Webinars
Webinars are web-delivered sessions that are normally 1 to 2 hours in length, and attendance is limited to 15 people per seminar. Advance sign-up is required.
Each seminar will address a specific topic, and
may include additional topics requested by the attendees as time
permits. In addition to our listed public webinars that are available to all customers, you can make a request for additional public webinars or request a private webinar tailored to your company's interests.
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Working with forces and moments
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Learn how to use Enventive's force and moment features to their fullest.
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Controlling constraint display
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Learn advanced methods for controlling constraint display to better organize your Enventive models.
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Explore using Enventive's Excel Solver add-in for optimizing your Enventive models.
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Understanding Enventive tolerance analysis reports
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Learn how to get the most out of the information contained in Enventive tolerance analysis reports and how to best address the optimization issues uncovered by running tolerance analysis.
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Learn how to fix errors in your Enventive models.
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Understanding solver warnings
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Gain a better understanding of solver warnings and learn how to recognize singularities in Enventive models.
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Learn how to convert existing Mechanical Advantage models to Enventive models. Enventive has changed and improved upon many of the constraining techniques used in MA. For this reason, MA models that have been imported into Enventive may not retain all constraints that were in the original model. This seminar will show you some techniques to accelerate the conversion process to make importing MA models into Enventive quicker and easier.
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Techniques for modeling parts with symmetry
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Learn the most effective and efficient techniques for using Enventive to simulate symmetry in your models.
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Conditional Contact and Monte Carlo Simulation
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This is a two-part seminar:
- Conditional Contact. This occurs when contact between surfaces may change as a result of tolerance variations. In other words, depending on the size of features A and B, surface C may contact either A, or B. In this seminar we'll teach you how to use logic to model these kinds of situations.
- Use of Crystal Ball* to run Monte Carlo simulations from the Enventive tolerance analysis report. For problems involving: a) conditional contact; b) non-linear models; or c) models in which non-normal statistical distributions are important, Monte Carlo simulation is the preferred method of analysis.
*Crystal Ball is owned by Oracle and is the leading Monte Carlo simulation software in the market.
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Smart Components are components that include equations that compute
properties of the components. This seminar will show how to assemble
Smart Components into assemblies and make use of the equations embedded
in the components. The Excel Solver will be used to optimize the
components.
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This webinar focuses specifically on the techniques used to import and constrain geometry from IGES files.
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