You are invited to join us at the COMSOL Day Zürich to learn more about multiphysics modeling and how it can be used for research, teaching or product design. Join us for a day of minicourses, talks by invited speakers from industry and the opportunity to exchange ideas with other simulation specialists in the COMSOL community.
View the schedule for minicourse topics and register for COMSOL Day Zürich to enhance your skills and knowledge!
There will also be demo stations during the entire day, where COMSOL experts will be available to discuss your applications. You will leave with new knowledge, inspiration and a free trial version to experiment with your own simulations in COMSOL Multiphysics®.
Pricing & Payment Methods
The registration fee for this COMSOL Day event is CHF 50.00 per person. You will receive an invoice after registering for the event. The fee includes admission to all minicourses, coffee breaks, networking lunch and support sessions.
This introductory demonstration will show you the fundamental workflow of the COMSOL Multiphysics® modeling environment.
In this minicourse, we will cover all of the key modeling steps, including geometry creation, setting up the physics, meshing, solving, and postprocessing.
Build a sound foundation for your modeling work. This demonstration will illustrate best practices for the entire workflow in COMSOL Multiphysics® through geometry creation, setting up your physics, meshing, solving, and postprocessing the results.
The fluid modeling capabilities within the COMSOL Multiphysics® product suite range from laminar to turbulent to high Mach number flows. Learn how to combine fluid flow with other physics to model nonisothermal flows, chemical reactions, and fluid-structure interactions.
Get a brief overview of using the Structural Mechanics Module and its add-on modules within the COMSOL® software environment.
Get a brief overview of the electromagnetic modeling tools of COMSOL Multiphysics® with a focus on the AC/DC Module, RF Module, Wave Optics Module, and Ray Optics Module.
Learn how to use the Application Builder and the Method Editor to automate your model building, including setting up the geometry, material properties, loads and boundary conditions; meshing; solving; and extracting data.
In all areas, the materials used tend to become "intelligent", making it possible to obtain more efficient products. Shape memory alloys, composites, metamaterials, and piezomaterials are just a few examples. We will see how to implement these materials in COMSOL Multiphysics® models.
Get a brief overview of using the Heat Transfer Module within the COMSOL® software environment.
Learn the fundamental numerical techniques and underlying algorithms related to linear and nonlinear multiphysics simulations. We will cover the difference between iterative and direct solvers as well as how to take advantage of automatic solver suggestions in COMSOL Multiphysics®.
This minicourse will explore the tools for presenting COMSOL Multiphysics® results, including mirroring, revolving symmetric data, cut planes, cut lines, exporting data, joining or comparing multiple datasets, as well as animations.