Select Page
On Coming Saturday : We are Conducting Free Demo Sessions on: BigData, Data Science, CCNA, HR Training, Python, JAVA, Web Development and many more… Confirm your Seats and Attend the Class.

Call The Trainer


Batch Timing

Regular: 3 Batches

Weekends: 2 Batches



Book a Demo Class

Ansys Training in Pune 

Yes!! You are Eligible For Demo Class-Free

We Invite you to attend Demo Class, absolutely Free. We are Happy to guide you Step by Step regarding this job oriented Course and job Placement Benefits After Completing the Course.

Note: Ask for the Special Combo Offer with this Course.

Lowest Course Fees

Free Study Material

100% Placement Assitance

Request Call Back


10 + 11 =

Career Opportunities

After completion of this course you will be able to apply for a job roles.

Design Engineer

Product Engineer

Design Consultant


Most Popular Employer Name for Candidates with a Ansys Certification

Intel Corporation

3D PLM Software Solutions Private Limited

Orchid Management Consultant

New Global Technologies

VDF Group

HR Innovation Group



Emerson Electric Co (I) Pvt Ltd

Salary Growth Rates for Freshers


Introduction to Ansys Course

ANSYS is a user-friendly virtual-prototyping and measured simulation framework. It offers an environment to perform structural, thermal, and electromagnetic analysis. John Swanson developed Ansys initially in 1970. Later in 1993, he sold his interest in the company to venture capitalists. Ansys means Analysis Systems. Earlier Ansys software was used to design products and semiconductors. Also, it creates simulations that test a product’s durability, temperature distribution, fluid movements, and electromagnetic properties. Since its generation, Ansys is focused on Engineering Simulation. Ansys is evolving to meet the needs of the application. Ansys is a collection of different workbenches such as modeling, Structural, thermal, fluids Electromagnetics, etc. Hence Ansys is popularly known as Ansys workbench. 

To describe in short, Ansys focus on Geometry creation and, attaching existing geometry, setting up the finite element model, solving, and reviewing results. Fast and accurate analysis of flexible and rigid bodies and precise results of an evaluation of physical events through the analysis of the mechanical system as a whole are possible with Ansys.

Proficiency After Training


Under different operating situations, an Engineer can visualize product behaviors and perform action according to the conditions


Can detect errors by the program feature before we sent it for manufacturing as it wasn’t possible earlier for large Tools


With help of SOLIDWORKS simulation analytical tool a user can detect falls and bad error at the earliest stage of product design


Can create 3D designs which improves productivity.


Create exceptional product designs and test them before sending to manufacturing department


Ability to import data and translate it


Ability to store design with security, and maintain all the aspects with its flexibility and accessibility.


Under a number of different circumstances ability to test product designs in real time.


Can share the 2D Design and Models with the Team to communicate and work on final product Design

Ansys Training in Pune

Ansys works on the principle of Finite Element Analysis. Separating product into smaller components (Discretization) applies analysis parameters such as Constraints, Force, Torque, Pressure, etc. Meshing is used to divide the part into very small areas to perform a detailed analysis of each and every section of a product accurately. The whole process is divided into 3 parts: Pre-processing, Solution, and Post-processing.

Analysis and Finite Element Approach:

The analysis is the process of gaining an understanding of complex topics regarding any day to day life phenomenon by breaking it into smaller parts. That to say in general terms but in technical terms, the analysis was first used in logic and mathematics in the era even before of renowned scientist Aristotle (384–322 B.C).  Analysis word comes from Ancient Greek ἀνάλυσις. {Análisis, “a breaking-up” & “an untying;” ana- is “up, throughout” and lisis “a loosening}.

Engineering analysis deals with applications based on scientific principles and methods to reveal the characteristics, properties, and state of a system, mechanism, structure or component undergoing study.  Engineering analysis works by the method of discretization: it begins by separating the engineering design into the separate mechanisms of working or failure, analyzing or estimating each component of the operation or failure mechanism separately. After that it recombines, the components according to basic natural laws and physical properties. Each and every component undergoes an analysis post and prior to manufacturing.  Engineering analysts look at needs to fulfill, structures, specifications, mechanisms, properties, systems, and dimensions. System failures and life cycles are major aspects that are broken down and studied by engineers. Due to advancements, there are many things that can be remotely analyzed such as satellites, rovers, drones, etc.

Structural Analysis:

Structural analysis is the phenomenon to determine the effects of force and loads on physical structures and their components. Structures subject falls in this category to withstand loads such as bridges, buildings, soil, vehicles, furniture, strata, attire, prostheses, and biological tissue. The structural analysis applies theories and principles from applied mechanics, mathematics and materials science to calculate a structure’s deviation, internal forces, stresses, accelerations, stability & support reactions. The results obtained of the analysis are used to determine a structure’s fitness for purpose, with or without the help of physical tests. Hence structural analysis is the key part of engineering design.

The basic terminology of a structure is that it is a body or system of connected parts used to support a load. Especially in civil engineering include important examples are buildings, bridges, and towers. In other branches of engineering manufacturing, some examples are pressure vessels, aircraft frames, tanks, mechanical systems, and electrical supporting structures, etc. So on a structure loads and stresses are the major factors that affect the form of deformation, deviation or displacement. Hence term structural analysis focuses on such parameters while analyzing any component. Structure designing takes into account Aesthetics, serviceability and safety while considering the environment and economic constraints. 


Once the structure fulfills the requirement of dimensions, it becomes necessary to determine the loads the structure must support. Therefore Structural design begins with specifying loads that act on the structure. 

Structure engineering encounters two types of loads in the design.

1. Dead load: Loads that consist of the weights of the various structural members and the weights of any objects that are permanently attached to the structure. 

E.g. roofing, walls, windows, columns, beams, girders, the floor slab, plumbing, Fixtures, etc.

2. Live loads: The second type of load varies in their magnitude and location. There are many different types of live loads like highway bridge loads, building loads, railroad bridge loads, wind loads, impact loads, snow loads, earthquake loads, and other natural loads, etc.

Analytical Method:

Structural analysis performs a study over a body with the help of input data such as geometry, structural loads, support conditions, and material properties. After inputs, the simulation is stared in the software in the manner of actual working behavior. The results obtained in analysis typically include support reactions, stresses, and displacements. The condition of failure is compared with this information obtained from analysis to clearly indicate the extent of failure. Advanced structural analysis may also examine stability, dynamic response and non-linear behavior.

There are three approaches to the analysis: 

1) Mechanics of material approach (also known as strength of materials), 

2) Elasticity approach (special case related to continuum mechanics field), and 

3) Finite element approach.

Ansys Classes in Pune

The first two approaches make use of formulations which apply generally simple linear elastic models, leading to closed-form solutions, and often possible to solve by hands. On the other hand, the finite element approach is actually a numerical method for solving differential equations generated by theories of mechanics like elasticity theory and strength of materials. The finite-element method relies heavily on the processing power of computers and is more applicable to structures of complex arbitrary geometries.

Finite Element Methods:

The Finite Element Analysis (FEA) is an analytical method which uses a numerical method known as Finite element methods for solving problems of engineering and mathematical physics. FEM is useful for issues with complicated loadings, geometries and material properties where analytical solutions cannot be obtained.

FEM serves the purpose of:


  • Analysis of stresses for beams, truss, and other simple structures are carried out based on dramatic simplification and idealization; like
  • Mass concentrated at the center of gravity
  • Beam simplified as a line segment (uniform similar cross-section)
  • Using the design of this method is based on the calculation results of the idealized structure & a large safety factor ranging from 1.5 to 3 given by experience and condition.

Finite element methods use the following steps:

1. Discretization of a continuum structure:

Separate the components from each other and treat them as a single element. Each element comprise of nodes.  The number of elements and nodes helps to establish the mesh in soft wares.

2. Identify the primary unknown quantity:

Collecting all given data the missing parameters identified. Unknown quantities are identified and listed. Eg: Stress analysis: Displacement {u} at nodes

3. Derivation of interpolation function:

The first mathematical and important step, in theory, is deriving the interpolation functions. Interpolation function constructs new data points within the discrete set of known data points.  Each function creates polynomials to interpolate are known as shape functions. Shape interpose the solution between the discrete values noted at the mesh nodes. Shape functions are denoted by [N] and they establish the relationship between the displacements at any point in the element with the modal displacement of the element.

u = N1u1 + N2u2+ ….

U= displacement

u1= displacement for element 1

u2= displacement for element 2 …. So on

N1= Shape function 1

N2= Shape function 2

4. Derivation of Element equation.

The element equation relates to the induced primary unknown quantity in the analysis with the action. 

e.g:  In a structural stress analysis, Force {F} is the action, Displacement {u} at nodes is the primary unknown and Stresses {σ} & Strains {ε} are secondary unknown.

5. Solve for primary unknowns:

The inverse matrix method is used to solve the primary unknown quantities {q} at all the nodes from the overall stiffness equations. [{q} = [K]-1{R}]

Otherwise there is a Gaussian elimination method or its derivatives to solve nodal quantities {q} from the equation: ([K]{q} = {R})

6. Display and Interpretation of Results:

Arrange results in tabular form.

Graphical displays with contours and animation in software.


Simulation is imitating an operation or a process or a system that represents its operation or working parameters over time.  Simulation acquires legitimate source data about the applicable determination of practices, key attributes and the utilization of disentangling approximations and presumptions inside the simulation, and constancy and validation of the recreation results.

Computer simulation represents the dynamic responses of one system by using the reference parameters and model with the help of a computer. A computer in the form of programs uses mathematical description, or model, of a real system for simulation. A functional relationship is established within a real system with the model with mathematical equations. When the program runs, resulting in mathematical dynamics form an analog of the behavior of the real system and the results presented in the data form. With the use of computer-graphics a simulation can also take the form of an image that represents dynamic processes in an animated sequence.

Computer simulations are simulations mainly used to study the dynamic behavior of models or systems or objects in response to conditions that cannot be safely or easily applied in real life. 

For example, A mathematical model describing a nuclear blast that incorporates such variables as heat, velocity, and radioactive emissions 

A fast-moving car crashing into the wall, incorporating speed, impact intensity, deformation of safety bars, etc.

Alteration or addition of mathematical equations can then be used to adjust the model to changes in certain variables, such as the amount of fissionable material that produced the blast. The observer can measure or predict the functioning of an entire system that may affect the composition and affected by altering the individual components within the system. Simulations are majorly useful in enabling observers to the foresight and measure how the working of an entire system may be affected by altering individual components within that system.

Simulations are useful while predicting the performance of a planned or existing system and to compare alternative solutions for a particular design problem.  In the manufacturing sector, simulation provides the added advantage that is to quantify system performance. Some common measures of system performance are as follows:

  • Throughput under average and peak loads;
  • System cycle time (how long it takes to produce one part);
  • Utilization of resource, labor, and machines;
  • Bottlenecks and choke points;
  • Queuing at work locations;
  • Queuing and delays caused by material-handling devices and systems;
  • WIP storages need;
  • Staffing requirements;
  • Effectiveness of scheduling systems;
  • Effectiveness of control systems.

In modeling, Simulation analyzes a digital prototype of a virtual model to predict its performance in the real world. Simulation with the help of simulation software helps in analyzing the actual working environment that would affect the part. What kind of loads, speeds, impacts, the atmosphere might affect the operation of a component? Also, it can predict heat patterns, fluid flows, etc.  It avoids building multiple prototypes and enables to make changes in a single virtual design.  

Using the technique, they can:

  • Optimize the geometry for strength and weight.
  • Select materials that meet weight, strength, and budget requirements
  • Simulate part failure and identify the loading conditions that cause them
  • Assess extreme environmental conditions or loads not easily tested on physical prototypes, such as earthquake shock load
  • Verify hand calculations
  • Validate the likely safety and survival of a physical prototype before

General Workflow of a modeling simulation:

  1. Use a 2D or 3D CAD tool to develop a digital prototype, to represent a design.
  2. Generate mesh for analysis calculations. Automatic algorithms generate finite element meshes, or users can customize structured meshes to gain control over element quality.
  3. Define FEA data (e.g loads, constraints, or materials) based on analysis type (fluid structural or thermal). Apply boundary conditions to the system to represent how the part will be restrained during application.
  4. Perform FEA,  review results, and make engineering judgments based on results.

Ansys Q&A

Q1. What is Ansys?

Ansys is an analysis software that virtually iterates various simulations to examine all the aspects of working parts that undergo electrical, electronics, mechanical, acoustics, thermal and Fluid conditions. 

Q2. What are the benefits of Ansys?

Ansys provides an environment that applies similar properties as the real-world environment would do on working components. Hence results provide from Ansys are very accurate and are helpful for testing prototypes.

Q3. What kind of knowledge should I have to learn Ansys?

Ansys is software based on analytical mathematical and physical conditions. Hence one should know the basics of engineering, relevant governing equations, material properties, basics of thermodynamics and computational fluid dynamics (For using Fluent).

Q.4 What is the scope of Ansys course in the Market?

Ansys is the highly recommended software for its unique features and accuracy in results.  The popularity of Ansys amongst various organizations opens the doors to work in the R&D department for Mechanical, Civil, and Electrical and electronics engineers.

Q5. What are the proficiencies of Ansys?

Ansys demands theoretical technical clarity in order to better understand the result and conclude the data. Also, it sharpens the perspective of analyzing a component considering the factors that might affect the part in working condition.

 Q6 What is Structural Analysis?

The structural analysis deals with the effect of loads on various structures/components. Material properties and boundary conditions are required to specify. Then Ansys runs a simulation over a component and results are displayed mostly in terms of deformation, stress concentration, strains, etc.

Q7. How many workbenches are there in Ansys?

In Ansys, there are about 25 different workbenches to work.

Q8. Does Ansys provide part modeling?


Q9. Do Ansys import files from other software?

Yes. For Ansys setup and Analysis file has to save in .stp(STEP) or .igs(IGES) extensions.

Q10. What is the difference between IGES and STEP file?

IGES is Initial Graphics Exchange Specification and STEP stands for Standard for the Exchange of Product model data. Both are neutral file formats that support to transfer data of 2D as well as 3D models in between different software. IGES is older but.STEP can transfer additional information such as material information and tolerances providing more versatility.

Who Can Do this Course?




BE/ Bsc Candidate


Any Engineers


Any Graduate


Any Post-Graduate


Candidate seeking this course

Training Module

Weekend Batch


Session: 4 Hrs per Session

Duration: 2 Months

Days: Saturday & Sunday

Practical & Labs: As Per Course

Personal Grooming: Flexible Time


Regular Batch


Session: 2 Hrs per day

Duration: 2 Months

Days: Monday to Friday

Practical & Labs: Regular

Personal Grooming: Flexible Time



Prasanna Fadnavis

It was a great experience overall. The course instructor was knowledgeable. Personal attention to each candidate. All the doubts resolved properly. The course material is well prepared and organized. Positive atmosphere.  Complete design package course. Totally satisfied… excellent!!!!
I would love to recommend this institute to my friends.

Nisha Talwar

It was really great to be there as learning became easy. Proper guidance was given from the beginning about the course. Faculty was really helpful and supportive in lab. I got many job opportunities after I finished Ug Nx course.

Sai Kulkarni

Certification in Unigraphics really helped me to enhance my skill in design. SevenMentor is a fine institute with excellent setup. Course duration is flexible and syllabus covers all the important topics as well as thorough introduction to all modules. Trainers are excellent, friendly and well sorted in their minds.

Check Out the Upcoming Batch Schedule For this Course

Frequently Asked Questions

What is Ansys?

Ansys is an analysis software that virtually iterates various simulations to examine all the aspects of working parts that undergo electrical, electronics, mechanical, acoustics, thermal and Fluid conditions.

Is The Course Fees In My Budget?

We Are Committed For Lowest Course Fees in the Market

Do you Provide Institutional Certification After the course?

Yes! We do provide Certification straight after completion of the Course

Do you have any refund policy?

Sorry! We don’t refund fees in any Condition.

How about the Discount offer on this Course?

Yes, this Course has heavy Offer discount in fees if you pay in One Shot/ Group Admission!

I Am Worried About Fees Installment Option If Any?

Don’t Worry! We Do Have Flexible Fees Installment Option

Do We Get Practical Session For This Course?

Yes! This Course Comes With Live Practical Sessions And Labs

Is the Course Comes With Global Certification?

Sure! Most of our Course Comes with Global Certification for which you have to give Exam at the End of the Course

Will your institute conduct the Exam for Global Certification?

Yes we do have different Exam Conducting Department where you can apply for certain course’s Exam

Satisfaction Guaranteed

24/7 help Desk

For any inquiry related to course, we have opened our portal, accept the requests, We assure to help within time.

Placement Department

we have Separate placement department Who are Continuously work on Company tie-ups and Campus requritment process

Money for a quality and Value

we have a policy under which we care for 100% job Assistance for each course until you got your dream job, Hence anyone can apply for learning with Quality

In-House Company Benefit

We have US Based In-house Company under SevenMentor Roof, thus candidate will get Live project working Environment.

Join Now


11 + 13 =

Talk to Our Career Adviser


Pin It on Pinterest

× How can I help you?