The purpose of these webinars is to give a hands-on approach for beginner and advanced users in in FEA and ANSYS Workbench, by using lots of images and step-by-step details to successfully solve.
Design Validation in 22 Minutes
Innovative Designs for Complex MachineryLearn how to prepare for complex machinery engineering challenges: Is your part strong enough? Will it work as you planned? How much vibration can my machine withstand? Learn how to verify the durability of your designs with tools in SOLIDWORKS® such as software/event-driven motion, Boom Analysis and more. |
Simulation API Time-Saving Features RevealedLearn how you can use SOLIDWORKS® Simulation API to automate common tests. The SOLIDWORKS Simulation Application Programming Interface (API) functionality can cut design time from 45 minutes to just 10 minutes by automating an entire process, not just one part, while still doing analysis. The API optimization tool can be used to automate the creation of studies, apply loads and fixtures, select materials, create meshing, run analyses and process results. |
How to Get the Best Possible Design the First TimeLearn how SOLIDWORKS® can help you quickly optimize your design weight while maximizing strength and factor of safety. In this 22-minute webinar, see first-hand how you can leverage SOLIDWORKS Simulation powerful tools to make the most competitive, truly optimized products. |
Stop Relying on Trial and Error - Simulate Your DesignsLearn how to validate the design of an industrial mixer from a fluid flow perspective. During this webinar, we will mimic complex processes such as rotating parts, substance mixing, and open surface condition with SOLIDWORKS® Simulation tools, then compare these results to physical testing. |
Designing a High Tech Device from Concept to ManufacturingLearn about the variety of tools that SOLIDWORKS® offers for developing a High Tech product. We will walk through some of the biggest design challenges and demonstrate best in class techniques to get your High Tech product designed, tested, assembled and off to market. |
Test the Kinematic and Dynamic Behavior of Your AssembliesSOLIDWORKS is known for mechanical CAD, but its simulation toolsets are also capable of validating complex event-based actions for assemblies. SOLIDWORKS Simulation can help bridge the gap between Mechanical and Controls engineers at your company. Learn how to verify the kinematic and dynamic behavior of moving parts in your assemblies using SOLIDWORKS® Simulation tools. |
Validate Drone Before it Takes Flight with SOLIDWORKSLearn how to validate designs in SOLIDWORKS before you manufacture your first part. We will walk through designing and simulating a drone concept using SOLIDWORKS® Simulation tools. |
Consumer Product DesignLearn how to quickly design concepts using advanced surfacing tools then evolve them into manufacturable products. |
The Goldilocks Design PrincipleLearn quick ways to validate your design and make tough decisions easy so that products are manufactured “just right”. |
The Value of Virtual Simulation vs. Traditional MethodsLearn why best-in-class companies are turning to virtual simulation over hand calculations and physical prototyping. |
Hidden Gems in SOLIDWORKS SimulationWatch this on-demand webinar to learn about Hidden Gems in SOLIDWORKS Simulation. |
Easily Simulate Multiphysics ProblemsHave you ever wondered why your computer shuts down unexpectedly? It could be related to two different errors (hear ant stress). Learn how you can simulate and validate designs for multiple physics problems easily with SOLIDWORKS Simulation. |
Designing for Manufacturing, Fit for PurposeLearn to work smarter, not harder, and how to best to determine if your design can be manufactured, and is fit for purpose. |
Predict Product Performance EarlierDiscover the powerful tools in SOLIDWORKS Simulation 2014 to test the performance of your design before you build it and accelerate product development. |
The Essentials of Design ValidationLearn the basics of Design Validation and how you could apply these methods to your design process, helping you develop better products faster and more cost effectively. |
Maximize Product Life with SOLIDWORKS SimulationFor mechanical engineers, fatigue is an inescapable fact of life, which is a common cause of failure for components. Once you understand the impact of fatigue on your design, you can optimize material and manufacturing processes for maximum fatigue life, set service intervals to ensure extended product life, and reduce the lifetime cost of the product while ensuring on time delivery. |
The Essentials of Flow SimulationSOLIDWORKS Flow Simulation takes the complexity out of computational fluid dynamics (CFD). In this short webinar learn how you can quickly simulate fluid flow and heat transfer under real world conditions, and see how straight forward it is for designers and engineers to interrogate the results to determine fluid forces, temperature, and other parameters that are critical to the success of your design. |
ROI of CFD with SOLIDWORKS Flow SimulationBusiness pressures force companies to revisit their current Product Development process and optimize it so they can decrease time to market while delivering the highest quality product. A ‘get it right the first time’ product development strategy is key to achieving this. During this webcast, you will learn how concurrent CFD helps best-in-class companies design better products and answer business pressures. |
Solving Part and Mold Manufacturing Design issues with SOLIDWORKS PlasticsWatch this in-depth technical webinar to learn expert tips on how you can use SOLIDWORKS Plastics to get rapid feedback on how modifications to wall thickness, gate locations, materials, or geometry will affect the manufacturing of your parts. You will also learn how to quickly optimize multi-cavity and family mold layouts and feed systems—including sprues, runners, and gates. |
Choosing the Best Plastics for Your ApplicationLearn how to optimize your plastics part designs, eliminate costly mold rework, improve part quality, and decrease time to market. |
Create Better Plastic PartsAvoiding the pitfalls of choosing the wrong material for your plastics products. Determine the best plastics materials for your specific application based on: physical strength, chemical resistance, impact strength, surface appearance, recyclability and cost of materials. |
Injection Mold Design Best PracticesLearn the best practices for designing plastics injection molds to minimize or eliminate mold rework, improve part quality and reduce manufacturing waste using SOLIDWORKS Plastics. |