Friction stir welding (fsw) will be applied to a range of materials/be researched to achieve high welding speeds in increased joint thickness. Processes will be industrialised for real components and applied in commercial production.
This broker system is a computer tool based on internet data interchange supporting the transportation (logistic) activities of small and medium-sized distribution, production, transportation and logistic companies.
Study to develop/commercially validate an inter-modal system for trans-european freight transfer between nordic region and s.E. Europe whose central building block will be a "blue shuttle train" connecting two inter-modal centres.
Development of environment friendly diverse cargo ship types, ecological construction processess, technological and business risk management models and cost effective polish/ swedish infrastructure.
The project combines the know-how in paper and pulp technology of icp with the technical and market know-how of harald bjoerkgren ab and its network. The result is the commercial use of recycled paper instead of other non-renewable resources.
Pulsed laser deposition (pld) is a well-established laboratory coating technology. Up to now pld has not become a standard industrial coating technique. The aim of this project is to optimise the suitability of pld for industrial applications.
Development of manufacturing technology for a new generation of tools coated by chemical vapour deposition system to increase their service life and strength.
Conception of combustion locomotive modernisation taking into account life cycle cost (lcc). A prototype will be built with full official certification & exploitation research, and the logistic chain of transit carriages will be redesigned.
Cost effective lifetime enhancement of forming tools will be achieved through the application of advanced materials and processing technologies, the design of dies and inserts, and the optimisation of forming technologies.
New bioactive nanostructured composite implant materials will be developed for human bone substitutes. Development is based on the plasma processing of ceramic nanopowders and chemical technology for the production of nanosized hydroxyapatite powders.