Flexible communication network in the field of industrial production systems integrated in company operations to develop competitiveness in mfg. Methods/design, mfg.Systems/ technology and organisation/human resource development.
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.
The objective is to develop and implement into different industrial environments innovative design procedures and control strategies for precision forging operations where product quality is continuously monitored and controlled.
The objective is to develop a stamping process, using tools similar to those used in series production, capable of manufacturing prototypes of complex sheet metal parts in two weeks.
The aim is to develop a new paint stripping process capable of cleaning several dozen square metres per hour.
The aim is to develop a new process of hydroforming, where selective laser heating facilitates deformations of hybrid parts made of workpieces of different strengths.
Development of know-how for innovative vehicles with high safety and ecocompatibility levels.
The main objective of the project is the development of a new, innovative and cost-competitive material based on a polypropylene matrix reinforced with modified natural fibres, intended for injection moulding process applied to the automotive industry.
Aimtech is a complex, result-oriented project. Subject to success, it will provide an opportunity for plastics processors to reduce manufacturing costs through increased production efficiency.
Development of the technological background to make a step forward in the manufacturing integration approach, including the assembling of metal components in bi-material mouldings.