Join us online for COMSOL Day West to engage in product demonstrations and get an opportunity to discuss how COMSOL Multiphysics® can be used to address your research problems. Feel free to invite your colleagues.
Please view the schedule below, and register for free today!
Learn the fundamental workflow of COMSOL Multiphysics®. This introductory demonstration will show you all of the key modeling steps, including geometry creation, setting up physics, meshing, solving, and postprocessing.
See how you can deploy the power of high-fidelity simulation to engineers, designers, operators, and scientists throughout your organization.
The effort to manage massive oil import bills while curtailing a growing pollution problem has resulted in the government encouraging electric vehicle adoption. The resulting acceleration in hybrid and electric vehicle development calls for innovation in battery technology and electric motor designs. This session will focus on the role of simulation in the rapid evolution of global mobility to "green" auto technology. The panelists will share their views on designing electric passenger and heavy duty vehicle components, including batteries, motors & transmission, smart electromagnetic suspension systems, and electric all wheel drives (eAWD).
Get an overview of using the Batteries & Fuel Cells Module within the COMSOL® software environment for modeling batteries and fuel cells. Aspects related to the transport of ions and current, porous electrodes, and electrode reactions relevant to both applications will be covered. We will address the simulation of lithium-ion battery power and capacity using realistic vehicle drive cycles, modeling of thermal effects on both cell and pack levels, safety aspects, and modeling of capacity fade. In addition, you will get an introduction to different types of models, from low cost to high fidelity. We will discuss aspects related to parameters and parameterization for models, including the simulation of electrochemical impedance spectroscopy (EIS) data.
Join COMSOL engineers and your colleagues at this Tech Café to discuss modeling structural mechanics using COMSOL Multiphysics®. You can also ask questions about specific applications involving multiphysics phenomena such as acoustic-structure interactions, fluid-structure interactions, thermal stresses, and more.
In this presentation, you will learn about using COMSOL® to model static, transient, and frequency-domain electromagnetic fields that arise around magnets and coils. We will introduce various ways of modeling magnetically permeable materials. We will also show you how different types of electric motors, such as induction motors and permanent magnet motors, can be modeled in COMSOL®. You will see how electromagnetic forces can be coupled with structural mechanics and acoustics to predict noise in electrical components and how cooling requirements can be estimated.
Simulations are heavily used in many application areas in the automotive industry, ranging from cabin acoustics and muffler design to the vibrational analysis of components in an NVH setting. You will learn how you can use acoustics simulations in these various application areas. The focus will be on multiphysics phenomena like acoustic-structure interaction (ASI) and convected acoustics.
Get a brief overview of using the Heat Transfer Module within the COMSOL® software environment. We will discuss conjugate heat transfer with the combination of heat transfer in solids and heat transfer in fluids, including thermal radiation effects. These phenomena could also be coupled with structural mechanics, chemical reactions, and particle tracing.
Learn about the capabilities of the Structural Mechanics Module for analyzing the mechanical behavior of solid structures within the COMSOL® software environment. We will discuss how existing and user-defined geometries, materials, and physics interfaces can be used to answer questions about stress and strain levels, deformation, stiffness, and many more properties. Get an introduction to running various types of analyses, including stationary, eigenfrequency, time-dependent, transient, and linear buckling analyses. We will also discuss the advanced modeling of fatigue, multibody dynamics, and composite materials using the add-on modules.
Join COMSOL Day West - India (Online)
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