One of the biggest challenges in predicting fatigue failure is characterizing the load over the lifetime of a part. Using simulation solutions, like ANSYS Mechanical and ANSYS nCode DesignLife, engineers can run numerous load and design variations to ensure their products meet fatigue specifications and will continue to perform beyond the warranty period. Better yet, they can perform simulations and optimizations before building the product. In this way, engineers can make improvements early in the development cycle and utilize optimization algorithms to further streamline the design process. In this webinar, participants will learn the difference between material fatigue and high- and low-cycle fatigue failure, plus how to account for fatigue in design using simulation.
Say goodbye to complicated user-defined functions (UDF) and hello to expressions. With no deep knowledge of programming, you can easily enter an expression, either directly in the field where it will be applied or as a named expression that can be reused at multiple locations. Attend this webinar to learn how to simplify the specification of complex boundary and cell zone conditions with a wide range of powerful expressions, including: Positional variables Field variables Solution variables Reduction operations
Learn about the new look, features and enhancements that will improve your Ansys Fluent user experience. Start right from the Fluent launcher to choose your starting mode and access recent files and parallel processing for meshing and solving. This webinar will cover the new appearance of the software interface, graphics, display colors and shortcuts; productivity tips within the text user interface; drag and drop features and other behavior changes.
In this webinar, learn more about Ansys SpaceClaim updates that support concept modeling and model prep for simulation, including: block recording and bidirectional CAD interfaces to allow replay of modeling operations on modified CAD geometry; constraint-based sketching that makes it easier to create complex sketches for 3D design; and autoskinning of topology optimization results from Ansys Mechanical for automated geometry reconstruction.
Ansys 2020 R1 empowers Ansys Mechanical users to go further than ever before with enhancements to improve the handling of complex, highly nonlinear and massively large models. Sign up to learn more about the enhancements in Ansys 2020 R1!
Ansys Fluent has been enhanced to organize the process for running simulations with a task-based workflow that guides you through the simulation process, reduces the options to only those that are relevant at each point in the process and provides best practices as defaults. This workflow presents you with the right choices to lead you to an accurate solution, making it possible to develop a better product in less time. Read this white paper to see how the new workflow can be can be utilized to reduce the time and software skill required to mesh watertight CAD geometry.
This webinar will provide insight into how you can optimize your hardware and software deployments for best performance. Hardware selection for engineering simulation software is often a confusing undertaking; performance can significantly vary with workload, which depends on the dataset size and solver utilized. Optimizing detailed hardware configurations that match both expected performance, usability and budget can be a challenge. Watch this recording to hear from Ansys and Intel and: Discover hardware selection guidelines for processors, memory, interconnects and storage systems. Learn how to unleash your performance through usability guidelines on modelling, remote visualization and licensing. Explore alternatives to a hardware implementation and find out how cloud computing can deliver on-demand, high-performance computing (HPC).
Traditional product design teams spend a lot of time coordinating with analysis and physical testing teams, which leads to long design cycles. As industries become more agile, it is necessary to reduce design time by equipping engineers with intelligent design tools to accelerate the process. Learn how Ansys Discovery can help you perform upfront design optimization by leveraging predefined templates for input parameters in real time and generating early insights into product behavior. Its integrated user interface and flexible design workflows help you to spend more time perfecting the design and less time coordinating operations between teams.
The number and variety of materials available today are increasing at a rate faster than at any previous time. The next generation of engineers – the ones we are educating now – will need to use materials of all sorts (conventional as well as advanced) in ways that meet more demanding technical, environmental, economic and aesthetic requirements. Learn how Ansy Granta EduPack provides engineering students with the materials knowledge they need to be successful in today's competitive environment. Granta EduPack is a complete set of resources, with the central software supported by supplementary databases, textbooks, lectures, projects and exercises. By proceeeding through the three levels of Granta EduPack, students gain the knowledge and confidence to select materials for mechanical, thermomechanical and electromechanical designs, and develop an understanding of processes for forming, joining and surface treating the materials. The application of such materials information technology is becoming increasingly important in industry as materials and manufacturing organizations seek to optimize their materials strategies in order, for example, to control costs in global markets, to incorporate eco-design principles in response to market demand and increased environmental regulation, and to limit the use of restricted substances.
Ansys HFSS is a 3D electromagnetic (EM) simulation solution for designing and simulating high-frequency electronic products such as antennas, antenna arrays, RF or microwave components, high-speed interconnects, filters, connectors, IC packages and printed circuit boards. Engineers worldwide use HFSS to design high-frequency, high-speed electronics found in communications systems, radar systems, advanced driver assistance systems (ADAS), satellites, internet-of-things (IoT) products and other high-speed RF and digital devices. Learn how to simulate various RF applications like antenna design, array design, electromagnetic interference, antenna placements, RCS, etc., using Ansys HFSS.
The finite element method (FEM) is an old numerical technique. Initially, it was used to solve differential equations to find stress, but today this method is being used in multiple physics and industries like civil, chemical, automotive, biomechanical, mechatronics, etc. Simulation acts as a catalyst in visualizing and experiencing the performance of products, optimizing their design, upgrading their aesthetical look, increasing efficiency, decreasing the cost and reconfirming many theoretical research results. Learn how Ansys Mechanical is used today to design and analyze the performance of structures in many different industries and academic laboratories.
Learn about Ansys' complete simulation workflow for additive manufacturing (AM), which enables engineers to transfer R&D efforts for metal additive manufacturing into a successful manufacturing operation. Additive manufacturing (3D printing) is a technology that produces three-dimensional parts layer by layer from a variety of materials. It has been rapidly gaining popularity as a manufacturing process in recent years. In the AM process, a digital data file is transmitted to a production machine, which ultimately translates an engineering design into a 3D-printed part.
Computational fluid dynamics helps engineers design products in which the flow of fluid components is a major challenge. Applications include conjugate heat transfer, turbomachinery, fluid-structure interaction, combustion and multiphase simulation, among many others. Learn about the various types of CFD simulations and the advancement of this technology in industrial applications such as oil and gas, aerospace, automotive, electric vehicles, energy generation and HVAC.
Ansys Fluent played a key role in developing nearly every component employed in IIT Bombay Racing’s electric race car.
Ansys empowers users to solve more complex engineering problems faster and more efficiently than ever before. Geometry and meshing are integral parts of any computer aided engineering simulation process. Preparing the right geometry and creating the most appropriate mesh is the foundation of engineering simulation, influencing the accuracy, convergence and speed of simulation. Furthermore, the time it takes to prepare the geometry and mesh a model is often a significant portion of the time it takes to get results from a CAE solution. Therefore, the better and more automated the pre-processing tools, the better and faster the engineering simulation. Featuring key improvements for handling complex, massively large models, Ansys helps engineers to optimize their product design challenges with the introduction of various new pre-processing tools, e.g., Ansys Spaceclaim, Ansys Fluent meshing, Ansys Workbench meshing, ICEM CFD, etc. Discover the different tool sets to design your model for engineering simulation in this webinar. Understand how you can quickly prepare a geometry for CFD/FEA/electromagnetics modeling. Learn how to use different sets of tools to effectively manage your pre-processing requirements more automatically. Receive expert tips for effective geometry preparation and different meshing technologies.
Ansys Maxwell provides low-frequency electromagnetic solutions that help drive the design of biomedical devices. This webinar spotlights Maxwell’s capabilities for modeling human bodies, nerve stimulation with electrodes, implant compliance analysis when exposed to MRI fields, wireless charging, specific absorption rate (SAR) analysis for wearable biomedical devices and more.
This webinar highlights how HFSS 3D Layout environment enables engineers to assemble full systems together in one design. Learn how to assemble complex board, package and connector geometry into one design. Explore automation features that help perform quick and easy model setup. Understand how simulation is enabled by using 3D components in HFSS. Discover how to visualize electric field response of full system circuits. Speaker: Aaron Edwards Aaron Edwards received his BSEE from California Polytechnic State University in Pomona, CA. He joined Ansoft in 2000 as an Application Engineer for the company's suite of signal integrity analysis tools. After the acquisition of Ansoft by Ansys in 2008, Aaron was promoted to Technical Account Manager for the Electronics Business Unit. For that position, he managed the Cross-Regional Electronics Application Engineers who focused on sales and support to the largest SI companies in North America. In 2010, he began managing the Western Region Application Engineering team which works with the leading-edge high-tech companies to enable them to solve the most complex design engineering challenges using Ansys solvers. He is currently the Director of Application Engineering for the Central and East Regions.
Ansys Maxwell is the industry-leading electromagnetic field simulation software for the design and analysis of electric motors, actuators, sensors, transformers and other electromagnetic and electromechanical devices. Learn how Ansys Maxwell, along with Ansys RMxprt and Ansys Simplorer, can be used for 2D and 3D electromagnetic simulations.
