Aims at developing cost-effective creep-resistant magnesium alloys with improved ductility and energy absorption properties for automotive and craft industries and suitable for permanent mould casting technology.
To develop a single mode, 1 mjoule fibre laser that features excellent beam quality and is highly resistant to photodarkening - the main factor limiting long fibre laser lifetimes.
The focus will be on studying various technological aspects for construction of self-supporting light structures of multifunctional interior roof components for the transport industry and developing new types of complex 3d-structures.
Pro-factory is a european network that aims to bring forward and coordinate applications-oriented, bottom-up, collaborative r&d projects in production and robotics for greater competitiveness and sustainability.
To obtain knowledge on 'coextrudable psa (pressure sensitive adhesives)' (co-ex psa) technology for high-quality, self-adhesive laminates and to develop a prototype for a first application.
The project will design, test and redesign a foldable trailer for private cars. As part of the design, the possibility of automated assembly should be considered. Lightweight material should be considered as well.
To develop an electric driven post cart based on new technology to handle the last post mile in an ergonomic way with zero emissions. The goal for the project is to have a post cart ready for the market.
To develop an innovative business model for packaging functions of sheet metal industry. The business model will be based on leasing or selling packaging material with an innovative device for applying the packaging material.
Through fiber tailoring and laser design we aim to break the existing state-of-the-art in pulsed high energy high peak power fiber lasers with diffraction limited beam quality.
Prove commercial scale economics & viability of new beneficiation approach for the production of high grade calcium silicate from a world class resource located in kingston, ontario.