|| Why Choose Solid Edge Certification Training from BIT

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|| What will I learn?

  • Become proficient in using Solid Edge software, understanding its interface, tools, and functionalities for creating 2D drafts and 3D models.
  • Gain a solid understanding of fundamental design principles and best practices in CAD, including geometric dimensioning and tolerancing (GD&T), assembly design, and parametric modeling.
  • Learn how to create detailed 2D drawings, including orthographic projections, section views, dimensioning, and annotations.
  • Develop skills in creating 3D models of parts and assemblies, including creating sketches, extruding, revolving, sweeping, lofting, and other advanced modeling techniques.
  • Understand the principles of surface modeling and learn how to create complex surface geometries for aesthetic and functional purposes.
  • Learn how to create and manage assemblies of parts, including assembly constraints, motion simulations, and exploded views.
  • Gain an understanding of simulation and analysis tools within Solid Edge for testing the performance and behavior of your designs under various conditions.
  • Learn how to manage design data effectively using Solid Edge's built-in data management tools, and collaborate with team members through cloud-based platforms.
  • Explore techniques for rendering and visualizing your designs to create realistic presentations and marketing materials.

|| What will I learn?

  • Become proficient in using Solid Edge software, understanding its interface, tools, and functionalities for creating 2D drafts and 3D models.
  • Gain a solid understanding of fundamental design principles and best practices in CAD, including geometric dimensioning and tolerancing (GD&T), assembly design, and parametric modeling.
  • Learn how to create detailed 2D drawings, including orthographic projections, section views, dimensioning, and annotations.
  • Develop skills in creating 3D models of parts and assemblies, including creating sketches, extruding, revolving, sweeping, lofting, and other advanced modeling techniques.
  • Understand the principles of surface modeling and learn how to create complex surface geometries for aesthetic and functional purposes.
  • Learn how to create and manage assemblies of parts, including assembly constraints, motion simulations, and exploded views.
  • Gain an understanding of simulation and analysis tools within Solid Edge for testing the performance and behavior of your designs under various conditions.
  • Learn how to manage design data effectively using Solid Edge's built-in data management tools, and collaborate with team members through cloud-based platforms.
  • Explore techniques for rendering and visualizing your designs to create realistic presentations and marketing materials.

|| Requirements

  • Basic Computer Skills
  • Understanding of Engineering Principles
  • Technical Drawing Knowledge

|| Requirements

  • Basic Computer Skills
  • Understanding of Engineering Principles
  • Technical Drawing Knowledge

    The Solid Edge course provides comprehensive training in this powerful 3D CAD software, widely used for product design and engineering. The course typically covers the fundamentals of Solid Edge, including sketching, part modeling, assembly design, and drafting. Students learn advanced techniques such as sheet metal design, surface modeling, synchronous technology, and simulation. The curriculum also includes practical sessions on creating complex assemblies, generating detailed drawings, and managing design data. Benefits of the Solid Edge course include enhanced proficiency in 3D modeling, which is crucial for modern engineering and manufacturing. The skills acquired are highly valued in industries such as automotive, aerospace, machinery, and consumer products. By mastering Solid Edge, professionals can improve their design efficiency, reduce development time, and increase product innovation. This expertise opens up various career opportunities, from CAD drafting and design engineering to product development and project management, making the Solid Edge course a valuable investment for anyone pursuing a career in mechanical design and engineering.

    • Introduction to Solid Edge
    • Overview of Solid Edge software
    • Understanding the user interface and navigation
    • Introduction to 2D drafting and 3D modeling concepts


    • Sketching Fundamentals
    • Creating and editing 2D sketches
    • Applying sketch constraints and dimensions
    • Understanding sketching best practices


    • Part Modeling Basics
    • Creating basic 3D features (extrude, revolve, sweep)
    • Understanding feature-based parametric modeling
    • Using the feature manager tree for feature management


    • Intermediate Part Modeling
    • Exploring advanced modeling techniques (fillets, chamfers, patterns)
    • Working with synchronous and ordered modeling workflows
    • Utilizing advanced features like blends, lofts, and ribs


    • Advanced Part Modeling
    • Mastering complex modeling tasks with surface modeling
    • Creating sheet metal parts and utilizing specialized features
    • Exploring assembly modeling techniques


    • Assembly Design
    • Inserting and positioning components within assemblies
    • Applying assembly constraints and relationships
    • Exploring assembly features and manipulation tools


    • Drawing and Detailing
    • Creating and annotating drawing views
    • Adding dimensions, annotations, and GD&T symbols
    • Generating bill of materials (BOM) and parts lists


    • Sheet Metal Design
    • Understanding sheet metal design principles and terminology
    • Creating sheet metal parts with bends, flanges, and forming tools
    • Unfolding and flattening sheet metal parts


    • Surface Modeling
    • Exploring advanced surface modeling techniques
    • Creating and editing surfaces using loft, sweep, and boundary features
    • Converting solid models to surfaces and vice versa


    • Parametric Modeling Techniques
    • Utilizing parameters and relations for design automation
    • Creating family tables and configurable components
    • Implementing design variations and options


    • Simulation and Analysis
    • Introduction to finite element analysis (FEA)
    • Analyzing stress, displacement, and factor of safety in parts and assemblies
    • Optimizing designs for performance and reliability


    • Collaboration and Data Management
    • Working with Product Data Management (PDM) systems
    • Collaborating with team members and stakeholders
    • Managing design revisions and version control


    • Customization and API Programming
    • Customizing the Solid Edge environment and user interface
    • Creating macros and automation scripts using Solid Edge API
    • Integrating Solid Edge with other CAD/CAM software and systems


    • Case Studies and Real-World Applications
    • Analyzing real-world design examples and case studies
    • Hands-on exercises and projects to reinforce concepts
    • Presentations and discussions on best practices and industry standards

    Introduction to Sheet Metal Design

    • Overview of sheet metal design principles and terminology
    • Understanding the advantages and applications of sheet metal parts
    • Introduction to the sheet metal design environment in Solid Edge


    • Basic Sheet Metal Features
    • Creating base flanges, edge flanges, and miter flanges
    • Adding bends, corners, and reliefs to sheet metal parts
    • Utilizing bend tables and parameters for design flexibility


    • Advanced Sheet Metal Features
    • Exploring advanced sheet metal features such as tabs, lances, and punches
    • Using the jog, bridge, and contour flange tools for complex designs
    • Incorporating embosses, ribs, and louvers into sheet metal parts


    • Sheet Metal Cutouts and Holes
    • Adding cuts, holes, and cutouts to sheet metal parts
    • Understanding different types of cuts (blind, counterbore, countersink)
    • Utilizing hole and cutout features for part assembly and fabrication


    • Sheet Metal Bends and Forming
    • Understanding sheet metal bending techniques and parameters
    • Creating bend tables and calculating bend allowances
    • Using the bend feature for creating bends with custom parameters


    • Sheet Metal Unfolding and Flattening
    • Unfolding and flattening sheet metal parts for manufacturing
    • Understanding flat pattern development and layout
    • Checking for interference and collision issues in unfolded parts


    • Sheet Metal Documentation
    • Creating technical drawings and documentation for sheet metal parts
    • Adding dimensions, annotations, and GD&T symbols to sheet metal drawings
    • Generating bill of materials (BOM) and parts lists for sheet metal assemblies


    • Sheet Metal Assembly Design
    • Inserting and positioning sheet metal components within assemblies
    • Applying assembly constraints and relationships to define motion
    • Exploring assembly features and manipulation tools for sheet metal assemblies


    • Sheet Metal Design Considerations
    • Understanding design considerations for manufacturability
    • Designing for minimum bend radius and material thickness
    • Avoiding interference and collision issues in sheet metal assemblies


    • Sheet Metal Simulation and Analysis
    • Introduction to finite element analysis (FEA) for sheet metal parts
    • Analyzing stress, displacement, and factor of safety in sheet metal designs
    • Optimizing sheet metal designs for structural integrity and performance


    • Case Studies and Real-World Applications
    • Analyzing real-world sheet metal design examples and case studies
    • Hands-on exercises and projects to reinforce concepts
    • Presentations and discussions on best practices and industry standards

    • Introduction to Surface Modeling
    • Overview of surface modeling principles and terminology
    • Understanding the advantages and applications of surface modeling
    • Introduction to the surface modeling environment in Solid Edge


    • Basic Surface Creation
    • Creating and editing basic surface geometry
    • Utilizing surface creation tools such as extrude, revolve, and sweep
    • Understanding surface properties and parameters


    • Advanced Surface Features
    • Exploring lofted and swept surface features
    • Using guide curves to control surface shape and curvature
    • Creating complex surface forms and transitions


    • Surface Editing and Modification
    • Editing and manipulating surface geometry
    • Applying surface trimming and extending tools
    • Utilizing surface merging and stitching techniques


    • Surface Analysis and Optimization
    • Analyzing surface curvature and continuity
    • Performing surface quality checks and analysis
    • Optimizing surface designs for manufacturability and performance


    • Surface Modeling Techniques
    • Exploring advanced surface modeling techniques
    • Creating surface blends, offsets, and fillets
    • Using surface knitting and stitching tools


    • Complex Surface Modeling
    • Designing organic and freeform surface shapes
    • Using spline-based surface modeling techniques
    • Applying curvature control and continuity constraints


    • Surface Modeling for Aesthetic Design
    • Creating stylish and ergonomic surface designs
    • Incorporating surface textures, patterns, and logos
    • Understanding surface finish requirements and specifications


    • Surface Modeling for Mold Design
    • Design considerations for moldable surface geometry
    • Creating draft angles and split lines for mold design
    • Generating core and cavity surfaces for molds


    • Surface Modeling for Analysis and Simulation
    • Performing finite element analysis (FEA) on surface models
    • Analyzing stress, displacement, and factor of safety
    • Optimizing surface designs for structural integrity and performance


    • Surface Modeling Documentation
    • Creating technical drawings and documentation for surface models
    • Adding dimensions, annotations, and GD&T symbols to surface drawings
    • Generating 3D PDFs and other interactive documentation


    • Case Studies and Real-World Applications
    • Analyzing real-world surface modeling examples and case studies
    • Hands-on exercises and projects to reinforce concepts
    • Presentations and discussions on best practices and industry standards

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|| Solid Edge Projects

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|| Scope of Solid Edge in India

The scope of a Solid Edge course in India is quite promising, given the country's growing engineering, manufacturing, and design sectors. Solid Edge is a popular CAD (Computer-Aided Design) software used for product development, 3D modeling, simulation, and design management. Here are some key points outlining the scope and opportunities:

  • Industry Demand
  • Manufacturing and Engineering: India has a robust manufacturing and engineering sector, which constantly seeks skilled professionals proficient in CAD software like Solid Edge.
  • Automotive and Aerospace: The automotive and aerospace industries in India are expanding, requiring sophisticated design and simulation tools, and thereby professionals skilled in these tools.
  • Industrial Machinery: Companies designing and manufacturing industrial machinery rely heavily on CAD tools for creating detailed and precise models.
  • Career Opportunities
  • Design Engineer: Professionals can work as design engineers, creating detailed models and drawings for various components and assemblies.
  • Product Development Engineer: Involvement in the entire product development lifecycle, from concept design to final product.
  • Simulation Specialist: Using Solid Edge’s simulation tools to test and validate designs.
  • CAD Trainer: Teaching Solid Edge at educational institutions or private training centers.
  • Educational and Training Institutes
  • Many engineering colleges and training institutes in India offer specialized courses and certifications in Solid Edge.
  • Online courses and certifications are also available, making it easier for professionals to upskill.
  • Freelancing and Consulting
  • With Solid Edge skills, professionals can work as freelancers, offering design services to small and medium enterprises (SMEs) or startups that may not have in-house design teams.
  • Consulting opportunities in optimizing design processes and implementing CAD solutions.
  • Government Initiatives
  • Make in India: This initiative aims to make India a global manufacturing hub, which increases the demand for skilled CAD professionals.
  • Skill India: Focuses on training and development, encouraging young professionals to gain skills in tools like Solid Edge.
  • International Opportunities
  • Solid Edge proficiency can open doors to global opportunities, as it is a widely recognized tool in the design and manufacturing industries worldwide.
  • Interdisciplinary Applications
  • Beyond traditional engineering, Solid Edge is also used in fields like architecture, medical device design, and consumer electronics, broadening the scope for professionals.
  • A course in Solid Edge in India can lead to numerous career opportunities in various high-demand sectors. With the country’s focus on manufacturing and development, professionals skilled in Solid Edge are likely to find significant opportunities for growth and advancement.
placement report placement report

|| Solid Edge Career Option and Job Opportunities 

A Solid Edge course can open up a variety of career options and job opportunities in multiple industries. Solid Edge, being a comprehensive CAD software, is used extensively in product design, engineering, and manufacturing. Here are some career options and job opportunities for individuals skilled in Solid Edge:

  • Career Options
  • Design Engineer: Creating detailed designs and 3D models of parts, assemblies, and products using Solid Edge.
  • Product Development Engineer: Involved in the entire product development lifecycle, from concept and design to prototyping and manufacturing.
  • CAD Drafter: Producing technical drawings and blueprints for manufacturing and construction projects.
  • Simulation Specialist: Using Solid Edge’s simulation tools to analyze and test designs for performance, durability, and optimization.
  • CAD Administrator: Managing and maintaining CAD systems, ensuring software is up-to-date, and providing support to design teams.
  • Manufacturing Engineer: Designing and improving manufacturing processes using CAD models and simulations.
  • Tool and Die Designer: Designing molds, dies, and tooling for manufacturing processes.
  • Freelance CAD Designer: Offering design and modeling services on a project basis to various clients.
  • Technical Consultant: Providing expertise on Solid Edge implementation, optimization, and best practices.
  • CAD Trainer/Instructor: Teaching Solid Edge to students, professionals, and corporate teams.


  • Job Opportunities
  • Automotive Companies: Companies like Tata Motors, Mahindra & Mahindra, and Maruti Suzuki often seek CAD professionals for design and development roles.
  • Aerospace Companies: Organizations such as HAL (Hindustan Aeronautics Limited), DRDO, and private aerospace firms need design engineers proficient in Solid Edge.
  • Engineering Consultancies: Firms providing engineering solutions and services often require skilled CAD designers.
  • Industrial Machinery Manufacturers: Companies involved in producing industrial equipment and machinery look for Solid Edge experts for product design and development.
  • Consumer Electronics: Firms like Samsung, LG, and other electronics manufacturers use CAD software for product design and development.
  • Construction and Infrastructure Companies: Large construction firms and infrastructure companies employ CAD drafters and design engineers for planning and designing projects.
  • Educational Institutions: Engineering colleges and technical institutes hire CAD instructors to teach students.
  • SMEs and Startups: Small and medium enterprises, especially in the manufacturing sector, require CAD professionals for their design and prototyping needs.

A Solid Edge course can lead to diverse career paths in multiple industries. The demand for CAD professionals is significant, and the skills acquired through such a course can provide a strong foundation for a rewarding career in design, engineering, and manufacturing.

|| Job Roles and Salary

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|| Average Salary for Solid Edge in India

The average salary for professionals skilled in Solid Edge in India varies significantly depending on their level of experience, specific industry, and geographic location. Here's a rough breakdown of the average salary at different levels:

  • Entry-Level (0-2 years of experience): Average Salary: ₹2.5 - ₹4 lakhs per annum
  • Mid-Level (3-7 years of experience): Average Salary: ₹5 - ₹8 lakhs per annum
  • Senior-Level (8+ years of experience): Average Salary: ₹9 - ₹15 lakhs per annum
  • Expert-Level/Management (15+ years of experience): Average Salary: ₹15 - ₹25 lakhs per annum

|| Solid Edge holds a Prominent Position in Indian Job Market

Solid Edge courses in India offer significant placement opportunities across a wide range of industries due to the high demand for skilled CAD professionals. Graduates of these courses often find employment in sectors such as automotive, aerospace, manufacturing, and consumer goods. Prominent companies like Tata Motors, Mahindra & Mahindra, and Hindustan Aeronautics Limited regularly seek proficient Solid Edge users for roles in design, drafting, and engineering. Educational institutions such as the Indian Institutes of Technology (IITs) and National Institutes of Technology (NITs) often incorporate Solid Edge training into their curricula, further enhancing job prospects for students. Additionally, numerous engineering service firms and design consultancies value Solid Edge skills for their projects, offering positions that range from junior CAD engineers to senior design roles. Overall, completing a Solid Edge course equips individuals with the technical skills and industry recognition needed to secure rewarding positions in India's dynamic engineering and manufacturing landscape.

 

|| Empowering Your Career Transition From Learning To Leading

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Roshni Adatiya

Roshni Adatiya, excelling as a Revit Architect at Stemmons Business Services Pvt. Ltd. showcases proficiency in essential tools such as Autodesk Revit, AutoCAD, and Navisworks. Her adept use of these critical software contributes to effective architectural design.

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Pratik Shah

Best institute for Mechanical engineering seriously just see today's condition of mechanical engineers they have to work in industry as a labour but here they bring you and offer you a bright future Platform, and here they will not only give you placement but they will make u skill person in software and Technically strong. Thank you BIT!

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Sanket Vaidya

Taking admission in BIT Institute was one of the best decision that I have taken in my career. After working for 2.5 year in different department and now working for one of the top company in the world in design field. This happened only because BIT. My course instructor explained the topics with many examples and hands-on experience. His in-depth knowledge, along with his technique of explaining things thoroughly, Thanks to the support team for quickly resolving our queries. Thanks, BIT!" Best SolidWorks training given by BIT.

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Dhiraj Gandhi

According to my view, BIT is the best institute where anyone can learn to develop their own design from beginning. The professors over here are likely our friend and also tough in the same manner . Here one can easily experience the live working environment ( the level of project is very much good ). If you were looking forward for designing please do prefer this institute. Thank you for great support and great knowledge. My Skills are – AutoCAD, SolidWorks, Fusion 360, Autodesk HSM, Vault etc

|| Some Prominent Companies in India that use Solid Edge 

Solid Edge is a widely used computer-aided design (CAD) software that is employed across various industries for product development, mechanical design, and engineering. In India, several companies and educational institutions use Solid Edge for their design and engineering needs. Here are some examples:

  • Automotive and Transportation
  • Tata Motors
  • Mahindra & Mahindra
  • Ashok Leyland
  • Hero MotoCorp


  • Aerospace and Defense
  • Hindustan Aeronautics Limited (HAL)
  • DRDO (Defence Research and Development Organisation)
  • ISRO (Indian Space Research Organisation)


  • Manufacturing and Industrial Equipment
  • Larsen & Toubro (L&T)
  • Bharat Heavy Electricals Limited (BHEL)
  • Godrej & Boyce


  • Education and Training Institutions
  • Indian Institutes of Technology (IITs)
  • National Institutes of Technology (NITs)
  • Birla Institute of Technology and Science (BITS)
  • Various engineering colleges and polytechnics across India


  • Consumer Goods and Appliances
  • Whirlpool India
  • Godrej Appliances


  • Engineering Services and Consultancy
  • Tata Consultancy Services (TCS)
  • Infosys
  • Wipro


  • Industrial Design Firms
  • DesignTech Systems
  • Quest Global

These companies use Solid Edge for a variety of applications, including 3D modeling, simulation, and product lifecycle management (PLM). Additionally, Solid Edge is part of the curriculum in many engineering and design institutions, helping students gain practical experience with industry-standard tools.

|| Top Hiring companies

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|| Get Solid Edge Certification

Three easy steps will unlock your Solid Edge Certification:

 

  • Finish the online / offline course of Solid Edge Course and the Assignment
  • Take on and successfully complete a number of industry-based Projects
  • Pass the Solid Edge Certification exam

 

The certificate for this Solid Edge Certification will be sent to you through our learning management system, where you can also download it. Add  a link to your certificate to your CV or LinkedIn profile.

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|| Frequently asked question

In the Solid Edge course, you will learn how to use Solid Edge software for 3D CAD design, simulation, and manufacturing. The course covers the basics of solid modeling, assembly design, drawing creation, and sheet metal design. You will also learn advanced features like synchronous technology, surfacing, and simulation for analyzing the performance of your designs.

This course is ideal for mechanical engineers, product designers, drafters, and anyone involved in the design and development of mechanical products who wants to enhance their skills in using Solid Edge.

Yes, many training providers offer Solid Edge courses online, providing flexibility to learn at your own pace. Classroom-based training is also available in various locations.

Yes, most Solid Edge courses include hands-on practice sessions where you can work on real-world scenarios and case studies to apply the concepts learned during the lectures.

Yes, courses often include real-world projects and case studies, allowing you to apply your skills to practical scenarios and build a portfolio of work.

Industries such as automotive, aerospace, consumer products, machinery, and industrial equipment benefit significantly from using Solid Edge due to its comprehensive design and simulation capabilities.
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