
- Flatten, Rip
- Convert To Sheet Metal.
creo
Course Name : creo
Duration : 2 Months
Eligibility : Diploma / BE / ME (MECH)/ Equivalent
Syllabus:
1: INTRODUCTION TO CREO PARAMETRIC
- Introduction to Creo Parametric
- Feature-Based Nature
- Bidirectional Associative Property
- Parametric Nature
- System Requirements
- Getting Started with Creo Parametric
- Important Terms and Definitions
- File Menu Options
- Managing Files
- Menu Manager
- Model Tree
- Understanding the Functions of the Mouse Buttons
- Ribbon
- Toolbars
- Navigator
- Creo Parametric Browser
- Appearance Gallery
- Rendering in Creo Parametric
- Colour Scheme Used in this Book
2: CREATING SKETCHES IN THE SKETCH MODE-I
- The Sketch Mode
- Working with the Sketch Mode
- Invoking the Sketch Mode
- The Sketcher Environment
- Working with a Sketch in the Sketch Mode
- Drawing a Sketch Using tools available in the Sketch Tab
- Placing a Point
- Drawing a Line
- Drawing a Centerline
- Drawing a Geometry Centerline
- Drawing a Rectangle
- Drawing a Circle
- Drawing an Ellipse
- Drawing an Arc
- Dimensioning the Sketch
- Converting a Weak Dimension into a Strong Dimension
- Dimensioning a Sketch Using the Normal Tool
- Dimensioning the Basic Sketched Entities
- Linear Dimensioning of a Line
- Angular Dimensioning of an Arc
- Diameter Dimensioning
- Radial Dimensioning
- Dimensioning Revolved Sections
- Working with Constraints
- Types of Constraints
- Disabling Constraints
- Modifying the Dimensions of a Sketch
- Using the Modify Button
- Modifying a Dimension by Double-Clicking on it
- Modifying Dimensions Dynamically
- Resolve Sketch Dialog Box
- Deleting the Sketched Entities
- Trimming the Sketched Entities
- Mirroring the Sketched Entities
- Inserting Standard/User-Defined Sketches
- Drawing Display Options
3: CREATING SKETCHES IN THE SKETCH MODE-II
- Dimensioning the Sketch
- Dimensioning a Sketch Using the Baseline Tool
- Replacing the Dimensions of a Sketch Using the Replace Tool
- Creating Fillets
- Creating Circular Fillets
- Creating Elliptical Fillets
- Creating a Reference Coordinate System
- Working with Splines
- Creating a Spline
- Dimensioning of Splines
- Modifying a Spline
- Writing Text in the Sketcher Environment
- Rotating and Resizing Entities
- Importing 2D Drawings in the Sketch Mode
- 4: CREATING BASE FEATURES
- Creating Base Features
- Invoking the Part Mode
- The Default Datum Planes
- Creating a Protrusion
- Extruding a Sketch
- Revolving a Sketch
- Understanding the Orientation of Datum Planes
- Parent-Child Relationship
- Implicit Relationship
- Explicit Relationship
- Nesting of Sketches
5: DATUMS
- Datums
- Default Datum Planes
- Need for Datums in Modeling
- Selection Method in Creo Parametric
- Datum Options, Datum Planes
- Creating Datum Planes
- Datum Planes Created On-The-Fly
- Datum Axes, Datum Points
- Creating Cuts, Removing Material by Using the Extrude Tool
- Removing Material by Using the Revolve Tool
- 6: OPTIONS AIDING CONSTRUCTION OF PARTS-I
- Options Aiding Construction of Parts
- Creating Holes, The Hole Dashboard
- Important Points to Remember While Creating a Hole
- Creating Rounds, Creating Basic Rounds
- Creating a Variable Radius Round
- Points to Remember While Creating Rounds
- Creating Chamfers, Corner Chamfer
- Edge Chamfer, Understanding Ribs
- Creating Trajectory Ribs
- Creating Profile Ribs
- Editing Features of a Model
- Editing Definition or Redefining Features
- Reordering Features
- Rerouting Features, Suppressing Features
- Deleting Features, Modifying Features
7: OPTIONS AIDING CONSTRUCTION OF PARTS-II
- Introduction, Creating Feature Patterns
- Uses of patterns, Creating Patterns
- Deleting a Pattern, Copying Features
- New Refs, Same Refs, Mirror, Move
- Select, Mirroring a Geometry
- Creating a Section of a Solid Model
- Work Region Method
8: ADVANCED MODELING TOOLS-I
- Other Protrusion Options
- Sweep Features
- Creating Sweep Protrusions
- Aligning a Sketched Trajectory to an Existing Geometry
- Creating a Thin Sweep Protrusion
- Creating a Sweep Cut, Blend Features
- Parallel Blend, Rotational Blend
- General Blend, Using Blend Vertex
- Shell Feature, Creating a Constant Thickness Shell
- Creating a Variable Thickness Shell 8
- Datum Curves
- Creating a Datum Curve by Using the Curve Button
- Creating a Datum Curve by Sketching
- Creating a Curve by Using the Intersect Option
- Creating a Curve by Using the Project Option
- Creating a Curve by Using the Wrap Option
- Creating Draft Features
9: ADVANCED MODELING TOOLS-II
- Advanced Feature Creation Tools
- Variable Section Sweep Using the Sweep Option
- Swept Blend, Helical Sweep
- Blend Section to Surfaces
- Blend Between Surfaces
10: ADVANCED MODELING TOOLS-III
- Advanced Modeling Tools, Toroidal Bend
- Spinal Bend, Warp
- Transform Tool, Warp Tool
- Spine Tool, Stretch Tool
- Bend Tool, Twist Tool, Sculpt Tool
11: ASSEMBLY MODELING
- Assembly Modeling, Important Terms Related to the Assembly Mode
- Top-down Approach, Bottom-up Approach
- Placement Constraints, Package
- Creating Top-down Assemblies
- Creating Components in the Assembly Mode
- Creating Bottom-up Assemblies
- Inserting Components in an Assembly
- Assembling Components
- Displaying Components in a Separate Window
- Displaying Components in the Same Window
- 3D Dragger, Applying Constraints
- Status Area, Placement Tab
- Move Tab, Packaging Components
- Creating Simplified Representations
- Redefining the Components of an Assembly
- Reordering Components
- Suppressing/Resuming Components
- Replacing, Assembling Repeated Copies of a Component
- Modifying the Components of an Assembly
- Modifying Dimensions of a Feature of a Component
- Redefining a Feature of a Component
- Creating the Exploded State
- References Tab Offset Tab, Explode Line Tab
- The Bill of Materials, Global Interference
- Pairs Clearance
12: GENERATING, EDITING, AND MODIFYING THE DRAWING VIEWS
- The Drawing Mode
- Generating Drawing Views
- Generating the General View
- Generating the Projection View
- Generating the D
NX CAD
Syllabus:
- Introduction to 3D modeling
- Introduction to NX CAD
Graphical User Interface(GUI) :
NEW:
- Model
- Assembly
- Drawing
Sketch Curve :
- Direct Sketch, Profile
- Rectangular, Line
- Arc, Circle, Point
- Chamfer, Fillet
- Quick Trim, Quick Extend
- Make corner, Move Curve
- Offset curve, Studio Spline
- Polygon, Ellipse
- Conic, Pattern curve
- Offset curve, Move offset curve
- Mirror curve, Helix
- Text
Sketch Constraints
- Geometric Constraints
- Dimensional Constraints
- Continuous Auto Dimensioning
- Display Sketch Constraints
- Show/Remove Constraints
Datum
- Datum Plane
- Datum Axis
- Datum CSYS
- Point
Design Feature
- Extrude, Revolve
- Block, Cylinder
- Cone, Sphere
- Sweep Along Guide, Swept
- Variable section Sweep, Tube
- Hole, Boss, Pocket
- Pad, Emboss body, offset Emboss, Slot, Groove
- Rib, Dart, Thread
Associative Copy :
- Pattern feature, Unite
- Subtract, Intersect
- Edge Blend, Trim Body
- Split Body, Divide Face
- Shell, Thicken
- Scale Body
- Draft, Draft Body
- Edge Blend
- Face Blend
Synchronous Modeling :
- Move face
- Pull Face
- Offset region
- Replace face
- Resize face
- Delete face
- Resize blend
- Resize chamfer
- Copy Face
- Cut Face
- Paste Face
- Mirror Face
- Pattern Face
RENDER:
- True shading
- True shading Editor
- Basic Lights
- Scene Editor
- Materials/textures
- High Quality Image
Tools :
- Utilities
- Materials
- Movie
- Measure
ASSEMBLY:
- Add Component
- Assembly Constraints
- Show and Hide Constraints
- Pattern Component
- Mirror Assembly
- Move Component
- Rotate Component
- Sequence - Movie
Exploded View :
- New Explosion
- Edit Explosion
- Auto Explode Components
- Un Exploded Components
- Delete Explosion
- Hide Explosion
- Show Explosion
- Trace lines
DRAFTING OR DRAWING:
- New Sheet
- View creation wizard
- Base view
- Projected view
- Detail view
- View Break
- Section view
- Half Section View
- Revolved Section View
- Breakout Section View
- Update Views
Dimension:
- Rapid
- Linear
- Radial
- Angular
- Ordinate
Annotation:
- Note
- Feature Control Frame
- Datum feature symbol
- Datum Target
- Balloon
- BOM
- Image
- Intersection symbol
- Surface finish symbol
- Centre Mark
- Blot Circle Centerline
- Circular Centerline
- Symmetrical Centerline
- 2D Centerline
- Automatic Centerline
- Cross Hatch
- Area Fill
- Tabular Note
- Parts List
- Auto Balloon
- Edit Settings
- Title Block
- Save as Template
- Creating New Template
Import and Exports
- Practice
- Geometry creation
- Geometry Modification
- Images
GD&T
Syllabus:
GD&T (Geometric dimension and tolerance)
- Introduction to GD&T
- Dimensioning &Tolerance
- Datum’s, GD&T Symbols
- GD&T Concepts and rules
- Tolerance types
- Dimensioning standards
- Design indent of GD&T
Mastercam
Course Name : Mastercam
Duration : 2 Months
Eligibility : Diploma / BE / ME (MECH)/ Equivalent
Syllabus:
MASTER CAM SYLLABUS
- Introduction to CNC Machines
- Introduction to MASTERCAM
- Product Introduction
- Basic concepts of CAM (cutters, machines job setup, etc)
Create
- point, line, arc
- fillet, chamfer, spline
- curve, surface, drafting
- Rectangle, Rectangle shape
- polygon, ellipse
- spiral, helix, primitives
- litter, boundary box
- bolt circle
Solids
- extrude, revolve, sweep
- loft, fillet, chamfer
- shell, trim, thicken
- remove face, draft face
- pattern, boolean add
- boolean remove
- boolean common
- non associative, find features
- from surface, layout
- face / features colurs
Edit
- Trim/Brake
- join endities
- modify spline
Analyze
- entities properties, position
- distance, volume / area
- chain, contour
- angle, dynamic
Xform
- Translate, translate 3d
- mirror, rotate
- scale, dynamic xform
- move to origin, offset
- offset contour, project
- rectangular array
- practice sketch 07&08
- Program surface rough- pocket
Screen
- Clear colour, statistics
- disply entity endpoints
- blank entity,
- un blank entity
- hide entity
- unhide some
- grit setting
- shade setting
Creating 2D Program
- Pocket, Contour,Facing,Drilling
- Transforming 2D tool paths(Translate,Rotate,Mirror)
- Hole milling, slot milling and helical milling tool paths
- Back plot, Verification, post processing
Creating 3D Program
- boundary box, Orientation, Analyzing
- Pocket,Contour,Shallow,Parallel,Restmilling,Corner finishing tool paths
- Back plot, Verification, Gouge checking, Post – processing, Editing of programs
ArtCAM
Course Name : ArtCAM
Duration : 2 months
Eligibility : +2 / ITI / DIP /BE / Equivalent
Syllabus:
The ArtCAM interface
- Understanding the framework
- Understanding the Start panel
- Understanding the Project panel
- Understanding the Tool Settings panel
- Understanding the Tool paths panel
- Understanding the Assistant panel
- Understanding the Layers panel
- Understanding the design windows
- Using 2D View windows
- Using the 3D View Window
- Information about ArtCAM
Creating models
- Creating a new model
- Creating a new model from a file
- Creating a new model using pixels
- Creating a model using the Face Wizard
- Opening a model
- Opening recent models
- Setting the model resolution
- Saving a model
- Closing a model
Creating projects
- Creating a new project
- Creating a new project from a file
- Opening a project
- Opening recent projects
- Saving a project
- Closing a project
The 2D design process
- Using bitmap layers
- Importing bitmap artwork
- Choosing the active layer
- Creating a new layer
- Renaming a layer
- Viewing a layer
- Creating and editing bitmap artwork
- Reducing colours
- Colour linking
- Selecting the primary and secondary colours
- Using the Paint tools
- Using the Draw tool
- Using the Flood Fill tools
- Converting bitmap artwork into vector artwork
- Using vector layers
- Importing vector artwork
- Creating a new layer
- Selecting vector artwork
- Choosing the active layer
- Renaming a layer
- Assigning a colour to a layer
- Locking a layer
- Snapping on a layer
- Viewing a layer
- Setting the stacking order
- Creating artwork on a vector layer
- Creating preset vector shapes
- Creating free-form vector shapes
- Converting vector artwork into bitmap artwork
- Editing vector artwork
- Selecting nodes and control points
- Converting spans
- Moving nodes
- Inserting nodes
- Smoothing nodes
- Aligning nodes
The 3D Design Process
- Using relief layers
- Choosing the active layer
- Creating a new layer
- Setting the combine mode
- Renaming a layer
- Creating a bitmap layer from a relief layer
- Viewing a layer
- Previewing a relief layer's content
- Transferring relief layers between stacks
- Creating a relief layer from bitmap artwork
- Using the Shape Editor
- Creating simple shapes using bitmap colors
- Creating simple shapes using closed vectors
- Calculating a relief
- Replacing the relief
- Adding to the relief
- Subtracting from the relief
- Merging with the relief
- Creating complex shapes using vectors
- Creating an extruded shape
- Creating a spun shape
- Creating a turned shape
- Creating a two-rail sweep
- Creating a two-rail ring sweep
- Creating an Embossed Relief
- Importing a triangle or surface model
- Sculpting a relief
- Importing from the Component Library
Creating Toolpaths
- Using the Tool Database
- Saving toolpaths
Simulating toolpaths
- Resetting a simulation
- Deleting a simulation
- Saving a toolpath simulation
- Loading a toolpath simulation from a relief
- Creating a relief layer from a simulation
- Shading a toolpath simulation
- Toggling the simulation display
DelCAM
Course Name : DelCAM
Duration : 2 months
Eligibility : +2 / ITI / DIP /BE / Equivalent
Syllabus:
- Introduction & Understanding DelCAM GUI
Work plane set up, wire frame modeler, data exchange, set block for machining
- Customizing Power MILL Stock Models, define Work planes
- Machining simulation
- Data exchange
- Wire frame modeler
- Create process sheet Setup for machining
- Define boundaries for machining, define block, measurement
3D area Clearance Strategies
- Offset area clearance model
- Profile area clearance model
- Raster area clearance model
- Rest machining
Finishing
- 3D-offset finishing
- Constant Z- finishing
- Optimized constant z-finishing
- Offset flat finishing, raster flat finishing
- Pattern finishing, spiral finishing
- Raster finishing, radial finishing
- Corner along finishing, corner multi pencil finishing, corner automatic and stitch finishing, corner pencil finishing
- Surface finishing
- Practice finishing
2D-area clearance machining and post processor selection for Q&M code
- Face milling
- 2D-curve area clearance
- 2D-curve profile
- Drilling
- Post processor selection to convert DelCAM file in to Q&M code
NX CAM
Course Name : NX CAM
Duration : 2 months
Eligibility : +2 / ITI / DIP /BE / Equivalent
Syllabus:
Introduction
- Introduction to NX CAM Manufacturing Overview & Processes
Milling Operations
- Manufacturing [Work flow / Environment/Part Analysis]
- Milling Processors & Operations
- Milling Calculation / Programming/ Feeds / Tools & Paths
- Face Milling Operation
- Planar milling Operation
- Contour milling Operation
- Surface Contouring Operation-1
- Surface Contouring Operation-2
- Multiblade milling Operation
- Self Assessment-1
Drilling Operation
- Process/Overview/Machines/Tools
- Operation-1 [Spot Drilling/Contour Boring/Reaming]
- Operation-2 [Peck Drilling/ Boring/ Contour Sinking]
- Self Assessment-2
Turning Operation
- Process/Overview/Machines/Tools
- Operations-1
- Operations-2
- Self Assessment-3
- About CNC Programming
CNC Programmer & Setter
Syllabus:
Theory: (1 month)
CNC Lathe
- Introduction of CNC Machine
- Application of CNC Machine
- Introduction of CNC lathe
- Co-ordinate methods
- Concept of Programming
- G-codes and M-codes
- Facing Program
- Step Turning
- Taper Turning
- Chamfer Program
- Cycle Programs
CNC MILLING
- Introduction of Milling
- Co-ordinate methods
- Absolute Method
- Incremental Method
- G-codes and M-Codes
- Facing Program,
- Chamfer and Radius Program
- Programming using I,J Method
- Pocketing Program
- Canned cycle
- Drilling
- Boring
- Counter Sinking
- Counter Boring
- Tapping
- Reaming
- Sub Program
- Maintenance and Trouble Shooting
- Measuring Instruments
Practical:( 1 month)
- ON, OFF Proper
- HOME Position Taken
- MPG (Handle Move) Applications
- MDI, JOG
- AUTO, EDIT
- MENU OFF Set (Work co-ordinate use)
- Display Use
- Button use (Programming Typing)
- JOB dial
- BORE dial
- JOB Setting
- JOB setting Dial, TOOL setting , JOB Running, JOB Output
Advanced CNC Programming & Operating
Syllabus:
Theory: (1 month)
CNC Lathe
- Introduction of CNC Machine
- Application of CNC Machine
- Introduction of CNC lathe
- Co-ordinate methods
- Concept of Programming
- G-codes and M-codes
- Facing Program
- Step Turning
- Taper Turning
- Chamfer Program
- Cycle Programs
CNC MILLING
- Introduction of Milling
- Co-ordinate methods
- Absolute Method
- Incremental Method
- G-codes and M-Codes
- Facing Program,
- Chamfer and Radius Program
- Programming using I,J Method
- Pocketing Program
- Canned cycle
- Drilling
- Boring
- Counter Sinking
- Counter Boring
- Tapping
- Reaming
- Sub Program
- Maintenance and Trouble Shooting
- Measuring Instruments
Practical:( 1 Week)
- ON, OFF Proper
- HOME Position Taken
- MPG (Handle Move) Applications
- MDI, JOG
- AUTO, EDIT
- MENU OFF Set (Work co-ordinate use)
- Display Use
- Button use (Programming Typing)
- JOB dial
- BORE dial
- JOB Setting
- JOB setting Dial, TOOL setting , JOB Running, JOB Output
AutoCAD 2020
Syllabus:
- Introduction to Engineering Drawings
Projections (First & Third angle)
Views (Orthographic, Isometric & Perspective)
Introduction to AutoCAD
Co-ordinate systems - Drawing settings – Units, Limits, UCSIcon
Drawing simple sketches using Line, Circle, Arc, Ellipse, Polygon, Rectangle, Drafting Setting - Editing commands – Erase, Undo, Redo, Move, Copy, Rotate, Array, Mirror
File Management - New, Qnew, Open, Save, Save as, Close, Exit, Quit
Mini Project 1 – Orthographic Views - Editing commands – Fillet, Chamfer, Scale, Stretch, Offset, Break, Trim, Extend
- Hatches, Hatch Edit
- Object Selection Methods
Select, Qselect
Annotations - Text, Style, Ddedit, Mtext, Scaletext, Spell, Table, Tabledit
Object Properties - Color, Linetype, Ltscale, Lineweight, Properties, Matchprop - Dimension - Linear, Aligned, Radius, Diameter, Center Mark, Angle, Arc length, Continuous, Baseline, Dimension Space, Dimension Break, Jogged radius, Oblique, Align Text, Mleader, Qleader
- Isometric view,Iso plane Mini project 2 - Isometric views
- 3D Introduction
- Region, Explode, Extrude, Revolve, Union, Subtract, Slice, Thicken
- Modeling Tools : Solid Primitives
Box, Wedge, Cylinder, Cone, Sphere, Torus, - 3D move, 3D rotate, 3D Array, 3D Mirror, fillet Edge, Chamfer Edge
- Polysolid, Sweep, Helix, Loft, Print setup
- Layer Management
Adding / Removing Layers
Layer Status - Speed test
- Subject of cad
- Mini Project 1 (2D)
- Mini Project 2 (Isometric)
- Mini Project 3 (3D)
- Final Project