HARCO project at Huddersfield draws to a close
25 June 2013
The three-year HARCO (Hierarchical and Adaptive Smart Components for precision production systems application) project at the University of Huddersfield concludes this summer.
Pictured here among project members is the project co-ordinator for HARCO, Gian Maura Maneia (centre), who worked closely with the University's Professor Alan Myers (centre right) throughout the HARCO project.
Backed to the tune of €3.9 million by the European Commission Seventh Framework Programme (FP7) was co-ordinated by the Italian company Ce.S.I. (Centro Studi Industriali), a long-established designer of high-performance machine tools..
The University of Huddersfield, home to a globally-respected EPSRC Centre for Innovative Manufacturing in Advanced Metrology, was one of ten Europe-wide collaborators in the project.
“HARCO has been a great success and achieved its goals,” said the University of Huddersfield’s Professor Alan Myers. He explained that the University’s team of researchers, based in the EPSRC Centre, had developed equipment that will be used to reduce vibration levels on machine tools and therefore make significant improvements in the accuracy of the products they manufacture. ?
Earlier in 2013, Gian Maura Maneia of Ce.S.I., who is project co-ordinator for HARCO, led a fact-finding visit to the University of Huddersfield by all the member organisations. He explained that the HARCO research was triggered by the need to increase machine tool accuracy and reduce the number of faulty parts that were produced, while keeping costs low.
?This will be done by adding modules to existing machinery or incorporating them into new ones. As a result, European machine tool manufacturers will be able to achieve the same levels of accuracy as the highest quality products on the global market, but do so at up to half the cost.
The HARCO research will result in the production of adaptronic modules incorporating electromechanical, electronic and measuring systems that can perform a wide range of tasks. These include active vibration control and interactive structural measurement. The result will be the extremely high dynamic characteristics and thermal stability required for fast precision machining.
HARCO is being hailed as a success story, said Mr Maneia, who was invited to present the project’s findings at a special European Commission event in Brussels. It was expected that equipment resulting from the project would soon be commercially available.
The University’s role in HARCO had been to develop a structural monitoring module that will detect inaccuracies caused by thermal effects on a machine and apply a correction through numerical control. The result is a very sophisticated monitoring unit, said Mr Maneia, who has worked with the University of Huddersfield experts on previous projects revolving around machine tool accuracy.