Professor David Curtis
MEng (hons), PhD
Advanced Manufacturing Research Centre
Professor of Subtractive Manufacturing
Full contact details
Advanced Manufacturing Research Centre
Factory of the Future, Advanced Manufacturing Park
Wallis Way, Catcliffe
Rotherham
S60 5TZ
- Profile
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In 2005, David completed a MEng in Mechanical Engineering at the University of Birmingham, UK, which included a Year in Industry placement. Upon completion he remained in Birmingham and studied for a PhD funded by EPSRC, Rolls-Royce and other industrial partners. His research concerned the application of point grinding technology for the production of aeroengine disc features.
David is currently the Professor for Subtractive Manufacturing within the AMRC and is based out of the Machining Group. Since joining in 2009, he has progressed from a Project Engineer through to Technical Fellow in key functions. He has led or played a key role in the development of independent research areas including: Abrasive Machining; Emerging Machining Technology; Machining Science; Aerofoil and Gear Manufacturing Technology. He also leads activity within the AMRC on the machining of Ceramic Matrix Composite (CMC) materials, focusing on translational research which takes Machining Science fundamentals into an industrial context.
David has an extensive applied research portfolio centred around Aeroengine, Aerostructure and Transmission commodities. His work applies current technology for immediate exploitation and works towards developing fundamental capability into exploitable outputs across UK manufacturers. He is also the AMRC Co-Director for the EPSRC CDT in Machining Science (IDC in Machining Science).
- Qualifications
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MEng (hons) in Mechanical Engineering, PhD in Mechanical Engineering
- Research interests
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David’s research interests include: Subtractive Processes (cutting, abrasive, hybrid, physical), Subtractive Technology (materials, near net shape, sustainability, digital, zero defect, machines) and Subtractive Implementation (alignment to industrial needs, maturing manufacturing capability, supply chain resilience, workforce and skills). In an academic perspective, his specific research areas include abrasive processes, micro machining, ceramic matrix composites and the subtractive manufacturing of advanced materials.
- Publications
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Journal articles
- . CIRP Journal of Manufacturing Science and Technology, 55, 210-223.
- . CIRP Journal of Manufacturing Science and Technology, 52, 296-306.
- . Procedia CIRP, 123, 357-362.
- . Procedia CIRP, 123, 221-226.
- . IEEE Transactions on Instrumentation and Measurement, 1-1.
- . IEEE Transactions on Instrumentation and Measurement, 1-1.
- . NDT & E International, 102682-102682.
- . CIRP Journal of Manufacturing Science and Technology, 38, 172-185.
- . Metals, 12(4).
- . Mechanical Systems and Signal Processing, 162, 107964-107964.
- . Procedia CIRP, 108, 7-12.
- . Robotics and Computer-Integrated Manufacturing, 75.
- . Wear, 486-487.
- . Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 235(10), 1531-1532.
- . International Journal of Advanced Manufacturing Technology.
- . Procedia CIRP, 101, 162-165.
- . Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture.
- . Wear, 420-421, 54-67.
- . Journal of Manufacturing Processes, 31, 348-355.
- . CIRP Annals, 58(1), 173-176.
- . CIRP Annals, 56(1), 335-338.
- . Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture.
- . The International Journal of Advanced Manufacturing Technology.
- . Tribology - Materials, Surfaces & Interfaces, 1-14.
- Evolution of electroplated cBN tool surface texture parameters during point grinding. Journal of Manufacturing Science and Engineering.
- . The International Journal of Advanced Manufacturing Technology.
- Applying Experimental Micro-tool wear Measurement techniques to Industrial Environments. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture.
- Increased shielding of a Direct Energy Deposition process to enable deposition of reactive materials; an investigation into deposition of 15-5 PH Stainless Steel, Inconel 718 and Ti-6Al-4V.. CIRP Journal of Manufacturing Science and Technology.
Conference proceedings papers
- Power Skiving Tool Offsets and the Feasibility of Using a Calculator for Manipulating the Resulting Geometry. American Gear Manufacturers Association Fall Technical Meeting 2023, FTM 2023
- Tool Coatings and their Influence on the Length of Steady-State Wear Region for Micro End Mills. Extended Abstracts from the 2019 STLE Tribology Frontiers Conference. Chicago, IL, USA, 21 October 2019 - 23 October 2019.
- . Procedia CIRP, Vol. 82 (pp 214-219). 91Ö±²¥, UK, 13 June 2019 - 14 June 2019.
- . Procedia CIRP, Vol. 77 (pp 642-645), 25 June 2018 - 27 June 2018.
- . Procedia CIRP, Vol. 77 (pp 239-242), 25 June 2018 - 27 June 2018.
- . Procedia CIRP, Vol. 45 (pp 47-50)
- Production of complex mounting slots in turbine disks using novel machining techniques. 3rd CIRP conference on high performance cutting
- Performance of electroplated cbn grinding points machining udimet 720. 10th International Symposium on Advanced Abrasive Technology (ISAAT)
- In-process electro discharge dressing (IEDD) of metal bonded superabrasive grinding wheels. Proceedings of the 15th International Symposium on Electromachining, ISEM 2007 (pp 591-596)
- An investigation into the challenges of the point grinding machining process. Procedia CIRP
Patents
- Component manufacturing using a grinding tool following a trochoidal path. GB2579784B Appl. 08 Jul 2020.
- Grinding cylindrical bores. EP3659746A1 Appl. 03 Jun 2020.
- Manufacturing method. US11267096B2 Appl. 18 Jun 2020.
- Grinding cylindrical bores. US20200156202A1 Appl. 21 May 2020.
- Mold assemblies of the fastening for the method for the workpiece of machining operations and for this workpiece. CN109514747A Appl. 26 Mar 2019.
- Method and an assembly. US20190084104A1 Appl. 21 Mar 2019.
- Grinding cylindrical bores. GB201818823D0 Appl. 02 Jan 2019.
- A method and an assembly. GB201714976D0 Appl. 01 Nov 2017.
- A method of securing a workpiece for a machining operation and a mould assembly for such a workpiece. EP3456465A3 Appl. 01 Jan 1970.
Reports
- Power Skiving – A Step Changing Manufacturing Process Applicable to Multifunctional 5-Axis Machine Tools
Preprints
- Machining Cycle Time Prediction: Data-driven Modelling of Machine Tool
Feedrate Behavior with Neural Networks, arXiv.
- . CIRP Journal of Manufacturing Science and Technology, 55, 210-223.
- Research group
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Machining