Date/Time: September 25, 12:00 pm Central
In Structural Design and Analysis, there’s an increasing need for designing, maintaining, and extending the lifespan of complex, sustainable infrastructure to address the growing number of extreme natural events and safety threats. Engineers are utilizing advanced analysis methods to move beyond prescriptive design codes and assess the actual performance of structures under various extreme conditions, quickly and efficiently. The benefit will be sustainable infrastructure with longer life spans and complex framing systems.
In this webinar, we will showcase time-history dynamic analysis with a nonlinear material model to a reinforced concrete structure subjected to earthquake loads using ADINA finite element software. Now integrated within Bentley System’s Structural product portfolio, ADINA enhances Bentley’s existing advanced analysis capabilities for structural projects.
There are no continuing education credits offered for this presentation.
Presented by: Seth Guthrie, SE, PE, Director of Product Management for the Structural Analysis products, and Juan Trueba, PSE, Senior Application Engineer for ADINA
Seth is the Director of Product Management for the Structural Analysis products at Bentley Systems. This includes the RAM, STAAD, and most recently ADINA products. He serves as a committee member for the AISC Seismic Design Manual.
Juan Trueba is a Senior Engineer with 17 years of experience in structural design and advanced analysis of structures across sectors, predominantly Transportation Infrastructure and Energy. His experience includes using advanced finite element analysis for nonlinear static and dynamic analysis, including but not limited to bridges, buildings, dams, cryogenic tanks, electrical substations and tunnels. He is currently the Application Engineer for ADINA.
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