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Ansys Discovery 2023 R2 includes breakthrough new features that help our customers innovate and explore new product concepts faster and more accurately than ever before. Engineers and designers no longer need to sacrifice accuracy for speed! Thanks to the breakthrough combination of the Live GPU CFD solver with high-quality unstructured polyhedral meshing, you can now have the accuracy of Ansys Fluent with the speed of Live Physics all within the highly automated and easy-to-use interface of Discovery. The new Check Geometry tool automatically identifies problematic model issues before going to simulation, avoiding mesh failures and time-consuming roundtrips between tools. A highly innovative new workflow technology has been introduced that eliminates the most challenging part of CFD preprocessing, so that you can spend more time interpreting and learning from test results and less time setting them up. These features, and many more that you'll see in this video, make Discovery 2023 R2 the go-to solution for efficient and effective design exploration! Want to hear from the experts behind the software? Register for the Ansys Discovery 2023 R2 Webinar here: 🤍 #AnsysDiscovery
As fast as boundary conditions are established or geometry edits are made, Discovery Live displays useful results all in real-time. Learn more: 🤍
ANSYS Discovery is a 3D design software product family that allows all engineers to build smarter products, reduce time to market and decrease product development costs. Easy-to-use tools provide instantaneous and high-fidelity engineering simulation capabilities across all physics types, allowing users to rapidly iterate on more concepts in real-time and improve design performance in minutes.
Ansys 2023 R1 expands Discovery’s astonishing Live physics, innovative user experience, and powerful modeling tools making it a critical piece of the Ansys digital simulation thread and the best place to start simulation for every engineer and analyst. Check out the new features, including: •Subdivisional Modeling • Accuracy improvements for thin structures • Automated bolt checking • Time dependent conjugate heat transfer • Antenna Ideation parameter study • Rotating Fluid Zone • User-defined limits for measured values • Custom shortcuts • A redesigned topology optimization workflow And more! Want to hear from the experts behind the software? Register for the Ansys Discovery 2023 R1 Webinar here: 🤍 #AnsysDiscovery #Simulation #Engineer #innovation #release
Ansys Discovery is 3D design software that allows all engineers to build smarter products, reduce time to market, and decrease product development costs. Easy-to-use tools provide instantaneous and high-fidelity engineering simulation capabilities across all physics types, allowing users to rapidly iterate on more concepts in real -time and improve design performance in minutes. Connect with Ansys: Like Ansys on Facebook: 🤍 Follow Ansys on LinkedIn:🤍 Follow Ansys on Twitter: 🤍 Follow Ansys on Instagram: 🤍 0:00 | Introducing Ansys Discovery 0:37 | Structural Simulation 1:08 | Ansys Flagship Solvers 1:25 | Fluids Simulation 1:55 | Model Mode 2:35 | Ansys Fluent & Thermal Solution 3:55 | Download A Trial Today #Ansys #Discovery #Software
Advanced Tutorials here: 🤍 In this video, you will learn how to setup a basic fluid analysis. We'll cover topics on leveraging the heads-up display (HUD), creating an internal volume extract, and setting inlets and outlets.
Watch this video to learn how the latest features in ANSYS Discovery help you to rapidly explore, iterate and validate hundreds of potential shapes using topology optimization during upfront design and concept development for additive manufacturing or traditional manufacturing processes. Generate the optimal shape, material and process to ensure superior performance of your product before you start building it.
Advanced Tutorials here: 🤍 In this video, you will learn how to setup a basic structural analysis. We'll cover topics on leveraging the heads-up display (HUD), reviewing boundary conditions, and understanding post processing results.
In this video lesson, we will identify some simplifying assumptions that we can implement to transform the original, complex FSAE CAD geometry into a CFD simulation-friendly geometry. We will make use of Ansys Discovery for modifying the car geometry, and along the way, we will also learn how to utilize various tools such as Fill, Combine, Move, and more. For more details about the contents of this video, visit the lesson page here → 🤍 // INTERESTED IN MORE? Visit Ansys Innovation Courses for free courses that include videos, handouts, simulation examples with starting files, homework problems and quizzes. Visit today → 🤍 // DOWNLOAD FREE ANSYS SOFTWARE Ansys offers free student product downloads for homework, capstone projects, student competitions, online learning and more! Download today → 🤍 // QUESTIONS ABOUT THIS VIDEO OR USING ANSYS? Get help from Ansys experts and peers through the Ansys Learning Forum. Search for answers to common questions, browse discussion categories or ask your own question. Visit today → 🤍 // STAY IN THE LOOP Follow our Ansys Academic LinkedIn showcase page for updates on learning resources, events, job opportunities, cutting-edge simulation content and more! Follow today → 🤍
Learn how you can use ANSYS Discovery Live to perform preliminary, instantaneous simulations to obtain a viable structural design, followed by ANSYS Discovery AIM for more rigorous mechanical simulations to refine and validate the design. See how a rocker arm can be quickly engineered to your specifications using this powerful combination of simulation solvers. Learn more: 🤍
Students at Torstad Middle School in Oslo, Norway are challenged to create a flying boat with the help of ANSYS Discovery Live. After learning how to use Discovery Live within a couple hours, the students begin to make the impossible possible.
Advanced Tutorials here: 🤍 In this video, you will learn how to setup a basic fluid analysis. We'll cover topics on leveraging the heads-up display (HUD), creating an internal volume extract, and setting inlets and outlets.
Set up and run simulations in Ansys Discovery for a wide range of industries and applications faster and easier than ever before with new multiphysics capabilities, performance improvements and dynamic collaboration updates. Ansys Discovery 2021R1 now includes automated fluid-solid thermal analysis to easily predict fluid and solid thermal behaviors for the design and evaluation of electronics cooling and heat management devices.
Get in Touch: Contact form: 🤍 Email: info🤍simutechgroup.com Phone: (800) 566-9190 🤍 Additional Ansys Tips & Tricks Videos: 🤍 Available Ansys Training: 🤍 Ansys Webinars: 🤍
Powered by NVIDIA CUDA technology, Ansys Discovery Live takes advantage of NVIDIA Quadro GPUs to bring real-time simulation to your design workflow. Watch this video to discover how Discovery Live’s powerful combination of instantaneous simulation and direct geometry modeling delivers the ideal solution for interactive design exploration and rapid product innovation.
Liebherr leverages Ansys Discovery early in their product development process, enabling engineering to explore multiple design ideas quickly in real-time, make changes and instantly view results. Using Ansys Discovery, Liebherr engineers are able to identify design hurdles, make improvements, and then leverage Ansys Mechanical for validation downstream.
Discovery Live is a simulation environment where engineers can modify display results and characteristics to rapidly observe trends in their design. Learn more: 🤍
Subscribe now to Ansys Virtual Academy: 🤍 This session provides a detailed overview of the features of Ansys Discovery Live for fluid flow simulations, including the following topics: -Live demos of complete workflows of internal and external fluid flow applications -Model setup, results and design exploration -Which types of problems are suitable for fluid flow simulation in Discovery Live What is the Ansys Discovery Live Series? Ansys Discovery Live Webinar Series is a 6-part online simulation series brought to you by ANSYS and KETIV. On the second Monday of every month we will walk you through the capabilities of Discovery Live, show you how to use the software and present use-cases and real-time demos. Each session will take place live, which means you will have the opportunity to get your questions answered live! What is Ansys Discovery Live? Ansys Discovery Live is the ground-breaking new product for early stage design simulation or product development. It’s a game changer which enables engineering simulation to be used by a wider range of engineers to resolve design questions earlier in the design process. With Discovery Live, you’ll be able to reduce time to market, lower design costs, and increase innovation. Follow us: Facebook ►► 🤍 Twitter ►► 🤍 LinkedIn ►► 🤍 Blog ►► 🤍 #Ansys #FluidSimulation #KETIV
In this video lesson, we will learn how to prepare the FSAE CAD geometry for meshing. We will learn how to create fluid enclosure around the car and fluid regions around the wheel rims for applying moving reference frame boundary conditions. We will also learn how to apply the Share Topology tool between the fluid regions to ensure conformal mesh generation between them. Additionally, we will also discuss how to give named selections to different car parts and discuss how we can export CAD in different formats for use in the meshing lesson. For more details about the contents of this video, visit the lesson page here → 🤍 // INTERESTED IN MORE? Visit Ansys Innovation Courses for free courses that include videos, handouts, simulation examples with starting files, homework problems and quizzes. Visit today → 🤍 // DOWNLOAD FREE ANSYS SOFTWARE Ansys offers free student product downloads for homework, capstone projects, student competitions, online learning and more! Download today → 🤍 // QUESTIONS ABOUT THIS VIDEO OR USING ANSYS? Get help from Ansys experts and peers through the Ansys Learning Forum. Search for answers to common questions, browse discussion categories or ask your own question. Visit today → 🤍 // STAY IN THE LOOP Follow our Ansys Academic LinkedIn showcase page for updates on learning resources, events, job opportunities, cutting-edge simulation content and more! Follow today → 🤍
In this video, we will learn how to use the Pull tool in Ansys Discovery to modify existing geometry and add or remove faces. We will also look at the Pull tool group options such as Sweep and Revolve. For more details about the contents of this video, visit the lesson page here → 🤍 // INTERESTED IN MORE? Visit Ansys Innovation Courses for free courses that include videos, handouts, simulation examples with starting files, homework problems and quizzes. Visit today → 🤍 // DOWNLOAD FREE ANSYS SOFTWARE Ansys offers free student product downloads for homework, capstone projects, student competitions, online learning and more! Download today → 🤍 // QUESTIONS ABOUT THIS VIDEO OR USING ANSYS? Get help from Ansys experts and peers through the Ansys Learning Forum. Search for answers to common questions, browse discussion categories or ask your own question. Visit today → 🤍 // STAY IN THE LOOP Follow our Ansys Academic LinkedIn showcase page for updates on learning resources, events, job opportunities, cutting-edge simulation content and more! Follow today → 🤍
#ANSYS #ansysdiscovery #ANSYS2022 Hello everyone. This video includes the installation process of student version | ANSYS Discovery 2022 R1.
In this video lesson we will learn the step-by-step process for creating the phone body and screen of a smartphone model using Discovery. In this video lesson we will cover what solid modeling is and learn the importance of solid modeling in the design phase of modern products. This lesson is part of the Ansys Innovation Course: Learning Solid Modeling with Ansys Discovery. To access this and all of our free, online courses — featuring additional videos, quizzes and handouts — visit Ansys Innovation Courses at 🤍
Advanced Tutorials here: 🤍 This is a Part 2. In this video, you will learn the capabilites of the Analyze/Refine stage in Ansys Discovery. We'll cover topics on boundary condition setup, mesh control, and post process results.
Current Systems Inc. uses Ansys Discovery simulation software as a communication tool to answer questions for their customers. Using Discovery’s Live Physics Solver, Current System engineers can leverage simulation to visualize fluid current for lazy river solution designs, enabling their team to identify design hurdles, adapt and make changes; as well as, leverage Ansys Fluent for validation downstream.
In this video lesson we will further explore the importance of solid modeling and learn how to create solid models using Ansys Discovery. Solid modeling is like planning a trip. The best approach to creating a model is to think before jumping into building it. This is what we like to call logical modeling. In this video lesson we will cover what solid modeling is and learn the importance of solid modeling in the design phase of modern products. This lesson is part of the Ansys Innovation Course: Learning Solid Modeling with Ansys Discovery. To access this and all of our free, online courses — featuring additional videos, quizzes and handouts — visit Ansys Innovation Courses at 🤍
ANSYS Discovery 2020 R1 offers significant workflow improvements to the Discovery product suite, greatly simplifying your 3D modeling and simulation workflow. Featuring less hardware requirements together with a new steady-state solver, ANSYS Discovery also enhances topology optimization functionality by combining modal and static studies — producing cutting-edge designs that meet natural frequency and structural requirements.
In this video lesson we will learn the step-by-step process for creating a robotic arm assembly using Discovery. In this video we will look at the base. In this video lesson we will cover what solid modeling is and learn the importance of solid modeling in the design phase of modern products. This lesson is part of the Ansys Innovation Course: Learning Solid Modeling with Ansys Discovery. To access this and all of our free, online courses — featuring additional videos, quizzes and handouts — visit Ansys Innovation Courses at 🤍
Advanced Tutorials here: 🤍 In this video, you will learn various capabilities in setting up a thermal analysis. We'll cover everything from applying heat sources, to material properties, and making design changes.
Ansys Discovery is the first simulation-driven design tool to combine instant physics simulation, proven Ansys high-fidelity simulation and interactive geometry modeling in a single user experience, a CAD + CAE tool. 30-Day Free Trial of Ansys Discovery 3D Design Software: 🤍 Free Tutorials for Ansys Discovery on 3D design and simulation: 🤍 Free Online Ansys Course: A Hands-on Introduction to Engineering Simulations by Cornell University and Ansys 🤍 Need help? Please consider visiting 🤍
Subscribe to Ansys Virtual Academy ►► 🤍 In this session we present on how Ansys Discovery can help design engineers perform simulation-driven design exploration and verification. Learn how to quickly, easily and accurately take the guess-work out of designs by leveraging Ansys simulation technology. We will be covering the following topics in this session: -An overview of Ansys Discovery and how it can help with rapid simulation-led design -Introduction to the Discovery GUI and its highly interactive environment -Demonstrate how you can leverage real-time simulation to quickly explore design variations -Demonstrate how perform design verification using Ansys Mechanical and Fluent solvers under the hood Follow us: Facebook ►► 🤍 Twitter ►► 🤍 LinkedIn ►► 🤍 Blog ►► 🤍 #KETIV #AVA #AnsysDiscovery
For more information contact LEAP Australia: Website : 🤍 Australia : 1300 88 22 40 New Zealand : 09 9777 444 Email: info🤍leapaust.com.au Stay connected to LEAP on: LinkedIn : 🤍 Twitter : 🤍 Facebook : 🤍 Instagram : 🤍
This video shows how to use Ansys Granta Material Data Simulation (MDS) with Ansys Discovery.
ANSYS Discovery Live is the first ever simulation environment that provides real-time answers to engineering challenges. It lets you interactively change geometry, physics inputs, and results displays all while instantly visualizing design performance. Powered by the breakthrough computing capabilities of NVIDIA's GPU technology, Discovery Live will accomplish in minutes what once took hours, days, or even weeks. Learn more at 🤍
In this video we look at how Ansys Discovery can be used for FEA/Structural simulation. We look at how the explore mode can be used for rapid design exploration and also how you can mesh your parts in the refine mode for validation. If you have any questions feel free to comment or contact us at 🤍origin-eng.co.uk
In this video we look at a new feature in Ansys Discovery 2023, the ability to add a Rotating Fluid Zone (Moving reference frame). Quick and easy setup. This can be used to model fans, mixers, electric motor cooling, pumps etc. #cfd #ansys #fluidsimulation For more information - 🤍origin-eng.co.uk
Advanced Tutorials here: 🤍 In this video, you will learn capabilities in applying a topology optimization to a structural analysis study. We'll cover everything from boundary conditions, what is a keepout zone, to coverting your result to an STL.
Rossignol has a team of engineers that work with skiers, designers and others to create new products. With ANSYS Discovery they realized that their engineers could assess changes in real-time and discuss them with the other team members to rapidly explore designs. What was previously a longer and more individual exercise became collaborative not just among engineers, but with every team member benefiting from simulation insight. The engineers could literally capture feedback from the skiers as they came off the slopes and Discovery gave them a joint language to explore product performance. Learn more at ansys.com/discovery
ANSYS Discovery Live is the first ever simulation environment that provides real-time answers to engineering challenges. It lets you interactively change geometry, physics inputs, and results display all while instantly visualizing design performance. Try it now, free of charge! 🤍
In this video lesson, we will explore how Ansys Discovery lets us quickly analyze and compare multiple designs. The analysis of multiple design variations is a fundamental step in the design process. Every real-world scenario has a specific set of constraints which an engineer uses to determine the optimal choice for a specific application. In this case you will analyze how the height of the heat sink fins affects the temperature of the components. This lesson is part of the Ansys Innovation Course: Thermal Management of CPUs Using Ansys. To access this and all of our free, online courses — featuring additional videos, quizzes and handouts — visit Ansys Innovation Courses at 🤍
ANSYS Discovery AIM is an excellent tool for simulating the electromagnetic physics of your products - it provides insights into the magnetic fields, current densities, magnetic forces and torque - so you can easily design your products to operate at peak performance. You’ll find the accuracy of AIM second to none as it’s backed by proven ANSYS solver technology. Using Discovery AIM to predict electromagnetic characteristics is both a quick and easy task thanks to the streamlined user interface, guided workflows, and automated solution accuracy.