|| Why choose Ansys Certification Training from BIT

Features of bit , features of bit coaching classes ,flexible scheduling in bit ,hands on learning

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|| What will I learn?

  • Develop a solid understanding of the principles and theory behind finite element analysis, including its applications and limitations.
  • Gain mastery of the ANSYS Workbench interface, including navigation, project setup, and management of simulation studies.
  • Learn techniques for importing CAD geometry, preparing models for analysis, and generating high-quality meshes using ANSYS meshing tools.
  • Understand the different types of analyses supported by ANSYS, including structural analysis, thermal analysis, fluid flow analysis, and multiphysics simulations.
  • Understand the fundamental concepts of finite element analysis (FEA) and its applications in engineering.
  • Learn to conduct steady-state and transient thermal analyses to predict temperature distributions, thermal stresses, and heat transfer rates in components and systems.
  • Gain proficiency in simulating fluid flow phenomena, including laminar and turbulent flow, pressure drop calculations, and flow visualization.
  • Develop skills in customizing ANSYS workflows, creating user-defined functions, and automating repetitive tasks to enhance productivity and efficiency.

|| What will I learn?

  • Develop a solid understanding of the principles and theory behind finite element analysis, including its applications and limitations.
  • Gain mastery of the ANSYS Workbench interface, including navigation, project setup, and management of simulation studies.
  • Learn techniques for importing CAD geometry, preparing models for analysis, and generating high-quality meshes using ANSYS meshing tools.
  • Understand the different types of analyses supported by ANSYS, including structural analysis, thermal analysis, fluid flow analysis, and multiphysics simulations.
  • Understand the fundamental concepts of finite element analysis (FEA) and its applications in engineering.
  • Learn to conduct steady-state and transient thermal analyses to predict temperature distributions, thermal stresses, and heat transfer rates in components and systems.
  • Gain proficiency in simulating fluid flow phenomena, including laminar and turbulent flow, pressure drop calculations, and flow visualization.
  • Develop skills in customizing ANSYS workflows, creating user-defined functions, and automating repetitive tasks to enhance productivity and efficiency.

|| Requirements

  • Basic understanding of engineering principles and some familiarity with CAD software.
  • Familiarity with computer-aided design (CAD) software is helpful but not required.

|| Requirements

  • Basic understanding of engineering principles and some familiarity with CAD software.
  • Familiarity with computer-aided design (CAD) software is helpful but not required.

    Introduction to ANSYS" provides a foundational understanding of engineering simulation using ANSYS software. Participants learn key aspects of finite element analysis (FEA) and computational fluid dynamics (CFD) through practical exercises in geometry creation, meshing, boundary conditions application, and result interpretation. This course equips engineers and students with essential skills to simulate and optimize designs in mechanical, structural, thermal, and fluid dynamics fields, enhancing their ability to tackle complex engineering challenges efficiently.

    The benefits of taking an ANSYS course are substantial. Mastering ANSYS equips professionals with the ability to perform high-precision simulations, leading to better product design and innovation. It enhances problem-solving skills and technical expertise, making individuals valuable assets to engineering teams. ANSYS proficiency is highly regarded in industries such as aerospace, automotive, civil engineering, and manufacturing, thus significantly improving job prospects and career growth. Additionally, the practical experience gained through the course enables participants to tackle real-world challenges effectively, contributing to more efficient and cost-effective engineering solutions.

    • Introduction to Ansys
    • Overview of Ansys software and its applications
    • Understanding the Ansys user interface and navigation
    • Introduction to finite element analysis (FEA) and computational fluid dynamics (CFD) concepts


    • Ansys Basics
    • Setting up Ansys workbench environment
    • Importing CAD models into Ansys
    • Understanding geometry editing and cleanup tools


    • Structural Analysis with Ansys
    • Preprocessing: Meshing techniques and best practices
    • Defining material properties and boundary conditions
    • Performing static and dynamic structural analyses


    • Thermal Analysis with Ansys
    • Introduction to thermal analysis concepts
    • Defining heat transfer boundary conditions
    • Performing steady-state and transient thermal analyses


    • Fluid Dynamics Analysis with Ansys Fluent
    • Introduction to fluid dynamics analysis
    • Preprocessing: Meshing techniques for fluid domains
    • Defining flow boundary conditions and solver settings
    • Performing laminar and turbulent flow simulations


    • Multiphysics Analysis
    • Introduction to multiphysics simulations
    • Performing fluid-structure interaction (FSI) analyses
    • Coupling structural and thermal analyses


    • Optimization and Design Exploration
    • Introduction to design optimization and exploration
    • Defining design variables, constraints, and objectives
    • Performing parametric studies and optimization iterations


    • Postprocessing and Results Interpretation
    • Interpreting and visualizing analysis results
    • Generating contour plots, animations, and reports
    • Understanding stress, displacement, temperature, and flow velocity distributions


    • Advanced Topics in Ansys
    • Introduction to advanced analysis capabilities (e.g., nonlinear, transient dynamic, fatigue)
    • Exploring specialized modules (e.g., Ansys Workbench, Ansys Mechanical, Ansys Fluent)
    • Understanding best practices for complex simulations


    • Case Studies and Real-World Applications
    • Analyzing real-world engineering problems and case studies
    • Hands-on exercises and projects to reinforce concepts
    • Presentations and discussions on industry applications and standards

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|| Ansys Projects

Ansys Course Projects , ANSYS  CFD simulation of vehicle chassis ,computational fluid dynamics analysis of a motorcycle ,engineering simulation:aerodynamics of a vehicle , ANSYS  software:Automotive Design and Analysis , virtual Wind Tunnel Testing with ANSYS

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|| The scope of ANSYS in India is quite significant due to the country's growing emphasis on engineering, manufacturing, and innovation across various industries.

Ansys, a globally recognized engineering simulation software, has a significant and growing presence in India. The scope of Ansys in India spans various industries, academia, and research sectors. Here are the key areas where Ansys is making an impact:


  • Automotive Industry:
  • Design and Testing: Indian automotive companies use Ansys for designing and testing vehicles, components, and systems to ensure safety, performance, and compliance with regulations.
  • Electric Vehicles (EVs): With the rise of electric vehicles, Ansys helps in battery simulation, electric motor design, and thermal management.
  • Aerospace and Defense:
  • Aircraft Design: Ansys is used in the design and analysis of aircraft structures, aerodynamics, and avionics systems.
  • Defense Applications: Defense organizations leverage Ansys for simulating various defense equipment and systems to enhance reliability and effectiveness.
  • Energy Sector:
  • Renewable Energy: Companies in wind, solar, and hydropower use Ansys for optimizing designs and improving efficiency.
  • Oil and Gas: Ansys aids in simulating complex drilling processes, pipeline flows, and safety measures.
  • Electronics and Semiconductor Industry:
  • Chip Design: Semiconductor companies use Ansys for electronic design automation (EDA) to simulate chip performance, power, and thermal issues.
  • Consumer Electronics: Ansys is employed in designing and testing consumer electronics for durability and performance under various conditions.
  • Academic and Research Institutions:
  • Education: Many Indian universities and colleges incorporate Ansys in their engineering curriculum, providing students with hands-on experience in simulation.
  • Research: Researchers use Ansys for advanced studies in fluid dynamics, structural analysis, electromagnetics, and materials science.
  • Manufacturing:
  • Process Optimization: Ansys helps manufacturing companies in optimizing processes, reducing material waste, and improving product quality.
  • Product Development: It is widely used in the simulation of new product designs to predict performance and identify potential issues before physical prototyping.
  • Healthcare and Biomechanics:
  • Medical Devices: Ansys is used to simulate the performance and reliability of medical devices and implants.
  • Biomechanical Research: Researchers utilize Ansys to study human biomechanics and develop more effective treatment methods.
  • Construction and Infrastructure:
  • Structural Engineering: Civil engineers use Ansys for analyzing and designing infrastructure projects like bridges, buildings, and dams to ensure safety and compliance with standards.
  • Consulting and Services:
  • Engineering Consultancy: Numerous consulting firms offer simulation services using Ansys to assist other companies in solving complex engineering problems.
  • Training and Support: There is a growing demand for Ansys-certified professionals and trainers who can provide expert guidance and support.

The increasing emphasis on digital transformation, innovation, and technological advancement in India is driving the adoption of Ansys across various sectors. The government’s initiatives to boost the manufacturing sector, such as "Make in India," further amplify the importance of simulation tools like Ansys in enhancing product development and innovation capabilities. 

placement report placement report

|| Specific Sectors Hiring for Ansys Roles in India

Ansys Course in India , Ansys Course sector hiring ,automotive  companies , TATA,Maruti Suzuki ,vehicle design ,Aerospace and defence , ISRO ,Aircraft and satellite design,Energy ,NTPC

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|| The Salary for Ansys professionals in India 

The average salary for professionals skilled in ANSYS in India varies based on factors such as experience, job role, and location. On average, an ANSYS professional can expect to earn around ₹4,00,000 to ₹8,00,000 per annum.

  • Entry-Level (0-2 years of experience): ₹3,00,000 to ₹5,00,000 per annum
  • Mid-Level (2-5 years of experience): ₹5,00,000 to ₹8,00,000 per annum
  • Senior-Level (5+ years of experience): ₹8,00,000 to ₹12,00,000 or more per annum

Roles such as ANSYS Simulation Engineers, CAE Engineers, and FEA Analysts generally fall within this salary range. Those with specialized skills and certifications, or who hold positions in top-tier companies, may see salaries on the higher end of the spectrum. Additionally, professionals working in metropolitan cities like Bangalore, Pune, and Hyderabad often receive higher compensation compared to those in smaller cities.


|| Salaries for professionals skilled in Ansys in India

Entry Level Salary ,Mid Level Salary ,Senior Level Salary ,2-5 Lpa ,6-10 Lpa , 10-25 Lpa ,Ansys Course salary

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|| Career opportunities in Ansys in India are diverse and promising

Career opportunities in Ansys in India are diverse and promising, reflecting the broad application of simulation technologies across various industries. Here are some key career paths and roles available in India related to Ansys:


  • Simulation Engineer/Analyst:
  • Role: These professionals use Ansys software to create and analyze simulation models, ensuring products meet design specifications and performance criteria.
  • Industries: Automotive, aerospace, electronics, energy, and manufacturing.
  • Application Engineer:
  • Role: Application engineers provide technical support to customers, helping them to effectively use Ansys software for their specific applications. They also assist in troubleshooting and optimizing simulation processes.
  • Industries: Any industry using Ansys, including consulting firms.
  • Research and Development (R&D) Engineer:
  • Role: R&D engineers develop new simulation methods and improve existing ones. They work on cutting-edge projects to enhance the capabilities of Ansys software.
  • Industries: Primarily within Ansys itself, academic institutions, and research labs.
  • Technical Support Engineer:
  • Role: Provide assistance and support to Ansys software users, addressing their technical queries and ensuring smooth operation of the software.
  • Industries: Ansys, value-added resellers, and large corporations with in-house simulation teams.
  • Sales and Business Development:
  • Role: These professionals are responsible for promoting Ansys products, identifying new business opportunities, and managing client relationships.
  • Industries: Ansys, and its distributors and resellers.
  • Training and Education Specialist:
  • Role: Specialists in this role conduct training sessions for new users of Ansys software, develop educational materials, and support academic institutions in integrating Ansys into their curriculum.
  • Industries: Ansys, educational institutions, and professional training centers.
  • Consultant:
  • Role: Consultants provide expert advice on the implementation and optimization of Ansys software for specific projects. They often work with multiple clients across different industries.
  • Industries: Engineering consulting firms.
  • Project Engineer/Manager:
  • Role: Manage projects that require extensive simulation and analysis, ensuring they are completed on time and within budget.
  • Industries: Automotive, aerospace, energy, and large engineering firms.

|| Advance Your Career and achieve your professional goals within Ansys.

Ansys, being a leading global engineering simulation software company, has a significant presence in India. The company often recruits engineers, software developers, product managers, and other professionals across various locations in India. These are just a few examples of career options available at Ansys in India. The company values innovation, expertise, and collaboration, offering employees opportunities for professional growth and advancement in a dynamic and supportive work environment.

|| 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

|| Top Hiring companies

CAD hiring Companies ,Hiring Companies ,Top Companies ,Job Placement ,Bharat Petroleum ,NTPC ,ARVIND,NVIDIA ,PEPSICO,Mphasis ,Top Hiring Companies at BIT ,Top Placement Opportunities at BIT

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|| Some Prominent Companies in India that Use Ansys

Several companies in India use ANSYS for various engineering applications. ANSYS is widely used in industries such as automotive, aerospace, defense, electronics, manufacturing, and more. Some of the prominent companies in India that use ANSYS software or offer ANSYS courses to their employees include:


  • Tata Consultancy Services (TCS) - TCS uses ANSYS for engineering simulation and analysis in various sectors.
  • Tata Motors - ANSYS is used in automotive design and analysis processes at Tata Motors.
  • Mahindra & Mahindra - Another major automotive company in India that uses ANSYS for simulation and design optimization.
  • Larsen & Toubro (L&T) - L&T uses ANSYS for engineering analysis and simulation across its various divisions, including construction, defense, and heavy engineering.
  • Hindustan Aeronautics Limited (HAL) - ANSYS is utilized for aerospace engineering applications at HAL.
  • Bharat Heavy Electricals Limited (BHEL) - BHEL uses ANSYS for thermal and mechanical analysis in power generation equipment.
  • Reliance Industries Limited (RIL) - ANSYS is used in RIL for various engineering simulations in sectors such as petrochemicals, refining, and manufacturing.
  • Infosys - Infosys offers ANSYS training and uses the software for engineering services and solutions.
  • Wipro - Similar to Infosys, Wipro utilizes ANSYS for engineering simulations and solutions.
  • Tech Mahindra - ANSYS is used in Tech Mahindra for engineering and industrial simulations.

These companies represent a range of industries where ANSYS is applied for product development, optimization, and performance analysis across different engineering disciplines. Many of these companies also provide ANSYS training and certification programs to their engineers to enhance their skills in simulation and analysis.

|| Get Ansys Certification Training

Three easy steps will unlock your Ansys Certification:

 

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

 

The certificate for this Ansys 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

This course is designed for engineers, engineering students, and professionals who want to learn engineering simulation and analysis using the ANSYS software suite. It's suitable for beginners as well as those with some prior experience in simulation.

A basic understanding of engineering principles and mathematics is recommended. Familiarity with computer-aided design (CAD) software is beneficial but not required.

The course primarily focuses on ANSYS software, including ANSYS Workbench for pre-processing, solving, and post-processing of simulations. Participants will also learn how to use ANSYS Mechanical and ANSYS Fluent for structural and fluid flow analysis, respectively.

Yes, the course includes hands-on exercises, workshops, and projects to reinforce learning. Participants will have the opportunity to work on real-world engineering problems and apply ANSYS software to solve them

Yes, a certificate of completion will be awarded to participants who successfully finish the course and pass any required assessments or projects.

The course covers a range of topics including introduction to ANSYS, geometry creation and modification, mesh generation, material properties, boundary conditions and loads, static structural analysis, modal analysis, thermal analysis, fluid flow analysis, post-processing, and project work.

Yes, the course includes interactive sessions such as group discussions, Q&A sessions, and instructor-led workshops. Participants are encouraged to ask questions and engage with the instructors and fellow participants.

The ANSYS course provides training on using ANSYS software for engineering simulations, including Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), and thermal analysis.

The course enhances your ability to perform complex simulations, improves problem-solving skills, and prepares you for advanced roles in engineering and analysis.

Yes, our institutions offer online versions of the ANSYS course, providing flexibility for working professionals.
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