Samuel Lister
School of Chemical, Materials and Biological Engineering
Research Associate
sam.lister@sheffield.ac.uk
Sir Robert Hadfield Building
Full contact details
Samuel Lister
School of Chemical, Materials and Biological Engineering
Sir Robert Hadfield Building
Mappin Street
Sheffield
S1 3JD
School of Chemical, Materials and Biological Engineering
Sir Robert Hadfield Building
Mappin Street
Sheffield
S1 3JD
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Journal articles
- High-velocity fragmentation of titanium alloy rings and cylinders produced using Field-Assisted Sintering Technology. International Journal of Fracture, 250(1).
- Understanding the Influence of Thermal Gradients during Large-Scale FAST/SPS on Final Microstructure after Secondary Hot Rolling of Ti-5Al-5V-5Mo-3Cr (FAST-roll). Journal of the Japan Society of Powder and Powder Metallurgy, 72(Supplement), S1123-S1128.
- Exploitation of FAST/SPS to Recycle Surplus Titanium Alloy Particulates for Sustainable Solutions and near Net Shape Components. Key Engineering Materials, 1009, 41-48.
- A comparative study of microstructure and texture evolution in low cost titanium alloy swarf and powder recycled via FAST and HIP. Materials Science and Technology.
- A Machinability Assessment of the Novel Application of Field-Assisted Sintering Technology to Diffusion Bond (FAST-DB) and Functionally Grade Dissimilar Nickel-Based Superalloys. Metallurgical and Materials Transactions A.
Conference proceedings papers
- Comparison Of Field-Assisted Sintering Technology (FAST) And Hot Isostatic Pressing (HIP) For The Diffusion Bonding Of Dissimilar Titanium Alloy Powders. World PM 2022 Congress Proceedings
- A Microstructural Assessment of the Thermal Gradient during Large-scale FAST/SPS Sintering for Tall Samples and Multi-Sample Serial Stacking of Ti-6Al-4V Plates. Euro PM2023 Proceedings
- Consolidation Of Titanium Swarf And Surplus AM Powder Via The Solid-state Processing Routes Of FAST And HIP. World PM2022 Proceedings
- High-velocity fragmentation of titanium alloy rings and cylinders produced using Field-Assisted Sintering Technology. International Journal of Fracture, 250(1).