Learn how Vitesco Technologies implemented Granta MI solution to improve accuracy and save time for the automotive industry. The 'MKB', or Material Knowledge Base, was developed to offer a single source of material information, including experimental data, across the business. This ensures engineers around the business use a consistent, traceable, and accurate source of materials data for design and simulation purposes.
Speaker: Dr. Achim Holzwarth, Team Lead CAE, Webasto Thermo & Comfort SE
Speaker: Daniela Cavallaro, FEA Modeling and Simulation Manager at STMicroelectronics
Speaker: Stanley Baksi, Technical Specialist CAE-NVH, ZF-Braking
Speakers: Clemens Anzboeck, Materials Engineering R&D, Pankl & Cleon Regensburger, Development Engineer Additive Manufacturing, Pankl
Speaker: John Coates - Chief Engineer, Core Technology Engineering, ZF Electronics & ADAS
Speaker: Christoph Schulz, Manager Simulation Filter Elements, Mann+Hummel
Speakers: Michael Schreittmiller, Modules Expert HW, Webasto Roof & Components SE
Speaker: Leonard Mengoni, Development High Voltage Power Units, Porsche Motorsport.
Speakers: Viacheslav (Slava) Izosimov, Functional Safety Manager, Veoneer &
Daniel Jaikumar, Partner and Customer Success Manager, Intland Software
Speakers: Rüdiger Diefenbach, Safety Manager, Mercedes-Benz AG & Jan Mauersberger, Lead Product Manager, Ansys
Speaker: Leonard Mengoni, Development high voltage power units, Porsche Motorsport
Speakers: Gianpiero Cerrone, Laboratory Composite Engineer presso Automobili Lamborghini S.p.A. & David Campbell, Senior Account Manager, Ansys
Speaker: Dr. Benjamin Ahrenholz, Head of CAE Department at Volkswagen Motorsport GmbH
Speaker: Tony A. Asghari - Principal Staff Engineer, Continental Automotive
Speaker: Ferdinando Cannizzo, Head of GT Racing Car Design and Development, Ferrari Competizioni GT
Recent Webinars
This webinar explores the collaboration between IPG Automotive and Ansys, showcasing how it expands the scope of virtual test driving for EV Vehicles. This collaboration provides a precise evaluation of vehicle performance and safety by seamlessly integrating factors for vehicle dynamics, controls, drive scenarios, and environmental variables.
In this webinar series, our presenters will discuss some of the challenges facing automotive manufacturers. Topics include the necessity for higher-performing components and materials and how to meet more rigorous OEM specifications that meet regulatory standards. You'llalsosee demonstrations of a specialized multi-physics workflow that accounts for all physics impacting automotive electronic systems —from electrical to thermal to mechanical stress.
In this webinar series, our presenters discuss how the challenges around sustainability, supply chain uncertainty, pivoting to new powertrains all have an impact on how engineers need to accurately evaluate and compare different materials and optimize decision-making during the earliest stages of design.
In this webinar, we'll demonstrate how several key design challenges commonly seen in electric drive development are resolved with upfront simulation. Design changes can be considered earlier in the development process, reducing the need for re-design at later stages.
Today’s wide range of hands-off driving features share one common trait: They rely on a series of sensors, mounted on the car, to correctly identify a broad spectrum of visual objects and trigger an appropriate response within milliseconds. Radar-based sensors must be rigorously tested and validated before they can be installed. Yet automakers are under extreme pressure to keep costs low and meet aggressive launch deadlines.
The following webinars explain how Ansys simulation solutions are helping automakers address these challenges.
The Electric Machine Development Webinar Series is designed to empower you to achieve performance goals with simulation driven development of electric traction motors, thereby reducing cost and risk of bringing new electrified vehicles to market. Our team of experts will start from a specification of an electric machine for an automotive traction application and throughout this series demonstrate the complete development of an electric machine design using the Ansys platform.