Automating Battery Pack Design
For electric vehicle makers, designing an efficient and robust cooling system for the battery pack is a key engineering task. Seeking to further increase the specific energy of electric vehicle (EV) batteries, while also reducing the overall size and weight of the battery system and maintaining safe operating conditions, GM and ANSYS have worked together to attack several challenges put forth in the EV.
Comprehensive Multiphysics Design for Electric Machines
Achieving an optimal motor design demands a full multiphysics analysis workflow. Making the assumption that the machine will remain in the intended operating range can lead to poor design choices, redesign late in the development cycle or product failure. An efficient method to avoid these pitfalls is complete virtual prototyping for machine design and development.
The Value of High-Performance Computing for Simulation
Software licensing and pricing models can ensure the highest value for engineering simulation workloads while enabling a sustained investment in software development. HPC is one of the key enablers to improve engineering productivity and gain higher-fidelity insight into product performance.
Healthcare Webinar Series:
Discovering and Adopting In Silico Modeling
Ninety-six percent of the top 50 healthcare companies in the world are using engineering simulation and computer-based models routinely. Leading medical device companies are realizing that a large fraction of their engineering force should be using simulation regularly. This webcast series shares the knowledge and experience of ANSYS experts and our partners to guide you in the strategic adoption of engineering simulation.
Conferences
ANSYS Electronics Simulation Expo
The ANSYS Electronics Simulation Expo is an international series of conferences focused on improving electronic system design through sharing of design and simulation best practices. Join us in Japan and Israel in October.
Seminars
Every month ANSYS sponsors a wide range of seminars around the world.
Material Forces for Fracture
Product failure and durability must be studied to determine risk. This could require the use of the novel material force approach in linear-elastic fracture mechanics (LEFM) and elastic-plastic fracture mechanics (EPFM). This post explains how this approach can be applied to this class of problem.