The NanoOER project will develop an innovative educational platform, through the development of multimedia materials based on a life cycle analysis (LCA) calculation guide for treatments with nanoparticles in their composition, aimed at educating and training professionals in the construction sector from a holistic approach to environmental health and safety. Nanomaterials are found in construction […]
DELTA-MPIS has received funding from the European Union’s Horizon 2020 research and innovation action programme, via the HUBCAP Open Call #2.2 EXPERIMENT for the development of an innovative Cyber – Physical compressor prototype with theSARMProject.
DELTA-MPIS has received funding from the European Union’s Horizon 2020 research and innovation action programme, via the MIND4MACHINES Open Call for Development of innovative ICT (TRL 5-7) based solutions for manufacturing industry. The cost-efficient design and manufacturing of composite structures made from carbon fibers requiresrobust and accurate processes. The DigVessel project aims at creating a virtual representation offilament winding process […]
DELTA-MPIS has received funding from the European Union’s Horizon 2020 research and innovation action programme, via the 3rd KET SMART4ALL Open Call for Focus Technology Transfer Experiments. SMART4ALL targets Customized Low-Energy Computing for CyberPhysical Systems and the Internet of Things.
Enhanced Thermal conductivity of Polyethylene Production of carbon nanotubes using a novel vertical reactor, to enhance thermal conductivity of polyethylene. The heat transfer mechanism was restricted to the electrically conductive path of carbon nanotubes.
The continuously improving technification, safe production and use of nanometarials in stone sector, rises the need for identification of main risk situations, the founding of guidelines for prevention measures and the training of professionals in stone sector through suitable courses. Website: https://www.nanosafeproject.eu/
Capacitive deionization (CDI) is an emerging technology for the facile removal of charged ionic speciesfrom aqueous solutions, and is currently being widely explored for water desalination applications. Thetechnology is based on ion electrosorption at the surface of a pair of electrically charged electrodes,commonly composed of highly porous carbon materials. NANOPOL project aims at the development […]
Integrated online cloud platform of high performance materials The goal of Materialize project is the development of an online easy platform, which will enable digital synthesis and standardization of innovative materials and products. Aiming the simplification of the complex process of design new materials and products through a smart, user friendly user interface (GUI) where […]