ANSYS: The simulation software experts 

ANSYS has a pretty powerful reputation in the world of simulation.

They are three times larger than their nearest competitors and 96 of the top 100 Fortune 500 Industrial companies use ANSYS – which is an incredible statistic. A big reason why ANSYS is so popular among top companies is that they’re completely CAD agnostic and can truly work with anyone.

It doesn’t matter if you’re using Creo, SolidWorks, Autodesk, or CATIA – the ANSYS simulation software can plug in easily with just about any CAD platform without any problems.

Engineers use ANSYS from their first design sketches all the way up to when they’re producing parts.

I think we’ve all had situations where we start with one tool, and as we progress, we eventually reach the limitation of a tool set. When this happens, it means you either can’t find your desired answer or result or you’re furiously searching Google for a more advanced toolset.

I’ve seen people get stumped. The cost of switching from a lower end to a higher end tool is not only more expensive but now you have to learn a different tool set. So, you try to work with what you have.  

I get it. The day will come when you have a more challenging problem, for example, that needs a more advanced nonlinear analysis tool that can’t be readily solved with a lower end tool.

You’ll want to consider using a high-end simulation product like ANSYS.

Predicting Fatigue Cracks with FEA

Often times things fail through repeated loading time in the field. You get a crack which initiates and then propagates – in which case will eventually fail.

A lot of people will try to predict the life of a crack. Doing it the right way will save time, money, and effort early on in your design phases.

Regardless of what tool you are using to do fatigue analysis, this on-demand educational video will teach you something new.

We’ll talk about how you can start doing fatigue failure prediction in your current design system, and regardless of your simulation experience – you’ll be able to pick up on the concepts of predicting fatigue cracks.

Finite Element Analysis (FEA) is used to ultimately produce less prototypes and optimize product design to develop products better and faster. ANSYS Mechanical is a suite of structural FEA analysis tools that solve complex structural engineering problems.

Watch the webinar recording on “ANSYS Mechanical: Predicting Fatigue Cracks with FEA“.

This is a webinar preview. Watch the full video here.

The latest ANSYS 19.2 release enables users to solve product development challenges faster than ever with Pervasive Engineering Simulation solutions. 
Shane Emswiler, Vice President and General Manager for ANSYS electronics, fluids, and mechanical business units says, “ANSYS 19.2 delivers product enhancements that enable more companies to remove design barriers and bring their innovative products to market faster than ever without sacrificing quality.”

Computational Fluid Dynamics (CFD) Improvements

The workflow for CFD Simulations is accelerated for watertight geometries supported by Mosaic meshing technology. ANSYS Fluent meshing delivers higher quality results at faster speeds using high-quality polyhedral meshes for accurate flow resolution. Users are now able to produce fewer and better quality cells to deliver solutions twice as fast as before.

ANSYS Fluent meshing delivers higher quality results at faster speeds

Multiphysics Improvements

System Coupling 2.0 for multiphysics design simulation has been added with the new release offering consistent performance and validation against the original version of the engine. High-performance computing (HPC) resources for multiphysics simulations are able to quickly map data. Text-driven workflows have been improved to make it easier to start and restart coupled fluid structure interaction analysis.

coupled fluid structure interaction analysis

Functional Safety Analysis Improvements

ANSYS 19.2 makes it easier and faster to build, validate, and deploy digital twins and provides new functionalities for the development of autonomous and electric vehicles. ANSYS VRXPERIENCE allows users to use virtual reality simulation and predictive validation for autonomous vehicle simulation for additional intelligence such as smart headlamps, interior and exterior lighting, autonomous vehicle controls, and HMI validation. VRXPERIENCE uses realistic real-world simulation conditions including weather and road conditions, oncoming vehicles, pedestrian scenarios, and anticipation to critical situations.

build, validate, and deploy digital twins

Embedded Software Improvements Users can design easier and faster with embedded system architecture and develop and verify safety-critical embedded code. ANSYS SCADE Suite has been improved to the design verifier and the Simulink importer and now ANSYS SCADE LifeCycle offers Jama Software to support manageability tools and enable bidirectional generation of matrices.

Physics Simulation Improvements

ANSYS 19.2 expands the physics simulation capabilities into Optics and Optoelectronics to be able to design and simulate illumination, interior and exterior lighting, cameras, and optical performance faster than ever. The ability to simulate optical performance within a system allows designers and engineers to perfect the optical product performance while reducing development time and costs.

Physics Simulation Improvements

3D Design Exploration

ANSYS Discovery Live now allows users to use a parameter studies to test new ideas with minimal setup and run time. It allows designers to customize and learn more about simulation results to accomplish better design goals. ANSYS Discovery AIM includes improved physics-aware meshing for faster results.

3D Design Exploration

Design Simulation Improvements

Inverse analysis, material designer, and topology optimization enhancements allow engineers to calculate the cold shape of a component to achieve the desired hot shape and performance. ANSYS Additive Print and ANSYS Workbench Additive now includes physics-driven lattice optimization; additional topology optimization loading options; manufacturing constraints for additive manufacturing; and lattice optimization capabilities. These improvements help dramatically light-weight parts which saves companies a lot of material costs.

Design Simulation Improvements

Electromagnetic Design Improvements

New advancements include light-weight geometry modeling for rapid meshing and actor movement in road scene simulation – producing a simulation 20x faster than the previous release. ANSYS Icepak allows users to compute thermal impact from multiple electromagnetic loss connections and ANSYS SIwave allows users to easily define and explore printed circuit board (PCB) stackup layers to evaluate PCB design performance.

Electromagnetic Design Improvements

 

Learn more about ANSYS on our website.

EAC’s been in the engineering and design technology world for a long time. Over the years we’ve carefully cultivated our product portfolio to meet the ever-changing needs of people and companies that design, manufacture, and service products. Our partnerships with PTC and ANSYS allow us to offer a few different design simulation and analysis solutions to our customers.
Design simulation, Computer Aided Engineering (CAE), Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), and many other terms all fall into the “simulation and analysis” bucket. These tools help engineers and designers create virtual prototypes of their products. This helps groups rapidly prove, or disprove, design ideas in a digital space – reducing the time and money spent on physical prototypes, and increasing confidence in designs.

“If you’ve seen one, you’ve seen ‘em all” does not apply to simulation software. Different tools offer different benefits, accuracy, speed, and ease-of-use. Here’s a quick overview of some of the tools we offer. Contact our sales group to learn more about pricing, full capabilities, and packaging.

Option 1) PTC Creo Simulate

Simulate is a fantastic tool that’s fully integrated into PTC Creo Parametric CAD software. It offers fantastic meshing capabilities and accurate simulation results directly within a user’s familiar CAD software interface. All you need to do select the PTC Creo Simulate tab and you’re off and running. This is great for designers and engineers looking to test the stresses and loads under which a product will operate in ‘real world’ conditions. Based on your simulation and analysis results, you can either fix design flaws or forestall them. If you’re already using PTC Creo you should explore PTC Creo Simulate. Because, why would you ever manufacture a product without testing and analyzing it first? Creo Simulate comes in two flavors – Simulate and Advanced Simulate. They come with two different price points. One or the other might be the best option for your company. It really comes down to whether you need to simulate materials with linear or non-linear properties.

Option 2) ANSYS Discovery Live

ANSYS Discovery Live blows my mind. This tool was released in late 2017 and delivers functionality never seen before. Discovery Live uses ANSYS Discovery SpaceClaim to pull in IGES, STEP, and CAD models. Then the interface guides users through applying materials and some constraints – and Boom! It runs the simulation…in real-time…right in front of you. I’m talking about the ability to run wind-tunnel testing in real-time! Discovery Live is different from PTC Creo Simulate and most other simulation tools. It uses the Graphics Card (GPU) to run the simulation. This means it doesn’t occupy your core processor and RAM to while solving. You get better computer performance and instantaneous results for structural, thermal, fluid flow, wind tunnel, structural/fluid interaction, and more. Discovery Live is a great tool for engineers and designers that want to test a lot of design options quickly. The price is incredibly reasonable for a tool this powerful. You can see pricing and compare Discovery Live to AIM here.

Option 3) ANSYS Discovery AIM

Sometimes simulating real-world conditions requires more features and control than tools like PTC Creo Simulate, Solidworks Simulation, or Discovery Live might offer. ANSYS Discovery AIM is a great option when that’s the case. ANSYS Discovery AIM is a “multi-physics” simulation tool. What does that mean? Multi-Physics or Multiphysics refers to the ability to combine properties and solvers to simulate product usage. “Physics” in the simulation world refers to the kinds of simulation you are running – e.g. electromagnetic, thermal, structural, radio frequency, fluid flow, etc. AIM is a workflow driven multi-physics tool. It guides users through the steps necessary to complete a successful simulation. This is the perfect option when companies want a robust solution, but may not have experienced analysts on staff. Much like how PTC Creo Simulate maintains a familiar interface to make simulations easier; AIM uses guided workflows to make detailed upfront simulation accessible to engineers and designers.

Option 4) Dedicated ANSYS analysis software

When product simulation and analysis goes to the next level you need the ANSYS flagship products. These are sometimes known as the ANSYS Workbench products. Unlike PTC Creo Simulate or the Discovery software, each of these tools focus on one area of simulation…and deliver results you can take to the bank (or the regulatory agency). They are more complicated and come with a higher price point, but the results are unmatched. ANSYS’ comprehensive software suite spans the entire range of physics, providing access to virtually any field of engineering simulation that a design process requires. Organizations around the world trust ANSYS to deliver the best value for their engineering simulation software investment. If you need to test a specific physic – fluids, structures, electronics, semiconductors, or embedded software – this is the option for you. Contact us to learn more about a specific solution’s pricing and functionality. Also, if you’re a start-up make sure you ask us about special offers available through the start-up/entrepreneur program.

So there you have it. My layman’s take on a variety of simulation options. I hope you found this helpful. Please reach out to us if you have any questions or would like to see a demonstration of any of these tools.