Designers of load-carrying structural parts are faced with ever increasing requirements related to light-weight and structural durability. Ultimately, this translates into getting a low-volume design with the lowest attainable stress levels and removed stress concentrations to assure the required service lifetime. In production environment this can only be achieved by engaging a highly efficient and fully interactive topology optimizer. It will be shown how much ProTOp Professional
Basic knowledge of numerical FEA procedures is expected because topology-optimization-driven design is based on finite element models and numerical analysis.
Marko Kegl devoted most of its 30 years long career to computational mechanics. The focus was mainly on finite element and engineering FEA software development as well as structural optimization. His current work is focused on the development of parallelized and efficient numerical algorithms involved in modern structural topology optimization processes.
Anyone involved in the design of light-weight and durable load-carrying structural parts.