Finite Element Analysis (FEA) is a method used to forecast how a solid component reacts to real world forces.

FEA uses numerical analysis to solve equations that govern solid mechanics. These analyses are performed by high performance workstations and provide an insight into how the solid reacts in a particular scenario. By defining proper boundary conditions, FEA is able to provide accurate simulation models of how the solid will behave in real life during the physical world applications. FEA is applied to a wide range of research and engineering challenges in a variety of industries and field of study, including construction, industrial, aerospace, civil, automotive, biomechanics and etc. 

By incorporating FEA in product design and development cycle, we are able to achieve significant advantages over conventional methods.
     1. Reduction in development cost by reducing physical experiments and testing
     2. Assess critical parameters of different design variations with speed
     3. Spot design flaws during initial stage

At MyCAE, we are equipped with best-in-class workstations that are built for high performance FEA simulation. With over 25 years of industrial experiences, we have the expertise, computing hardware as well as industry leading simulation software to handle a variety of FEA problems.