Professor Hassan Ghadbeigi
BSc(hons), MSc(hons), PhD, FHEA, CEng MIMechE
School of Mechanical, Aerospace and Civil Engineering
Chair of Structural Integrity in Manufacturing
Study Abroad Tutor
+44 114 22 27748
Full contact details
School of Mechanical, Aerospace and Civil Engineering
D214, Central Wing
Sir Frederick Mappin Building
Mappin Street
91Ö±²¥
S1 3JD
- Profile
-
Professor Ghadbeigi obtained his BSc in Manufacturing Engineering and MSc in Mechanical Engineering in Iran, Sharif University of Tech, before joining 91Ö±²¥ in 2006 where he obtained his PhD in Mechanical Engineering and then became a member of academic staff in 2013.
While working on his PhD project, he was also a member of IMMPETUS as Research Assistant (2006-2010) and was involved in projects on modelling and characterisation of material deformation during thermo-mechanical processing.Prof Ghadbeigi's research interest covers experimental investigation of materials deformation and failure mechanisms during thermo-mechanical loads and manufacturing processes, using experimental methods such as full field deformation characterisation and bespoke experimental design, as well as developing predictive analytical and numerical tools to simulate functional performance of materials and components.
His main research interest covers the effect of manufacturing processes on structural integrity and functional performance of components. His research was supported by collaboratives across the automotive, aerospace and energy sectors as well as cutting tool manufacturers, leading to two awarded patents.Research interests:- Mechanics of material deformation in manufacturing processes
- Materials deformation and failure analysis, using full field methods
- Manufacturing processes induced structural integrity in metals and composites
- Development of predictive tools, numerical, analytical and data driven, for prediction of materials performance during processing and service life
- Machining and shear cutting systems' performance assessment, including forming and cutting tools
- Research interests
-
Dr Ghadbeigi’s research interests cover a wide range of multidisciplinary topics on mechanics of materials deformation and damage in manufacturing processes such as machining and forming as well as manufacturing induced effects on the structural integrity and functional performance of produced parts.
Mechanics of machining and structural integrity are of his main research themes where Dr Ghadbeigi and his team develop experimental methods and numerical and analytical tools to predict chip formation in engineering materials and associated surface integrity based on the physics of deformation and failure.
Hassan has pioneered application of a range of experimental techniques, such as Digital Image correlation and microgrid techniques, to characterise local deformation and failure mechanisms in materials.
He has been involved in several project linked to manufacturing and machining science in collaboration Advanced Manufacturing Research Centre at the University of 91Ö±²¥.
The developed methodologies are already implemented for production of aerospace and automotive components and materials; however, these could be applicable wherein materials experience any mode of deformation as part of their processing history.
Current research activities
- Damage and fracture of spot welds in automotive steels
- Local damage and deformation analysis of multiphase high strength automotive steels (Dual phase, TRIP and Complex phase)
- Modelling of blanking induced defects on magnetic performance of electrical steels
- Finite element modelling of drilling in metallic materials
- Distortion analysis and control in hybrid manufacturing
- Microstructural sensitive model for deformation of Ti-6Al-4V alloys
- Machining Induced White Layers: Quantitative Characterization, Non-destructive detection and Finite Element simulation
- Modelling and characterisation of mechanics of deformation during chip formation
- Publications
-
Journal articles
- . Journal of Manufacturing Processes, 127, 251-258.
- . Journal of Magnetism and Magnetic Materials, 172400-172400.
- . CIRP Journal of Manufacturing Science and Technology, 51, 161-189.
- . CIRP Annals.
- . CIRP Journal of Manufacturing Science and Technology, 50, 40-54.
- . Procedia CIRP, 123, 221-226.
- . Additive Manufacturing Letters, 8.
- . Journal of Magnetism and Magnetic Materials, 171081-171081.
- . Procedia CIRP, 117, 62-67.
- . Wear, 498-499.
- . Composites Part A: Applied Science and Manufacturing, 154.
- . Procedia CIRP, 103, 176-181.
- . Advanced Composites Letters, 29.
- . Procedia CIRP, 85, 277-283.
- . Materials Science and Engineering: A, 764.
- . Mechanics Research Communications.
- . Frontiers in Materials, 6.
- . Procedia CIRP, 82, 37-42.
- . Journal of Materials Processing Technology, 268, 181-191.
- . The International Journal of Advanced Manufacturing Technology.
- . Composites Part A: Applied Science and Manufacturing.
- . Procedia CIRP, 82, 59-64.
- . Procedia CIRP, 82, 142-147.
- . Materials and Design, 160, 350-362.
- . CIRP Journal of Manufacturing Science and Technology.
- . Journal of Materials Engineering and Performance, 27(8), 4059-4068.
- . Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 49(7), 2893-2906.
- . The International Journal of Advanced Manufacturing Technology.
- . Fuel, 214, 528-537.
- . Materials Science and Engineering: A, 712, 175-187.
- . Journal of Manufacturing Processes, 31, 348-355.
- . Journal of Materials Processing Technology, 249, 302-312.
- . International Journal of Advanced Manufacturing Technology.
- . Procedia CIRP, 58, 233-238.
- . Materials Science and Engineering: A, 695, 211-220.
- . Journal of Composite Materials, 51(3), 289-302.
- . Fuel, 186, 534-543.
- . Materials Science and Engineering A, 676, 324-335.
- . Procedia CIRP, 45, 71-74.
- . Modelling and Simulation in Materials Science and Engineering, 23(8).
- . Materials Science and Engineering A, 588, 420-431.
- . Wear, 305(1-2), 177-191.
- Multi-scale modelling of stress and strain partitioning in high strength dual phase steel. Computer Methods in Materials Science, 12, 163-174.
- . Experimental Mechanics.
- . MAT SCI ENG A-STRUCT, 527(18-19), 5026-5032.
- . Applied Mechanics and Materials, 24-25, 201-206.
- On the temperature and residual stress field during grinding. WCE 2010 - World Congress on Engineering 2010, 2, 1196-1200.
- . INT J MACH TOOL MANU, 48(2), 228-235.
- . Journal of Materials Processing Technology, 174(1-3), 318-324.
- . Metallurgical and Materials Transactions A.
- Evolution of electroplated cBN tool surface texture parameters during point grinding. Journal of Manufacturing Science and Engineering.
- Influence of powder-bed temperature on the microstructure and mechanical properties of Ti-6Al-4V produced by selective laser melting.
- . Production engineering.
- 3D Finite Element Modelling of Drilling: The Effect of Modelling Method. CIRP Journal of Manufacturing Science and Technology.
- Effects of coefficient of friction coupled with a deformation dependent friction model in cutting simulations. Procedia CIRP.
- On deformation characterisation of machined surfaces and machining-induced white layers in a milled titanium alloy. Journal of Materials Processing Technology.
- Microstructure development and mechanical performance of Al2CrFeMnTi light-weight high entropy alloy. Intermetallics.
Chapters
- , Conference Proceedings of the Society for Experimental Mechanics Series (pp. 101-110). Springer Nature Switzerland
- , Progress in Engineering Technology III (pp. 113-123).
- , Progress in Engineering Technology III (pp. 285-295).
Conference proceedings papers
- . Procedia CIRP, Vol. 108 (pp 123-128). Lyon, France, 8 June 2022 - 10 June 2022.
- . Procedia CIRP, Vol. 108 (pp 106-111). Lyon, France, 8 June 2022 - 10 June 2022.
- . Procedia CIRP, Vol. 87 (pp 420-425). Mondragon, Spain, 1 June 2020 - 5 June 2020.
- . Procedia Manufacturing, Vol. 50 (pp 570-573). Krakow, Poland, 13 September 2020 - 16 September 2020.
- . Procedia CIRP, Vol. 77 (pp 239-242), 25 June 2018 - 27 June 2018.
- . Ubiquity Proceedings, Vol. 1(S1) (pp 16-16). Swansea, Wales, 10 July 2018 - 12 July 2018.
- Experimental strain measurement in a blanking operation. 11th BSSM International Conference on Advanced in Experimental Mechanics, Exeter, UK
- Machining of carbon fibre: optical surface damage characterisation and tool wear study. 3rd CIRP Conference on Surface Integrity (CIRP CSI), Charlotte, NC, USA, 8 June 2016 - 10 June 2016.
- Surface defect evolution in hot rolling of high Si-electrical steels. METAL 2016 - 25th Anniversary International Conference on Metallurgy and Materials, Conference Proceedings (pp 267-272)
- An investigation on the subsurface micro-cracking induced by coating process in automotive steels. 16th International Conference on Experimental Mechanics (ICEM 16). Cambridge, UK, 7 July 2014 - 11 July 2014.
- Damage formation in dual phase steel: a combined approach of digital image correlation and microstructure modelling. 7th European conference on steel and composite structures (eurosteel 2014),. Napoli, Italy, 10 September 2014 - 12 September 2014.
- Systematic modelling and real-time optimization for manufacturing complex geometries using Additive Manufacturing techniques. 2nd Annual EPSRC Manufacturing the Future Conference. Cranfield University, Cranfield, UK, 17 September 2013 - 18 September 2013.
- A combined Digital Image Correlation-Finite Element modelling approach to investigate damage formation in dual phase steels. European Congress and Exhibition on Advanced Materials and Processes (EUROMAT) 2013. Sevilla, Spain, 8 September 2013 - 13 September 2013.
- An investigation into the failure mechanisms at the onset of necking in DP600 steel. 15th International Conference on Experimental Mechanics (ICEM 15). Porto- Portugal, 22 July 2012 - 27 July 2012.
- Local damage initiation mechanisms of a DP steel: surface observations vs. mid-plane deformation. EUROMAT 2011. Montpellier, France.. Montpellier, France, 12 September 2011 - 15 September 2011.
- Analysis of the structure of deposited materials at inner surface of jet fuel injector feed arm with Optical and Scanning Electron Microscopy. The 12th International conference on stability, handling and use of liquid fuels (IASH 2011). Sarasota, Florida USA., Vol. 2 (pp 1120-1148). Sarasota, Florida USA, 16 October 2011 - 20 October 2011.
- In-situ strain and damage analyses of Dual- Phase steels at micro-scale using Digital Image Correlation. The 2nd International Conference on Super High Strength Steel. Peschiera del Garda, Italy.. Peschiera del Garda, Italy, 17 October 2010 - 20 October 2010.
- On the Modelling of Chip Formation in Orthogonal Cutting:Damage Mechanics Approach. 12th CIRP conference on modelling of machining operations. Donostia-San sebastian, Spain., Vol. 1 (pp 77-82). Donostia-San sebastian, Spain, 7 May 2009 - 8 May 2009.
- Application of Electron Beam Lithography technique for the determination of micro-scale plastic strain due to machining. The 10th CIRP international workshop on modelling of machining operations. Reggio Calabria, Italy., Vol. 1 (pp 533-538). Reggio Calabria, Italy, 27 August 2007 - 28 August 2007.
- A combined Digital Image Correlation-Finite Element modelling approach to investigate damage formation in Dual Phase steels. European Congress and Exhibition on Advanced Materials and Processes (EUROMAT) 2013. Sevilla, Spain, 8 September 2013 - 13 September 2013.
- An investigation into the challenges of the point grinding machining process. Procedia CIRP
Preprints
- Grants
-
- INNOVATE UK (TSB), Knowledge Transfer Partnership, Finish machining of TSP coating, 2019- 2022, £181,712(PI)
- INNOVATE UK (TSB), Knowledge Transfer Partnership, Design of a Flexible Modular Clamping System, 2019 - 2021, £184,953(PI)
- EU – H2020, Research and Innovation Staff Exchange (RISE), Fracture across Scales and Materials, Processes and Disciplines (FRAMED), 2017-2021, £142k (CI)
- INNOVATE UK (TSB), Knowledge Transfer Partnership, Rapid Metal Cutting Simulation, 2017-2018, £29,620 (PI)
- Teaching interests
-
Dr Ghadbeigi has taught second year (MEC 202, GEE 207) and fourth year (MEC 455) modules for Mechanical Engineering and General Engineering students.
The second-year courses, Mechanics of Deformable solids and Mechanics of Structure, are about analysis of elastic deformation and interaction of solid elements and structures using analytical methods.
The fourth-year course is a specialized course on Advanced conventional manufacturing technologies, including Machining and Forming, where mechanics of deformation and manufacturing induced defects are studied.
- Professional activities and memberships
-
- Co-Director of Industrial Doctorate Centre in Machining Science
- Member of National Committee, British Society for Strain Measurement