Partial differential equations (PDEs) are often utilized to express space- and time-dependent problems in physics, however, when applied in geometry and for the solving of other related problems, ...

Over the last decade, numerical simulation has become an indispensible tool for designing all kinds of engineered components. Here’s a short technical review of how to use finite-element analysis (FEA ...

The ability to predict, in the design stage, how a product will perform in its operating environment is not only an invaluable aid but, in an increasingly competitive marketplace, an economic ...

Once reserved for the aerospace and automotive industries, Finite Element Analysis (FEA) has become ubiquitous in general industrial applications because of its effectiveness in digitally modeling ...

Finite element modelling is widely used in industry to solve an endless number of practical problems, often involving non-linearity and dynamic loading. This module will teach how to robustly develop ...

One of the oldest uses of High Performance Computing systems is for Finite Element Analysis (FEA). Starting with early mainframes in the 1960’s FEA was a critical technology that was used to design ...

Continuous Composites, which recently secured multi-million-dollar funding from the US Air Force to advance the development of high-performance materials using its CF3D® technology, has also been ...

In 2001, IBM patented a method of using a double bump material structure to make a reliable joint between a chip and its package for bump pitch below 150 µm. 1 This invention improved the existing ...