MATERIALIZE has developed a cloud-based software platform that empowers the digital design and standardization of manufacturing processes for cutting-edge high-performance materials, coupled with product simulations using these advanced materials.

A development path for new materials through a web-based platform has been designed and implemented. A user is able to combine the specific properties of existing materials towards combined, new materials design that is validated through a pool of orchestrated computational mechanics software orchestrated by the established open-source MSolve simulation package, with the interoperability of different material properties databases.

DELTA – MPIS collaborated with RNano & Mgroup (NTUA), NESSOS and NComp to perform relevant tasks for the implementation of MATERIALIZE project, including:

a) the use of more detailed micro-scale modeling techniques,

b) the application of more accurate methodologies for the transfer of stochastic information from lower resolution scales to higher ones,

c) the implementation of HPC (High-Performance Computing) and exascale computing algorithms,

d) the integration of innovative machine learning algorithms

e) providing cloud technology so that HPC installations are not required from the user and

f) efficient feedback between experimental methods and computational tools.

Our company developed applied case study for the adoption of innovative materials designed by MATERIALIZE, specifically focusing on composite materials performance and failure. CFRP fracture in polymeric matrix was studied, while the unknown interface properties – common issue in engineering material science applications – were approached with the aid of MATERIALIZE platform together with the constituent material properties.

Co‐financed by the European Regional Development Fund of the European Union and Greek national funds through the Operational Program Competitiveness, Entrepreneurship and Innovation, under the call RESEARCH – CREATE – INNOVATE 2nd Round (project code:Τ2EDK-03206).

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