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Projects: Projects for Investigator
Reference Number EP/K029010/1
Title High Deposition Rate Additive Manufacture of Complex Metal Parts (HiDepAM)
Status Completed
Energy Categories Not Energy Related 50%;
Energy Efficiency(Industry) 50%;
Research Types Basic and strategic applied research 100%
Science and Technology Fields PHYSICAL SCIENCES AND MATHEMATICS (Metallurgy and Materials) 50%;
ENGINEERING AND TECHNOLOGY (Mechanical, Aeronautical and Manufacturing Engineering) 50%;
UKERC Cross Cutting Characterisation Not Cross-cutting 100%
Principal Investigator Professor SW Williams
No email address given
School of Applied Sciences
Cranfield University
Award Type Standard
Funding Source EPSRC
Start Date 06 January 2014
End Date 05 January 2017
Duration 36 months
Total Grant Value £488,909
Industrial Sectors Manufacturing
Region East of England
Programme Manufacturing : Manufacturing
 
Investigators Principal Investigator Professor SW Williams , School of Applied Sciences, Cranfield University (99.998%)
  Other Investigator Dr S Ganguly , School of Applied Sciences, Cranfield University (0.001%)
Dr SD Sharples , Electrical and Electronic Engineering, University of Nottingham (0.001%)
  Industrial Collaborator Project Contact , BAE Systems Integrated System Technologies Limited (0.000%)
Web Site
Objectives
Abstract Additive manufacturing (AM) is a process of building a component layer by layer. In a simplified manner, it can be described as 3D printing of a component. The technology is important because it is logistically and conceptually extremely simple with major benefits. For example it would lead to significantly reduced material and energy use and manufacture of structures such as aircraft. Lowering of material wastage is an important issue as presently the aerospace sector machines out complex shapes from regular shaped structures. This causes significant wastage and a very high buy to fly ratio, i.e. A large amount of material needs to be purchased compared to that which goes on the aircraft. AM is able to create complex component architectures which would supplement the advancement in soft design technology. Therefore, it is no wonder that AM technique has been identified as one of the transformational technology for the future manufacturing sector.This project is tackling two major barriers to implementation of AM technology for applications such as making aircraft. These are the very high cost of the process and the properties of the material that is being deposited. In the present programme the multi-disciplinary team seeks to investigate the development of AM processes that are overcome the barriers. This includes a new AM process based around the use of the laser combined ways a new method of adding material. We are also developing a new process to go with the AM process which transforms the properties of the material so that it is similar to the material currently used on aircraft. This new process uses techniques like rolling to introduce cold work into the metal; this changes the structure of the material at the microscopic level. Finally manufacturing of complex shapes, out of position (not vertical down) and multi-axes deposition and integrated machining will be evaluated for production of near net shape from a single process. The research programme would also study the feasibility of developing an innovative and non-destructive way of online process control of microstructure by Spatially Resolved Acoustic Spectroscopy (SRAS) technique. The consortium is carefully formed with complimentary knowledge base between the partners so that a significant progression can be made within the project span. This cross continental activity will help in leveraging the tacit knowledge base through regular visits; web based discussions and investigator exchange programme. The project is expected to solve the major issues identified in AM Technology, leading to its early application in industry.
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Added to Database 17/03/14