Ashish Kumar Singh | November 4, 2014
In addition to the general Solid Mechanics interface, the Structural Mechanics Module consists of specialized interfaces: Shell, Plate, and Membrane for the modeling of thin structures; and Beam and Truss for modeling slender structures. An engineering structure that has a mix of solid, thin, and slender components can be modeled by combining these physics interfaces with each other. Here, we will explore the options for coupling the structural mechanics interfaces by using examples from the Model Library.
Niklas Rom | November 3, 2014
Probably the most common reactor in the chemical industry is the packed bed reactor. This reactor is used in chemical synthesis and for effluent treatment and catalytic combustion. Oftentimes, heterogeneous catalysis requires packed beds. A common design is a cylindrical column filled with catalyst pellets. The pellets can be contained within supporting structures, like tubes or channels, or packed in a single compartment in the column. The latter is called dumped packing.
Fanny Littmarck | October 30, 2014
Bridget Cunningham | October 28, 2014
Walter Frei | October 24, 2014
One of the most common questions we get is: How large of a model can you solve in COMSOL Multiphysics? It turns out that this is quite tricky to answer decisively, so in this blog entry, we will talk about memory requirements, model size, and how you can predict the amount of memory you will need for solving large 3D finite element problems.
Annette Meiners | October 22, 2014
When modeling plasmas, various options exist for choosing an ion temperature. Your choice, however, may strongly influence your model’s results. Let’s discuss the theoretical reason behind this phenomenon and study an example involving an inductively coupled plasma (ICP) to illustrate the influence the different ion temperature options have on your model’s results.
Fanny Littmarck | October 31, 2014
It’s here. We have now released the latest version of COMSOL Multiphysics® simulation software — version 5.0 — and it’s revolutionary. Why? You will now be able to turn your COMSOL Multiphysics models into apps and share them with your colleagues and customers. We are also releasing three new add-on products and numerous updates to existing products. Here’s a quick run-down of the release news.
Lexi Carver | October 29, 2014
Last month, my colleague Ruud described some of the most effective ways to use arrow plots in your COMSOL Multiphysics simulation results. In this next installment of the postprocessing series, I’ll continue with slice plots, which are an easy way to visualize physics behavior on many different parts of your model.
Bridget Cunningham | October 27, 2014
Lauren Sansone | October 23, 2014
The 10th annual COMSOL Conference Boston recently wrapped — and it was a huge success. The event brought together 300 engineers, researchers, and scientists from around the globe to hear the latest advancements in multiphysics simulation, including the much anticipated upcoming release of COMSOL Multiphysics 5.0.