Best NX CAM Training Company in Chandigarh/ Mohali/ Bhatinda

NX CAM is the leader and pioneer in Computer-aided manufacturing software which is owned by Siemens. With the help of NX CAM, the end result of any finished product is best in terms of efficiency and faster. NX CAM undoubtedly can be considered in the next generation in terms of designing and manufacturing solutions provided to the industries all across the world. NX CAM training in Chandigarh is best at Infowiz where the complete functioning i.e. right from scratch to the advanced functions on the latest machine tool technology. We will make you gain perfection on this advance software widely used and accepted all over the industries. NX CAM certification course in Chandigarh from our organization helps you to handle the complex assemblies at an ease and thereby eliminating any chances of wastages and mistakes otherwise normal course might be having. Our resources work side by side with the end-user and providing the trainees exceptional coaching on application functionality. We offer a customized curriculum that ideally matches and meets the specific needs of the organization.

NX cam course in Chandigarh provided by our organization offers the best opportunities and possibilities of ample learning and real hands-on practical training on latest and advanced tools. we are providing excellent job opportunities and career growth in the top MNC’s ,manufacturing companies not only in India but in abroad too. NX training institute in Chandigarh is the best place to gain In-depth knowledge of NX cam in Infowiz which offers promising career by offering state of the art training on latest and advance modules of NX cam.


Best 6 months/weeks NX CAM Industrial Training in Chandigarh, Mohali and Bhatinda

In order to attain perfection and become an expert in NX cam learn from the best and leaders of the industry where you can give a flying start to your career growth as this field is offering ample opportunities and demand of professionals is always on a high note with the handsome offering. Best 6 months/weeks NX CAM industrial training in Chandigarh from Infowiz where we develop and teach practical knowledge of software development starting from the basics to the advanced concepts. One can acquire in-depth knowledge of creation of conceptual designs, performing 3D modeling. Our training helps to be proficient in the development of quality machining and tooling. Best six months/weeks NX VAM industrial training in Chandigarh from Infowiz will give momentum to your career growth and it is ideal place that provides one-stop-shop for learning machine tool programming , processing and machine simulation.


Why Choose Infowiz for NX CAM Training in Punjab

It is always beneficial to develop upon your skills from top organizations and leaders from the industry. NX CAM offers to work efficiently and with greater pace on the full range of design tasks, from 2D layout to 3D modeling, large scale assembly designs only at Infowiz. Best NX CAM training in Chandigarh From our organization will impart and enhance upon the necessary and essential skills required to cope up with the norms and standards laid down in the organization and are in demand now a day in the industrial sector and getting fully trained through our company will give a new horizon to your career.


NX CAM Industrial Training – Course Content


  • Introduction to NX
  • System Requirements
  • Getting Started with NX
  • Important Terms and Definitions
  • Understanding the Functions of the Mouse Buttons
  • Toolbars
  • Hot Keys
  • Color Scheme
  • Dialog Boxes in NX
  • Selecting Objects
  • Deselecting Objects
  • Selecting Objects Using the Quick Pick Dialog Box
  • Self-Evaluation Test


  • The Sketcher Environment
  • Starting NX
  • Starting a New Document in NX
  • Invoking Different NX Environments
  • Creating Three Fixed Datum Planes (XC-YC, YC-ZC, XC-ZC)
  • Displaying the WCS (Work Coordinate System)
  • Invoking the Sketcher Environment
  • Sketching Tools
  • Drawing Sketches Using the Profile Tool
  • Using Help Lines to Locate Points
  • Drawing Individual Lines
  • Drawing Arcs
  • Drawing Circles
  • Drawing Rectangles
  • Placing Points
  • Drawing Ellipses or Elliptical Arcs
  • Drawing Conics
  • Drawing Studio Splines
  • Filleting Sketched Entities
  • The Drawing Display Tools
  • Fitting Entities in the Current Display
  • Zooming to an Area
  • Dynamic Zooming
  • Panning Drawings
  • Fitting View to Selection
  • Restoring the Original Orientation of the Sketching Plane
  • Setting Selection Filters in the Sketcher Environment
  • Selecting Objects
  • Deselecting Objects
  • Using Snap Points Options While Sketching
  • Deleting Sketched Entities
  • Exiting the Sketcher Environment


  • Constraining Sketches
  • Concept of Constrained Sketches
  • Under-Constrain
  • Fully-Constrain
  • Over-Constrain
  • Degree of Freedom Arrows
  • Geometric Constraints
  • Applying Additional Constraints Individually
  • Applying Automatic Constraints to a Sketch
  • Controlling Inferred Constraints Settings
  • Showing All Constraints in a Sketch
  • Turning off the Display of All Constraints in a Sketch
  • Showing/Removing Constraints
  • Converting a Sketch Entity into a Reference Entity
  • Dimensional Constraints
  • Applying Horizontal Dimensions
  • Applying Vertical Dimensions
  • Applying Parallel Dimensions
  • Applying Perpendicular Dimensions
  • Applying Angular Dimensions
  • Applying Diameter Dimensions
  • Applying Radius Dimensions
  • Applying Perimeter Dimensions
  • Applying Dimensions by Using the Inferred Dimensions Tool
  • Editing the Dimension Value and Other Parameters
  • Animating a Fully Constrained Sketch
  • Measuring the Distance Value between a Objects in a Sketch
  • Measuring the Distance between Two Objects in a Sketch
  • Measuring the Projected Distance between Two Objects
  • Measuring the Screen Distance between Two Objects
  • Measuring the Length of an Arc or a Line
  • Measuring the Angle between Entities
  • Measuring the Angle Value Using the By Objects Option
  • Measuring the Angle Value Using the By 3 Points Option
  • Measuring the Angle Value Using the By Screen Points Option


  • Editing Sketches
  • Trimming Sketched Entities
  • Extending Sketched Entities
  • Creating a Corner between Sketched Entities
  • Mirroring Sketched Entities
  • Copying, Moving, and Rotating Sketched Entities
  • Transforming Sketched Entities
  • Editing Sketched Entities by Dragging
  • Exiting the Sketcher Environment
  • Changing the View of the Sketch
  • Creating Base Features by Extruding
  • Extrude Dialog Box Options
  • Creating Solid Revolved Bodies
  • Hiding Entities
  • Showing Hidden Entities
  • Hiding All Entities Using a Single Tool
  • Rotating the View of a Model in 3D Space
  • Setting Display Modes


  • Advanced Modeling Tools
  • Creating Simple Holes
  • Creating Counter bore Holes
  • Creating Countersink Holes
  • Creating Holes by using the Hole Tool
  • Creating General Holes
  • Creating Drill Size Hole
  • Creating Screw Clearance Hole
  • Creating Threaded Hole
  • Creating Hole Series
  • Creating Grooves
  • Creating Rectangular Grooves
  • Creating Ball End Grooves
  • Creating U Grooves
  • Creating Slots
  • Creating Rectangular Slots
  • Creating Ball-End Slots
  • Creating U-Slots
  • Creating T-Slots
  • Creating Dove-Tail Slots
  • Creating Chamfers
  • Creating a Chamfer Feature Using the Symmetric Method
  • Creating a Chamfer Feature Using the Asymmetric Method
  • Creating a Chamfer Feature Using the Offset and Angle Method
  • Creating an Edge Blend


  • Advanced Modeling Tools
  • Instance Feature Tool
  • Creating Rectangular Arrays Using the Instance Feature Tool
  • Creating Circular Arrays Using the Instance Feature Tool
  • Using the Pattern Face Option of the Instance Feature Tool
  • Mirror Feature Tool
  • Mirror Body Tool
  • Sweeping Sketches along the Guide Curves
  • Creating Swept Features
  • Creating Tubes or Cables
  • Creating Threads
  • Creating Symbolic Threads
  • Creating Detailed Threads
  • Creating Shell Features
  • Shelling the Entire Solid Body


  • Editing Features
  • Editing a Hole Feature
  • Editing the Positioning of a Hole Feature
  • Editing the Positioning of a Groove Feature
  • Editing the Positioning of a Slot Feature
  • Editing the Parameters of Features
  • Editing the Parameters of Features with Rollback
  • Editing Sketches of the Sketch-based Features
  • Reordering Features
  • Advanced Modeling Tools
  • Creating Boss Features
  • Creating Pocket Features
  • Creating Pad Features
  • Creating Drafts


  • Creating Curves from Bodies
  • Creating Intersection Curves
  • Creating Section Curves
  • Creating Extract Curves
  • Advanced Surface Modeling Tools
  • Creating Dart Features
  • Creating Emboss Sheet Features
  • Creating Face Blend Features
  • Creating Soft Blend Features
  • Creating Fillet Features
  • Creating Bridge Features


  • The Assembly Environment
  • Invoking the Assembly Environment
  • Invoking the Assembly Environment Using the Assembly
  • Template from the New Dialog Box
  • Invoking the Assembly Environment in the Current Part File
  • Types of Assembly Design Approaches
  • Creating Bottom-up Assemblies
  • Placing Components in the Assembly Environment
  • Changing the Reference Set of a Component
  • Applying Assembly Constraints to Components
  • Points to Remember while Assembling Components
  • Creating a Component Array in an Assembly
  • Replacing a Component in an Assembly
  • Moving a Component in an Assembly
  • Repositioning a Component in an Assembly
  • Mirroring a Component in an Assembly
  • Modifying a Component in the Assembly File


  • The Top-down Assembly Design Approach
  • Creating Components Using the Top-down Assembly Design Approach
  • Creating Subassemblies
  • Editing Assembly Constraints
  • Modifying the Assembly Constraints
  • Checking the Interference between the Components of an Assembly
  • Checking Interference and Clearance
  • Using the Check Clearance Analysis
  • Checking Interference Using the Assembly Clearance Method
  • Checking Interference and Clearance, and Analyzing
  • Cross-sections of Components Using the View Section Tool
  • Creating Exploded Views of an Assembly
  • Exploding Views Automatically
  • Exploding Views Manually


  • Introduction to Surface Modeling
  • Invoking the Sheet Modeling Environment
  • Creating an Extruded Surface
  • Creating a Revolved Surface
  • Creating a Ruled Surface
  • Creating a Surface Using the Through Curves Tool
  • Creating a Surface Using the Through Curve Mesh Tool
  • Creating a Surface Using the Four Point Surface Tool
  • Creating a Swoop Surface
  • Creating the Planar Surfaces from 2D Sketches and
  • Edges of Solid or Surface
  • Creating a Transition Surface Using the Transition Tool
  • Creating an N-Sided Surface
  • Creating a Silhouette Flange Surface
  • Extending a Surface Using the Law Extension Tool
  • Creating a Surface Offset Using the Offset Surface Tool
  • Trimming and Extending a Surface Using the Trim and Extend Tool
  • Trimming a Sheet by Using the Trimmed Sheet Tool
  • Creating a Surface Using the Studio Surface Tool
  • Creating a Surface between Two Walls Using the Styled Blend Tool
  • Creating Surfaces Using the Styled Sweep Tool
  • Sewing Individual Surfaces into a Single Surface
  • Adding Thickness to a Surface


  • The Drafting Environment
  • Invoking the Drafting Environment
  • Invoking the Drafting Environment Using the Drawing
  • Template from the New Dialog Box
  • Invoking the Drafting Environment in the Current Part File
  • Editing the Drawing Sheet Parameters in the Drafting Environment
  • Invoking the Drafting Tools
  • Types of Drawing Views in NX
  • Base View
  • Projected View
  • Detail View
  • Section View
  • Auxiliary View
  • Half-Section View
  • Revolved Section View
  • Break-Out Section View
  • Broken View
  • Generating Drawing Views
  • Generating the Base View
  • Generating the Orthographic Drawing Views Using the Projected View Tool
  • Generating the Detail View Using the Detail View Tool
  • Generating Section Views Using the Section View Tool
  • Generating the Half Section View Using the Half Section View Tool
  • Generating the Revolved Section View
  • Generating the Break-Out Section View
  • Generating the Broken View
  • Manipulating the Drawing View
  • Aligning the Drawing Views Using the Align View Tool
  • View Boundary
  • Displaying the Model Using the Display Sheet Tool
  • Inserting a Drawing Sheet Using the New Sheet Tool
  • Modifying the Properties of a Generated Drawing View
  • the Scale Value of the Drawing View
  • Adding Dimensions to the Drawing Views
  • Retrieving Dimensions from the Model
  • Adding Dimensions to the Drawing View
  • Generating Exploded Views of an Assembly
  • Creating Parts List and Associative Balloons
  • Creating a Parts List for an Assembly
  • Creating Associative Balloons
  • Creating a Tabular Note (Title Block)
  • Adding Multiline Text to a Drawing Sheet
  • Printing Tools
  • Print
  • Plot


  • Introduction
  • Move Face
  • Pull Face
  • Offset Region
  • Replace Face
  • Resize Blend
  • Resize Face
  • Delete Face
  • Copy Face
  • Cut Face
  • Paste Face
  • Mirror Face
  • Pattern Face
  • Resize Chamfer
  • Label Chamfer
  • Make Coplanar
  • Make Coaxial
  • Make Tangent
  • Make Symmetric
  • Make Parallel
  • Make Perpendicular
  • Make Fixed
  • Show Related Face
  • Linear Dimension
  • Angular Dimension
  • Radial Dimension
  • Shell Body
  • Shell Face
  • Change Shell Thickness
  • Group Face
  • Cross Section

Future Scope of NX CAM

The utilization of synchronous innovation in NX-CAM gives scope for use of models originating from other CAD sources. Import and alter CAD geometry utilizing any source with effectiveness, simplicity, and high speeds. For communitarian, complex and multi-CAD plans, NX CAM no uncertainty is the best decision. NX-CAM has a tremendous market and having the world’s leading solution for product plan and development. It is being used in main Corporations more than Enterprises, Organizations, Business and so on.

NX CAM Course Duration

Track Regular Track Weekend Track Fast Track
Course Duration 120 – 180 Days 24 Weekends 40 – 60 Days
Hours 2 hours a day 3 hours a day 6+ hours a day
Training Mode Live Classroom Live Classroom Live Classroom

This is an approximate course duration for NX CAM. Please contact our team for the current NX CAM course fee and duration. CONTACT US


Lets Get Started your Live Project
We will help you to Create your Project and to grow your business.