News: UK - Delcam to lead £1 million remanufacturing project
Delcam has been chosen to manage a £1 million project called RECLAIM to develop improved methods for the remanufacturing of high-value engineering components.
Wednesday, 1st April 2009
The integrated remanufacturing system under development will give the UK a vital technological advantage over other countries. The RECLAIM project is being undertaken by a consortium of eight organisations that, in addition to Delcam, includes Renishaw, Electrox, TWI, Precision Engineering Technologies, Cummins Turbo Technologies, Airfoils Technology International and De Montfort University. The main aim of the project, which is receiving an investment of over £1?2 million from the government-funded Technology Strategy Board, is to develop an integrated production system incorporating all of the processes required for cost effective, rapid and reliable remanufacturing. Currently, most remanufacturing involves a series of operations on different pieces of equipment, which might even be in different companies. Furthermore, each process is labour intensive and dependent upon the skill of the operator. This makes the overall process inefficient, expensive and difficult to manage. The new system, which is being developed during the project, combines laser cladding, machining and in-process scanning in a single machining cell. While the main focus will be on the repair of damaged parts, it is planned that the new equipment could also be used to manufacture new metal parts, to upgrade obsolete parts and to reconfigure standard parts for specialist, low-volume applications. The RECLAIM system will be the first in the world to combine laser cladding, CNC machining and in-process inspection in a single machine. This will provide a revolutionary, single-stage solution to remanufacturing. To achieve this goal, a number of important new developments will be required: - Although laser cladding, high-speed five-axis machining and contact scanning are well established as individual processes, they are not yet available in a combined manufacturing unit. Currently, three individual machines are needed, each requiring significant capital investment and shop floor space. Moreover, the work pieces must be setup manually on each machine at each processing stage. This is labour intensive, can lead to errors in part set up and generates significant levels of work in progress. Similarly, each process has its own particular control software which has to be programmed individually. This adds additional cost and complexity to the remanufacturing process, and requires extensive training so that operators can master the different software packages. Delcam's main contribution to the project will be the development of a single piece of software to control the entire process from start to finish.
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