MatCalc Engineering GmbH with its theoretical and practical expertise is your reliable partner for research, development and application in the field of materials engineering, process engineering and material computational design. Combination of both experimental investigations in the laboratory, as well as simulation, build our special strength in our services.
MatCalc Engineering service overview is summarized in the following Figure.
Our competitive world offers two possibilities. Either lose on long term. Or win, only if you stay one step ahead. Rising numbers of international competitors enforce companies to optimize their production process routes and offer high-quality products to be able to stay competitive in the global market. The market urgently seeks for higher efficiency of production lines, which cannot be achieved by empirical try and error method anymore but requires the predictive capability of materials modeling and simulation.
Twenty years of intensive development of MatCalc software and near contact with industries provide us with a tool to fulfill the needs of our clients and to help them to stay ahead in their global competitiveness.
MatCalc Engineering GmbH is involved in various projects for our customers in different private sectors such as alloy producers, automotive industries, energy suppliers, medical industries, nuclear industries and semiproduct producers. However, most of our works for commercial customers are confidential.
Our material characterization capabilities show what the real microstructure of the material is, and our modeling tools help to understand why a given microstructure appears and how to influence its further evolution.
Regardless of the type of your project, a concept formulation and evaluation, realization or optimization and / or through process modeling the benefits of our simulation works is obvious. We help plant engineers to analyze and solve practical problems much easier, optimizing each process step in view of the consequence on final product and increases industrial process variability and at the same time material quality. Our results have positive impact on waste management by reducing defects and significantly decreases time and cost for development.