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ansys classes in pune
What Does Ansys Entail?
Since its establishment in the 1970s, Ansys has been a resource for engineering simulation. The capacity of Ansys software to identify whether a product has real-world applications is well-known. It provides a realistic answer by permitting mechanical engineers to test their machine and device designs.
The engineering simulation software's simulation capabilities are routinely upgraded in response to evolving industry demands. Ansys is designed for both professionals and mechanical engineering students.
What Role Does Ansys Mechanical Play?
Simulation technology from Ansys addresses all areas of machine design. It is used to evaluate product designs and generates accurate findings that can be utilized to identify if a design can be improved prior to manufacturing.
The majority of the potential uses for Ansys are in engineering. It offers a vast array of simulation subspecialties that handle certain mechanical engineering issues.
Models constructed in three dimensions. Ansys enables you to construct 3D models of your machine ideas in order to visualize them in the actual world.
The field of electrical engineering. Using Ansys, you can see the flow of electromagnetics in your device design and observe how it influences mechanical performance.
Software that is incorporated. Ansys can develop programming code to assist you with product enhancement.
Understanding liquids Specifically tailored for Computational Fluid Dynamics studies. It is used to evaluate the effectiveness and operability of a design.
System and structural improvement These tools will assist you in comprehending your design by guiding you through numerous scenarios. They can help you resolve any mechanical issues that may arise.
Utilizable Ansys Products
Every mechanical engineering issue is addressed by Ansys training. There are a variety of Ansys goods from which to choose, depending on your needs. Listed below are some of the most prominent programs, each created for a certain circumstance.
Ansys Examination
This product is used to construct three-dimensional models. It can facilitate design creation for any project. Because the simulation is dynamic, it will continuously seek to include new ideas.
Maxwell, Ansys
Maxwell was established to test the electromagnetic flux of a product. The simulation allows the user to investigate the inner workings of a machine. It can be used to test the motions of the various working components of a machine or product.
Scada Suite is a product of Ansys.
During the development phase of an Ansys project, the Scada Suite facilitates code generation. It can be used to develop vital software for autopilot modes and emergency braking systems on trains.
Ansys Fluent is created specifically for fluid simulation in projects or machines. This may detect heat and mass transfer within a machine, as well as chemical processes.
Automatic Ansys
Ansys Mechanical is a crucial program for assuring the correct application of physics to a project. It offers a vast array of problem-solving options, including acoustic simulations.
The Ansys Learning system
Ansys is an essential program for students of mechanical engineering. The program is utilized by industry professionals due to its multiple advantages. Simulated testing saves money on supplies and labour, to begin with.
How Much Time Does Ansys Training Require?
Ansys is difficult to master since you must have a thorough understanding of mechanical engineering and physics computations. If you have this foundation, it may just take a few weeks to learn the fundamentals.
There are several tools accessible to help you with your studies, including Ansys classes in Pune, regardless of your degree of engineering knowledge.
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CATIA Instruction
Dassault Systèmes' CATIA is a multi-stage 3D programming suite that comprises CAD, CAM, and CAE. Dassault is a French construction company that specialised in aeronautics, 3D structure, 3D computerised forgery, and item lifecycle the board (PLM) programming.
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What is the main task of design engineer? Obviously, creating engineering drawing. Hence an engineering graduate must be good at it. Today, software like AutoCAD, Catia, Creo makes it easy to create and maintain engineering drawings. Creating engineering drawing as per instructions is the job of a draftsman. However, engineering design is much more than just creating drawing. Real design engineer not only understands the drawing but also can co-relate additional specifications like GD&T, material properties etc. to the performance of the component that is getting manufactured. Without such knowledge abilities you are no more than a sophisticated draftsman who works on computers.
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“CAD test was tough. I knew it all. But could not understand some of the views shown in a test. It was very confusing and though I knew the method, I could not solve the problem.” A very typical response from an engineering graduate to a question “how was your CAD test”?
Many such young engineers cannot clear the CAD test. There is a simple reason for it. Every recruiter who designs a CAD test has a purpose in mind. While evaluating engineering graduates for the job of CAD Engineer/design engineer, recruiters wants to check if his/her fundamentals are strong. Obviously, the test creator would keep a hitch in the CAD test, and one must be able to find it and take appropriate action. This shows strong fundamentals and an acumen to progress further in the design engineering career.
Some of the bright students can easily spot the hitch; for example, imagining/co-relating a missing view in a CAD test. But many could not. Why so? The answer lies in the way most of the engineering graduates approach learning of engineering drawing.
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Certified Mechanical Engineering Courses
About Certified Mechanical Engineering Courses
Certified Mechanical Engineering Courses viz. CADCAMGURU Certified Product & Tool Design Engineer includes domain knowledge of Product & Tool Design along with CAD and CAE software, design fundamentals, domain training by industry experts, aptitude test training, soft skill training, and industrial visit.
Each student will get experience working on 3D CAD software.
As Training partner of Dassault Systemes, Siemens, and ALTAIR, we provide experiential learning and hands-on experience on software like CATIA, Creo, Nx CAD and ANSYS.
Unique Features
100% placement assistance
Unlimited opportunities for interviews after course completion
Domain knowledge of Product & Tool Design
Training on CAE (Analysis) & 3D CAD modeling of casting, forging, plastic, sheet metal and machined components
Faculties with a minimum of 10 years of Industrial Experience in their respective domain
Design Fundamentals
Industrial Visit
Aptitude test training for placements
24×7 online learning portal
#cad#ccg cadcamguru cadcam mechanical#cadcamguru#mechanicalcourses#mechanicaldesign#MechanicalEngineeringCourses
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When you dream of becoming a design engineer, you need to up your game. When you design something, it should deliver the desired performance in the real situation. For this, as design engineer you must be good in your visualization, engineering drawing, strength and properties of materials and how you use GD&T to guide the production engineer as well as the inspection engineer.
If you want to know more about GD&T symbols read preceding blog in the sequence Know GD&T symbols start your design engineering career with a bang! Part-2
GD&T Symbols
We have explored 10 GD&T symbols in our previous two blogs, this will cover the remaining 4 symbols.
Circular Runout
Circular Runout indicates variation in a given reference feature/features with respect to another datum/reference when the part is rotated 360° around the datum/rotational axis. Shafts and spindles mount some parts like gears, pulleys which rotate at high speed. These parts should not create any dynamic imbalance which may reduce efficiency of the whole mechanism and even reduce the life span.
Examples
Gears, pulleys, hubs, clutch plates which rotate at high speed mounted on Shafts, mandrels or Spindles
Application
Circular Runout is applicable where revolving feature itself is short at its functional length or mounts a component which is short at its thickness. The mounting component may have a fixed location on the shaft or move axially. It is indicated by an arrow with slant of 450. To inspect the component should be held at different location which is a datum feature.
The axis of Ø40 is a datum feature. Accordingly, component should be held at Ø40 with the help of datum simulator which can be an expanding sleeve for Ø40, capable of revolving around horizontal axis. Now feature control frame specifies that if a dial indicator is aligned to the component in slowly revolving state, then it must not indicate variation more than 0.05 mm.
Total Runout
This characteristic is applicable for the revolving feature which is considerably long and mounting some revolving component almost equally long.
Examples
A double or triple gear
A stepped pulley
A splined hub
Application
It is indicated by a double arrow symbol where an individual arrow shall have the same specification as that for the circular runout.
It indicates that the total runout of the outer diameter B and the adjoining face C is under discussion. The outer diameter features A and D are the joint datum features. If a dial indicator is aligned on the outer diameter B while component is slowly revolving, then the total variation within all observations must not exceed 0.05 mm. Similarly, if the dial indicator is aligned in the surface C and readings taken at various radial locations, then the total variation within all observations must not exceed 0.1mm
Surface Profile
Very complex surface profiles are created for the purpose of aesthetics, aero-dynamics or for creation of a very complex motion. Variation in these profiles should be controlled to avoid function/fitment problems.
Examples
Cams, turbine blades, sheet metal body parts of an automobile, impellers
Application
The symbol for surface profile is inverted semicircle. The surface profile can be defined using number of curvatures, straight or slant lines, mathematical equations etc. Feature control frame indicates that profile PQ can deviation from its true shape by not more than 0.5mm. The mentioned permissible deviation of 0.5 mm shall be understood as the local deviation which must be contained within 0.5mm equally distributed on either side of the true profile.
Profile of a line
Profile of a line indicates permissible tolerance zone around any line in any feature, usually for curved shape. Profile of a line specified a tolerance zone on either side of the cross section at any point along the surface.
Examples
Plate cams
Sheet metal templates for copy turning
Inspection templates
Application
The characteristic symbol is an inverted semicircle without the diameter base. The interpretation is the same as that for profile of a surface.
How to master GD&T Symbols and standout in the job interview?
Just knowing the theory is not enough. You should practice design of a component assembly or modify a component to improve its functionality. With such practice you will become confident to answer any type of question in the interview. You need to choose a training institute which can equip you with the knowledge and skills that the industry demands for. CADCAMGURU is one of such institutes which focusses on honing the job skills of the candidates with practical exposure of designing or improving design of real mechanical components and assemblies. Choosing the right mentor for training is the first step and first strong step leads to a great career.
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Information Technology (IT) engineers always get big bucks. What about mechanical design engineers? If you believe that ‘career as a design engineer is not that financially rewarding’, it is a complete myth. As a design engineer one can make an excellent and financially growing career. Here is small chart which shows the career growth. Let us discuss what it takes to pursue it.
Designation
CAD Engineer
Senior Engineer
Project Engineer
Engineering Manager
Experience
0-2 years3-4 Years4-6 Years6-10 years
Reported By
CAD EngineersSenior EngineersProject Engineers
Becoming a Better CAD Engineer
Let us take a case of a design engineer hired in an organization. His first task is to create engineering drawings. Any suggested changes or corrections to the drawing come back to him from quality checker as markups.
As he starts gaining experience with drawings, the next step towards improvement is to get less and less number of markups every day and finally reaching to a state of zero markups. Once he achieves this ‘no-markup’ condition, he has become capable of doing a design quality check/review himself.
Now he can start checking the drawings created by the junior members from his team. And he has become a better design engineer who is ready to shoulder more responsibilities.
Becoming Senior Engineer
Now the design engineer starts understanding more nuances. He slowly starts developing more knowledge about tolerancing and GD&T, how to do packaging, which surfaces are important, which finish is required? where to apply oil? which surface needs grinding? why a component needs surface finish? And so on.
When he sees the drawing of any part, he can imagine where it fits in the assembly. The drawing is just not a print, but it appears to him as a working component. And he can now jump to the next step of learning called an assembly analysis.
Consider that there is a request or ECN(Engineering Change Notice) from manufacturing to increase tolerance of a component. Now the design engineer needs to go and check in the assembly following things:
Which is the mating component?
Why so much clearance is required?
What would happen if we reduce or increase the tolerance?
If this tolerance is accepted, would leakage increase? By how much?
Will this change affect any aspect of GD&T like form tolerance?
With such incisive questions, he has already on the way of becoming a senior engineer. He starts developing an eye and acumen for which ECR should be approved or which should not be. He can suggest his manager not to accept a particular ECN/ECR based on data of reliability testing completed in the product development phase. Now he understands that he is responsible for the performance and his responsibility is not limited to just to create and make changes in engineering drawing.
Now Project Engineer
Now he becomes a potential candidate for the next step to start handling projects. He understands assemblies, which change can cause interference, what is the impact of a change on the overall envelope, and so on. Hence, he can process assembly or product level changes. He can do data interpretation in the form of performance. He collects data from various sources, doing tolerance stack analysis and making judgement based on the available data from reliability testing.
He starts learning product design. He studies why a particular part is designed like this and with this material only. So, he focusses on stresses, materials and failures. He learns testing of the product. He should be able to set up labs, execute given test plans and troubleshoot them. Now he has grown to a project engineer. One additional skill a project engineer must have is interviewing human resources. He should be able to select a proper resource either from internal team or vendor. With experience he can take progressive steps like an engineering manager, AGM/DGM reaching to V.P. Engineering.
On the Career Growth Path…
Someone who has started with his career as CAD engineer can grow up in the ladder as shown in the diagram. One can grow to the level of DGM or VP engineering. This is long-lasting career based on solid foundation of few skills which you learn in graduation and then in first five years of your job. These skills are drawing reading, understanding assemblies, GD&T and tolerance stack analysis and material properties.
While doing graduation, some of these crucial skills are not given due importance and focus. Now that you are aware of what it takes to pursue a successful design engineering career, you must bridge the gaps that exist today. The most easy and guaranteed way of doing it to take help from somebody who is expert in this like CADCAMGURU. If engineering design is your passion and want to see yourself as a successful design engineer, take the first step and enroll for the training.
#cadclasses#cadcamguru#cadcam#CAD#mechanicalengineering#mechanicalcourses#ccg cadcamguru cadcam mechanical
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CAD Solidworks : CADCAMGURU Certified CAD Professional – Solidworks
CADCAMGURU Certified CAD Professional Program using 3D CAD software – Solidworks
CADCAMGURU is the premier Solidworks training institute in Pune and rest of Maharashtra
Solidworks training at CADCAMGURU is conducted by industry professionals & academicians, has a proper blend of theory & practical sessions
As Training partner of Dassault Systemes, CADCAMGURU provides experiential learning and hands on experience on Solidworks 18
#CADcourse#cadcamguru#cadcam#CAD#cadclasses#mechanicalcourses#MechanicalEngineeringCourses#ccg cadcamguru cadcam mechanical
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Certified CAD Design Courses viz. CADCAMGURU Certified CAD Engineer program, CAD classes, CAD programs are designed in consultation with Industry Experts to impart domain-specific know-how thorough practical and project-oriented training. Training also includes hands-on experience in CAD-based Design Projects.
Each student will get the experience of working on 3D CAD software.
As Training partners of DASSAULT Systems, PTC, and Siemens we provide experiential learning and hands-on experiences on software like CATIA, Creo, and Nx CAD.
Learn CAD & get the best learning through CAD design courses.
Unique Features
100% placement assistance
Unlimited opportunities for interviews after course completion
Training on 3D CAD modeling of castings, forgings, plastic, sheet metal, and machined components
GD&T
Industry Projects for Design
Aptitude test training for placements
Spoken English training for Personal Interviews
24×7 online learning portal
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