RAS Nodes

The award-winning Manufacturing Engineering Centre (MEC) forms part of Cardiff University, which dates back to 1883 and is one of Britain's major civic universities. The 80-strong ISO 9001:2000 accredited Centre has an international reputation for its leading-edge research in advanced manufacturing and information technology spanning a broad spectrum of subjects.

The CEA (Atomic Energy Commission) is a French Governmental Research Organisation (1500 employees) devoted to both fundamental and industrial R&D. The CEA-Grenoble research center is operated by the DRT (Technological Research Direction) in the fields of technologies for information, communication and of technologies for new energies. The two main laboratories (LETI and LITEN) involved in 4M are developing polymers micro systems for various fields of applications (biotechnology, micro fluidics, micro fuel cells, photonics and micro heat exchanger).These two laboratories are one of the largest European R&D operators in the micro & nanotechnologies, nano-materials and electronics. It mainly aims at helping companies to increase their competitiveness through technological innovation and transfer of its technical know-how to industry. CEA/DRT has also an active policy of start-up creation. More than 20 permanent people are working on the following topics relevant to 4M:
•UV LIGA micromolding fabrication process: thick photoresist photolithography, mould fabrication, hot embossing
•Prototyping of polymers microcomponents: direct fabrication with thick photoresist, polymer Deep Etching, casting
•Assembling and packaging of polymer Microsystems.
•Manufacturing technologies of energy microsources.
•Active Surface treatment (Hydrophobic, Hydrophilic,…)
•Characterization of polymer properties (Strain, viscosity, Surface roughness,…)

The activity at Cranfield University will involve the integration of activities in two areas: Nanotechnology and Precision Engineering. The Nanotechnology Group at Cranfield University, specialises in fusing micro-engineering and nanotechnology with the industrial application and development of functional materials (especially ferroelectric) to produce novel devices.

All kinds of Assembly and Packaging Technologies and Equipment suitable for the microsystem implementation

The Institute for Microsystem Technology (IMTEK), founded in 1995, is one of the largest academic institutions in this field. As it was created completely from scratch as part of the new-founded Faculty of Applied Sciences we share a new campus with modern teaching and training facilities together with the Institute of Computer Science. The foundation of a new technical faculty provided the chance not only to use new facilities but also to create a novel engineering course which differs significantly from traditional engineering disciplines. So the basis for the specification of the course has been the questions for the indispensable skills of a ‘universal’ engineer of the 21st century. The curriculum was inaugurated in October 1996 when the first classes started in the course microsystem technology. The first graduations have been in spring 2001. Between 1998 and 2001 about 90 freshmen started studying Microsystem Technology every year. The curriculum has been modified several times since 1996 in order to comply more and more with our initial goals.