Industrial Training & Internship Programs For 6 Weeks And 6 Months in Mohali/Chandigarh
Why Future Finders is the best Autocad training company in Chandigarh
Future Finders offers a variety of courses to choose from, a high-tech infrastructure, and lab resources. Future Finders trains a sizable number of competitors in AutoCAD at affordable rates that are adjusted, keeping in mind the preparation and course material that is required of each student.
The best AutoCAD training centre is Future Finders, which also offers 100% placement assistance. For aspiring individuals, we offer clear training sessions and course materials. AutoCAD teaching is provided during daytime classes, evening classes, group classes, and quick-track training sessions.
Future Finders has had a substantial impact on the careers of several civil engineering, mechanical engineering, and electrical engineering students by placing a large number of students in the top Indian civil engineering, mechanical engineering, and electrical/electronics firms. The greatest Autocad training provider is Future Finder for the reasons listed below:
- The greatest learning environment that Future Finder has to offer, with a focus on gaining practical expertise with AutoCAD’s cutting-edge technologies
- Our skilled development staff facilitates learning by providing cutting-edge instruction on the newest AutoCAD features.
- Future Finder has created training modules and courses that are specifically tailored to the needs of various businesses.
- Our technical professionals, who have vast experience working with leading MNCs, provide the required skills and guarantee quality.
- At Future Finders, we assure the deserving applicant of several employment chances in prestigious organisations all across India.
What is Auto Cad?
AutoCAD is software designed to help in drawing design creation, modification, and optimization. Drawings in 2D and 3D that are utilised in manufacturing and construction can be produced. It was created by John Walker using Autodesk. Creating and altering 2D and 3D designs for expert drafting with exact measurement data of the product’s layout is where it is most frequently employed.
Additionally, it gives users the ability to imagine, design, and draught concepts. Due to the quick design calculations it offers, it is commonly employed in the industrial sector. technological precision, as well as simulations. In the fields of civil, mechanical, telecom, and architectural engineering, AutoCAD is also highly favoured and utilised.
Key aspects of Auto CAD CE.
- Interface: Before you begin studying the fundamentals, make sure you are familiar with AutoCAD. Learn how to use the tools and interface. If you are familiar with the locations of all your tools, learning will be a lot simpler. If you are familiar with Windows apps, you won’t have any trouble navigating the AutoCAD interface.
- Navigation: Start with any example file or drawing. Make an effort to utilise the mouse to move around the drawing. You can pan, zoom in or out, and zoom out or in. Learn how to use the navigational tools.
- Tools for Drawing: Now turn your attention to the drawing supplies. Simple drawing tools are available. The name of a tool usually indicates what it is used for. To draw a line, a rectangle, or a circle, for instance, use the line, rectangle, or circle tools, respectively. However, each instrument has a unique purpose.
- Commands:There are almost a hundred commands in AutoCAD. It could appear a little daunting at first. But don’t be concerned if you get lost; it’s all part of the process. You may quicken your learning process by learning commands. It is advised to keep a notepad only for them, noting each command as you use it.
- Ribbon: Many individuals prefer to have plenty of room when painting. You may quickly disable the palettes and ribbon by clicking CTRL+C and returning to the default settings if you’d like. The commands CLEANSCREENON OR CLEANSCREENOFF are also available. You won’t utilise the ribbon much after you have a handle on AutoCAD commands. Create a panel with your frequently used commands if you want to use the ribbon for quick and simple access.
- Precision:Using AutoCAD has several benefits, one of which is getting exact drawings. Learn about absolute and relative coordinates first, then about snap tools. Once you have mastered this technique, you will be able to draw accurately.
- Adapt tools: There are several tools for modification. Similar to sketching tools, the names of these objects indicate what they are used for. More information is provided in the tooltip when you hover your cursor over the icon. Pressing F1 will also activate the gadget. It will launch a help document with related subjects.
- Object Choice:Any item must first be selected to be modified or otherwise altered. It’s time to choose an object.
- Annotations: An annotation is anything in your design that isn’t considered to be a piece of geometry. Hatches, text, tables, measurements, etc. may be included. Only while configuring the annotation scale and style might you run into issues. Your annotation can be distinguished by its style. A little confusion exists with the scale choice. But the annotation scale allows you to adjust it.
- Templates: In AutoCAD, a fresh template is opened each time you begin a new drawing. Unless you develop a template, AutoCAD often assigns one to you. Different parameters, including layer organisation, line type, and drawing restrictions, can be included in a template. It can be quite time-efficient to already have these settings configured. Because many businesses design their templates, employees erroneously fail to follow diverse standards. Create a new drawing as your template. Set the settings you would typically require in a conventional drawing after that. Save your drawing as a template after that. To save, choose the DWT file type and press CTRL+SHIFT+S. After that, include a description for further use. You may now use it to begin a new sketch.
- Reusable instructions:You’ll notice that many objects, symbols, and standard pieces are repeated when you look at an AutoCAD drawing. Naturally, you could simply duplicate them. But making a block is the best course of action for increased productivity.
Scope of Auto Cad
Jobs requiring AutoCAD frequently depend on your sector and the kind of qualification you have in the programme. Engineering, design, drawing, and architecture are common areas of specialisation.
ACU certifies the fundamental abilities needed to work in drafting and designing across a variety of sectors. Here there are 2 levels of Autodesk Certification: There are 2 levels of Autodesk Certification:
- Autodesk Certified Professional(ACP)
- Autodesk Certified User(ACU)
You are recognised as an advanced professional by the ACP credential.
Users are guaranteed to have the advanced abilities necessary to carry out industry-specific work thanks to Autodesk’s ACP programme. Other certificates, in addition to the AutoCAD certificate, might enhance your skill set. A few vocations also require the Inventor qualification. You may easily distinguish in the market if you have more than one ACP certificate.
1. Introduction to AutoCAD
Overview of AutoCAD Software
AutoCAD Interface, Toolbars, and Workspaces
File Management: Creating, Saving, and Opening Drawings
Units, Limits, and Layout Setup
Navigation Tools (Zoom, Pan)
Shortcut Keys and Commands
2. Drawing Basics in AutoCAD (2D)
Drawing Line, Circle, Arc, and Polyline
Drawing Rectangles, Ellipses, and Polygons
Coordinates System in AutoCAD
Absolute Coordinates
Relative Coordinates
Polar Coordinates
Grids, Snap, and Ortho Modes
Object Snap (OSNAP) and Object Snap Tracking
3. Modifying and Editing Drawings
Selection Methods (Window, Crossing, etc.)
Move, Copy, Rotate, Scale, Mirror Commands
Trim, Extend, Offset, Fillet, and Chamfer
Array (Rectangular and Polar Arrays)
Stretch, Break, and Join Commands
Undo and Redo Actions
4. Layers, Properties, and Annotation
Introduction to Layers
Layer Properties Manager
Creating and Managing Layers
Line Types, Colors, and Layer Lock/Freeze/Off
Text and Annotations in Drawings
Single Line and Multiline Text (MTEXT)
Text Styles and Justifications
Adding Dimensions and Dimension Styles
Linear, Angular, Radial, and Aligned Dimensions
Editing and Managing Dimensions
5. Blocks and Attributes
Creating and Inserting Blocks
Using the Block Editor
Dynamic Blocks: Parameters and Actions
Working with Block Attributes
Attribute Definition, Extraction, and Editing
6. Hatching and Gradients
Applying Hatch Patterns
Hatch Editing (Boundary, Scaling, and Angles)
Using Gradient Fills
Boundary Creation and Region Filling
7. Working with Layouts and Viewports
Model Space vs. Paper Space
Creating Layouts and Viewports
Managing Multiple Viewports
Plotting and Printing
Page Setup Manager
Plot Styles (CTB/STB Files)
Plotting to PDF, Paper, and Digital Formats
8. Advanced Drafting Techniques
Drawing Construction Lines and Rays
Using Multileaders
Using Tables in AutoCAD
Isometric Drawings
Setting up Isometric Grids
Isometric Circles and Dimensions
Geometric Constraints and Parametric Design
9. External References (Xrefs)
Attaching and Managing Xrefs (External References)
Overlay vs. Attach
Clipping Xrefs
Working with Linked Drawings
10. Working with 3D Models
Introduction to 3D Modeling in AutoCAD
3D Coordinate System (UCS)
Creating 3D Objects: Boxes, Cylinders, Spheres, Cones
3D Extrude, Revolve, Sweep, and Loft Commands
Modifying 3D Models: Union, Subtract, and Intersect
Solid Editing: Fillet, Chamfer, and Shell
Creating Surfaces and Mesh Models
11. Rendering and Visualization
Introduction to Rendering in AutoCAD
Applying Materials and Textures
Lighting Setup (Point Lights, Spotlights, and Sunlight)
Setting Camera Views and Animations
Rendering and Exporting Images
Walkthroughs and Flythroughs in 3D Models
12. Plotting and Printing in 3D
3D Plotting Techniques
Preparing 3D Models for Printing
Plotting in Hidden and Shaded Modes
Exporting to STL for 3D Printing
13. Customization and Automation
Customizing Toolbars and Ribbons
Creating and Using Custom Commands and Macros
Introduction to AutoLISP for Automating Tasks
Writing Basic AutoLISP Programs
Customizing the User Interface (CUI)
Working with Scripts for Batch Processing
14. Best Practices and Industry Applications
Best Practices for Layer Management
File Organization and Template Usage
Collaboration Tools and Cloud Integration
Real-World Applications in Architecture, Engineering, and Manufacturing
Case Studies and Sample Projects
15. Hands-On Projects and Assignments
2D Drafting of Floor Plans, Mechanical Parts, or Electrical Circuits
3D Modeling of Mechanical Components or Architectural Buildings
Preparing Layouts and Annotations for Submission
Collaborative Project Involving Xrefs and Multiple Layouts
16. Capstone Project
Designing a Complex Architectural Plan or Mechanical Design
Using Both 2D Drafting and 3D Modeling Techniques
Preparing and Plotting Final Project Documents
Presenting and Exporting Files for Different Stakeholders
Apply here
AUTOCAD CE Course Fee and Duration | |||
---|---|---|---|
Track | Regular Track | Weekend Track | Fast Track |
Course Duration | 45 - 60 days | 12 Weekends | 30-35 days |
Hours | 2 hours a day | 3 hours a day | 6+ hours a day |
Training Mode | Live Classroom | Live Classroom | Live Classroom |