OPTIMALS – Optimal design and production of lightweight and high-performance aluminium-steel structural components
The main goal of the OPTIMALS project is to enable multi-material solutions for high-performance aluminium-steel structural components with a total reduction of weight and manufacturing cost.
4REFINERY - Scenarios for integration of bio-liquids in existing REFINERY processes
4REFINERY will develop and demonstrate the production of next generation biofuels from more efficient primary liquefaction routes integrated with upgraded downstream (hydro)refining processes to achieve overall carbon yields of >45%. The consortium will aim for successful deployment into existing refineries, including delivering a comprehensive toolbox for interfacing with existing refinery models.
The main goal of KOPROD is to demonstrate methods and technology solutions for future competitive production of complex, small and medium volume products for cost-sensitive markets. The project is financed by the Norwegian Research Council's BIA-program.
OXIPATH – Oxides for Piezoelectrics, Batteries and Thermoelectrics
OXIPATH is a strategic effort initiated by SINTEF Materials and Chemistry with the aim to address key technological issues related to oxide materials applied in three fast growing technology areas: piezoelectric devices, batteries and thermoelectric devices.
MICROFIBRE: Evaluating the fate, effects and mitigation measures for microplastic fibre pollution in aquatic environments
To understand the environmental behaviour and impacts of microplastic fibres (MPFs) in order to develop a decision support framework that enables garment manufacturers to make environmentally informed choices in their material selection.
SCALE – Production of Scandium compounds and Scandium Aluminum alloys from European metallurgical by- products
Scandium (Sc) is one of the highest valued elements in the periodic table and an element which is usually grouped in REEs as it shares many characteristics with Yttrium. The SCALE project sets about to develop and secure a European Sc supply chain through the development of technological innovations, which will allow the extraction of Sc from European industrial residues. This will be achieved through the development of a number of innovative extraction, separation, refining and alloying technologies that will be validated in an appropriate laboratory and bench scale environment to prove their technical and economic feasibility.
SiC4LED – Novel fluorescent silicon carbide growth approach for white LEDs
The main objective of the project aims to grow a new type of compound semiconductor crystal, fluorescent silicon carbide (f-SiC), by applying the liquid solution phase epitaxial (LPE) technology, and to preliminarily examine the feasibility of fabricating the monolithic white light-emitting diodes (LEDs). It is expected to save up to 20% of energy consumption for SiC growth.
PLATIRUS – Platinum Group Metals Recovery Using Secondary Raw Materials
The PLATIRUS project aims at reducing the European deficit of Platinum Group Metals (PGMs), by upscaling to industrial relevant levels a novel cost-efficient and miniaturised PGMs recovery and raw material production process. The Platinum Group Metals comprise 6 chemically very similar elements: ruthenium (Ru), rhodium (Rh), palladium (Pd), iridium (Ir), osmium (Os) and platinum (Pt). PGMs are among the least abundant of the Earth's elements and are classified by the EC as critical raw materials (CRMs). Pt is the most commercially important of all the PGMs, having the largest range of applications from jewellery to automotive to electronics.
HINDCON is an EU-funded project, studying 3D-printing of concrete in the construction sector. SINTEF’s role in the project is to research how the new 3D-printing construction will affect the construction process, in terms of lean manufacturing but also how the new processes affect the construction workers.