Dr Chinnapat Panwisawas
Senior Lecturer in Materials and Solid Mechanics
Deputy Director of Graduate Studies and Director of Materials Science and Engineering Programme
School of Engineering and Materials Science
Queen Mary University of London
Queen Mary University of London
Research
Computational Materials, Additive manufacturing, Digital twin, Data-Centric Engineering, Mechanics of Materials and Structures, Physics-based and Data-driven Modelling
Interests
My research interest is to carry out multi-disciplinary cutting-edge research in the area of the digital technology using AI-physics modelling framework, to impact multi-material additive manufacturing, hybrid remanufacturing and repair, and hydrogen-based technology for green energy, future transport (automotive, aerospace, space) and biomedical applications, especially for digital health (metallic implant for ‘artificial bone bank’). Integrated computational materials engineering (ICME) approach will be used to understand materials and manufacturing process via multi-scale multi-physics high-fidelity modelling, knowledge-based computational manufacturing, and through process optimisation by data-driven AI modelling. This is to deliver world-leading AI manufacturing research on innovation and enterprise, to act on UK net-zero target 2050 and to deliver sustainable and resilient digital technologies of the future.Publications of specific relevance to the Centre for Intelligent Transport
2025
Aliyu AAA, Puncreobutr C, Shinjo J, Kuimalee S, Phetrattanarangsi T, Boonchuduang T, Taweekitikul P, Panwisawas C, Wanming L, Poungsiri K and Lohwongwatana B (2025). Lack of fusion-induced cracking effect on tensile and fatigue behaviours of laser powder-bed fusion-processed Ti-6Al-4V implant. Engineering Failure Analysis, Elsevier vol. 168 01-02-2025
2024
Xiong F, Lian Y, Panwisawas C, Chen J, Li M-J and Liu A (2024). A microscale cellular automaton method for solid-state phase transformation of directed energy deposited Ti6Al4V. Additive Manufacturing, Elsevier vol. 95, 104517-104517. 01-11-2024
Mukherjee T, Shinjo J, DebRoy T and Panwisawas C (2024). Integrated modeling to control vaporization-induced composition change during additive manufacturing of nickel-based superalloys. npj Computational Materials, Spinger Nature vol. 10 (1), 230-230. 30-09-2024
Zhang G, Chen G, Panwisawas C, Teng X, An R, Cao J, Huang Y, Dong Z and Leng X (2024). Uncovering the fracture mechanism of Laves (1 1 1)/ Ni6Nb7 (0 0 0 1) interfaces by first-principles calculations. Acta Materialia, Elsevier vol. 281, 120426-120426. 26-09-2024
Guan W, Chen C, Pan X, Zhao R, Xufei L, Tao H, Songzhe X, Xuan W, Panwisawas C, Lei L, Wang J and Ren Z (2024). On the control of epitaxial growth and stray grains during laser-directed energy deposited Ni-based single crystal superalloy. Materials Characterization, Elsevier, 113969-113969. 12-05-2024
Aliyu AAA, Puncreobutr C, Kuimalee S, Phetrattanarangsi T, Boonchuduang T, Taweekitikul P, Panwisawas C, Shinjo J and Lohwongwatana B (2024). Laser-inherent porosity defects in additively manufactured Ti-6Al-4V implant: Formation, distribution, and effect on fatigue performance. Journal of Materials Research and Technology, Elsevier vol. 30, 5121-5132. 24-04-2024
Zhang K, Chen Y, Marussi S, Fan X, Fitzpatrick M, Bhagavath S, Majkut M, Lukic B, Jakata K, Rack A, Jones MA, Shinjo J, Panwisawas C, Leung CLA and Lee PD (2024). Pore evolution mechanisms during directed energy deposition additive manufacturing. Nature Communications, Springer Nature vol. 15 (1), 1715-1715. 24-02-2024
Shinjo J, Kutsukake A, Wakabayashi H, Arakawa K, Ogawara A, Uchida H, Panwisawas C and Reed RC (2024). In-process monitoring and direct simulation of Argon shielding gas and vapour dynamics to control laser-matter interaction in laser powder bed fusion additive manufacturing. Additive Manufacturing, Elsevier vol. 80, 103953-103953. 04-01-2024
2023
Ren N, Li J, Zhang R, Panwisawas C, Xia M and Dong H (2023). Solute trapping and non-equilibrium microstructure during rapid solidification of additive manufacturing. Nature Communications, Springer Nature vol. 14 (1), 7990-7990. 02-12-2023
Hajra RN, Panwisawas C, Park JW, Choo W, Han BJ and Kim JH (2023). High-temperature phase stability and phase transformation of NbCr2 Laves phase: Experimental and first-principles calculation studies. Materials and Design, Elsevier, 112483-112483. 01-11-2023
Yang L, Ren N, Panwisawas C, Li J, Xia M and Dong H (2023). Melt Flow-Induced Mechanical Deformation and Fracture Behaviour of Dendrites in Alloy Solidification. Metallurgical and Materials Transactions A, Springer Nature 12-10-2023
Win TT, Panwisawas C, Jongvivatsakul P, Pansuk W and Prasittisopin L (2023). Effects of Fly Ash Composition to Mitigate Conversion of Calcium Aluminate Cement Composites. Buildings, MDPI vol. 13 (10), 2453-2453. 27-09-2023
Zhang G, Chen G, Panwisawas C, Teng X, Ma Y, An R, Huang Y, Cao J and Leng X (2023). First-principles study of oxygen segregation and its effect on the embrittlement of molybdenum symmetrical tilt grain boundaries. Acta Materialia, Elsevier vol. 261, 119387-119387. 25-09-2023
Guoqing D, Xue M, Guo Y, Chang H, Sun Z, Lu J, Li W, Panwisawas C and Alexandrov IV (2023). Gradient microstructure and strength-ductility synergy improvement of 2319 aluminum alloys by hybrid additive manufacturing. Journal of Alloys and Compounds, Elsevier vol. 968, 171781-171781. 18-08-2023
Yang L, Ren N, Panwisawas C, Li J, Xia M and Dong H (2023). Melt flow-induced mechanical deformation of dendrites in alloy solidification: A coupled thermal fluid - solid mechanics approach. Journal of Materials Research and Technology, Elsevier vol. 25, 4094-4109. 07-07-2023
Lu Z, Ren N, Xu X, Li J, Panwisawas C, Xia M, Dong H and Tsang E (2023). Real-time prediction and adaptive adjustment of continuous casting based on deep learning. Communications Engineering, Springer Nature vol. 2 (1) 07-06-2023
Ren N, Li J, Panwisawas C, Xia M and Dong H (2023). Simulation of the solute transport and microstructure evolution during the selective laser melting process. IOP Conference Series Materials Science and Engineering, IOP Publishing vol. 1281 (1) 01-05-2023
Dai G, Sun Z, Li Y, Jain J, Bhowmik A, Shinjo J, Lu J and Panwisawas C (2023). Grain refinement and columnar-to-equiaxed transition of Ti6Al4V during additive manufacturing via different laser oscillations. International Journal of Machine Tools and Manufacture, Elsevier, 104031-104031. 29-04-2023
Sereewatthanawut I, Panwisawas C, Ngamkhanong C and Prasittisopin L (2023). Effects of extended mixing processes on fresh, hardened and durable properties of cement systems incorporating fly ash. Scientific Reports, Springer Nature vol. 13, 6091-6091. 13-04-2023
Abdu Aliyu AA, Panwisawas C, Shinjo J, Puncreobutr C, Reed RC, Poungsiri K and Lohwongwatana B (2023). Laser-based Additive Manufacturing of Bulk Metallic Glasses: Recent Advances and Future Perspectives for Biomedical Applications. Journal of Materials Research and Technology, Elsevier vol. 23, 2956-2990. 02-02-2023
Aliyu AAA, Poungsiri K, Shinjo J, Panwisawas C, Reed RC, Puncreobutr C, Tumkanon K, Kuimalee S and Lohwongwatana B (2023). Additive manufacturing of tantalum scaffolds: Processing, microstructure and process-induced defects. International Journal of Refractory Metals and Hard Materials, Elsevier BV, 106132-106132. 26-01-2023
Shinjo J, Kutsukake A, Arote AS, Tang YT, McCartney DG, Reed RC and Panwisawas C (2023). Physics-based thermal-chemical-fluid-microstructure modelling of in-situ alloying using additive manufacturing: Composition-microstructure control. Additive Manufacturing, Elsevier BV, 103428-103428. 25-01-2023
Rui WANG, Jiang WANG, Tingwei CAO, Ruixin ZHAO, Lu X, Wei GUAN, Tao HU, SHUAI S, Songzhe XU, Weidong XUAN, PANWISAWAS C, Chaoyue CHEN and Zhongming REN (2023). Microstructure characteristics of a René N5 Ni-based single-crystal superalloy prepared by laser-directed energy deposition. Additive Manufacturing, Elsevier, 103363-103363. 14-01-2023
Tang YT, Panwisawas C, Jenkins BM, Liu J, Shen Z, Salvati E, Gong Y, Ghoussoub JN, Michalik S, Roebuck B, Bagot PAJ, Lozano-Perez S, Grovenor CRM, Moody MP, Korsunsky AM, Collins DM and Reed RC (2023). Multi-length-scale study on the heat treatment response to supersaturated nickel-based superalloys: Precipitation reactions and incipient recrystallisation. Additive Manufacturing, Elsevier, 103389-103389. 07-01-2023
2022
Fuyang C, Gong J, Wang X, Panwisawas C and Chen B (2022). A physics-based life prediction model of HP40Nb heat-resistant alloy in a coupled creep-carburisation environment. Materials Science and Engineering: A, Elsevier vol. 860, 144260-144260. 15-11-2022
Zhang RY, Qin HL, Bi ZN, Tang YT, de Oliveira JA, Lee TL, Panwisawas C, Zhang SY, Zhang J, Li J and Dong HB (2022). γ″ variant-sensitive deformation behaviour of Inconel 718 superalloy. Journal of Material Science and Technology, Elsevier vol. 126, 169-181. 01-11-2022
Jamshidi P, Panwisawas C, Langi E, Cox SC, Feng J, Zhao L and Attallah MM (2022). Development, characterisation, and modelling of processability of nitinol stents using laser powder bed fusion. Journal of Alloys and Compounds, Elsevier vol. 909 01-07-2022
Aliyu AAA, Udomlertpreecha S, Medhisuwakul M, Panwisawas C, Reed R, Puncreobutr C, Khamwannah J, Kuimalee S, Yipyintum C and Lohwongwatana B (2022). A new toxic-free Ti40Zr10Co36Pd14 metallic glass with good biocompatibility and surface behaviour comparable to Ti-6Al-4V. Materials & Design, Elsevier vol. 218 01-06-2022
Ren N, Li J, Panwisawas C, Xia M and Dong H (2022). Insight into the sensitivities of freckles in the directional solidification of single-crystal turbine blades. Journal of Manufacturing Processes, Elsevier vol. 77, 219-228. 01-05-2022
Nenchev B, Panwisawas C, Yang X, Fu J, Dong Z, Tao Q, Gebelin JC, Dunsmore A, Dong H, Li M, Tao B, Li F, Ru J and Wang F (2022). Metallurgical Data Science for Steel Industry: A Case Study on Basic Oxygen Furnace. Steel Research International vol. 93 (12) 28-04-2022
Nenchev B, Tao Q, Dong Z, Panwisawas C, Li H, Tao B and Dong H (2022). Evaluating data-driven algorithms for predicting mechanical properties with small datasets: A case study on gear steel hardenability. International Journal of Minerals, Metallurgy and Materials, Springer Nature vol. 29 (4), 836-847. 01-04-2022
Daungwilailuk T, Yenchai C, Rungjaroenkiti W, Pheinsusom P, Panwisawas C and Pansuk W (2022). Use of barite concrete for radiation shielding against gamma-rays and neutrons. Construction and Building Materials, Elsevier vol. 326 01-04-2022
Shinjo J and Panwisawas C (2022). Chemical species mixing during direct energy deposition of bimetallic systems using titanium and dissimilar refractory metals for repair and biomedical applications. Additive Manufacturing, Elsevier vol. 51 01-03-2022
淳史 新 and Panwisawas C (2022). その場合金化金属積層造形における溶融・混合・蒸発・凝固のプロセス最適化に向けた流動特性の数値解析. The Proceedings of the Fluids engineering conference, Japan Society of Mechanical Engineers vol. 2022, os11-os08. 01-01-2022
2021
Panwisawas C, Gong Y, Tang YT, Reed RC and Shinjo J (2021). Additive manufacturability of superalloys: Process-induced porosity, cooling rate and metal vapour. Additive Manufacturing, Elsevier vol. 47 01-11-2021
Ren N, Panwisawas C, Li J, Xia M and Dong H (2021). Solute enrichment induced dendritic fragmentation in directional solidification of nickel-based superalloys. Acta Materialia, Elsevier vol. 215 01-08-2021
Shinjo J and Panwisawas C (2021). Digital materials design by thermal-fluid science for multi-metal additive manufacturing. Acta Materialia, Elsevier vol. 210 01-05-2021
Suwanpreecha C, Alabort E, Tang YT, Panwisawas C, Reed RC and Manonukul A (2021). A novel low-modulus titanium alloy for biomedical applications: A comparison between selective laser melting and metal injection moulding. Materials Science and Engineering A, Elsevier vol. 812 01-04-2021
Ren N, Li J, Panwisawas C, Xia M and Dong H (2021). Thermal-solutal-fluid flow of channel segregation during directional solidification of single-crystal nickel-based superalloys. Acta Materialia, Elsevier vol. 206 01-03-2021
Luo D, Xiao Y, Hardwick L, Snell R, Way M, Morell XS, Livera F, Ludford N, Panwisawas C, Dong H and Goodall R (2021). High entropy alloys as filler metals for joining. Entropy, MDPI vol. 23 (1), 1-23. 07-01-2021
Tang YT, D’Souza N, Roebuck B, Karamched P, Panwisawas C and Collins DM (2021). Ultra-high temperature deformation in a single crystal superalloy: Mesoscale process simulation and micromechanisms. Acta Materialia, Elsevier vol. 203 01-01-2021
Tang YT, Panwisawas C, Ghoussoub JN, Gong Y, Clark JWG, Németh AAN, McCartney DG and Reed RC (2021). Alloys-by-design: Application to new superalloys for additive manufacturing. Acta Materialia, Elsevier vol. 202, 417-436. 01-01-2021
2020
Collins DM, D’Souza N, Panwisawas C, Papadaki C, West GD, Kostka A and Kontis P (2020). Spinodal decomposition versus classical γ′ nucleation in a nickel-base superalloy powder: An in-situ neutron diffraction and atomic-scale analysis. Acta Materialia, Elsevier vol. 200, 959-970. 01-11-2020
Strickland J, Nenchev B, Perry S, Tassenberg K, Gill S, Panwisawas C, Dong H, D'Souza N and Irwin S (2020). On the nature of hexagonality within the solidification structure of single crystal alloys: Mechanisms and applications. Acta Materialia, Elsevier vol. 200, 417-431. 01-11-2020
Panwisawas C, Tang YT and Reed RC (2020). Metal 3D printing as a disruptive technology for superalloys. Nature Communications, Springer Nature vol. 11 (1) 11-05-2020
Panwisawas C, Tang YT, Ghoussoub J and Reed RC (2020). Additive Manufacturability of Nickel-Based Superalloys: Composition-Process Induced Vapourization. 01-01-2020
Tang YT, Ghoussoub JN, Panwisawas C, Collins DM, Amirkhanlou S, Clark JWG, Németh AAN, Graham McCartney D and Reed RC (2020). The Effect of Heat Treatment on Tensile Yielding Response of the New Superalloy ABD-900AM for Additive Manufacturing. 01-01-2020
Ghoussoub JN, Tang YT, Panwisawas C, Németh A and Reed RC (2020). On the Influence of Alloy Chemistry and Processing Conditions on Additive Manufacturability of Ni-Based Superalloys. 01-01-2020
D'Souza N, Roebuck B, Collins DM, West GD and Panwisawas C (2020). Relating micro-segregation to site specific high temperature deformation in single crystal nickel-base superalloy castings. Materials Science and Engineering A, Elsevier vol. 773 01-01-2020
2018
Basoalto HC, Panwisawas C, Sovani Y, Anderson MJ, Turner RP, Saunders B and Brooks JW (2018). A computational study on the three-dimensional printability of precipitate-strengthened nickel-based superalloys. Proceedings of the Royal Society A, The Royal Society vol. 474 (2220) 01-12-2018
Turner RP, Panwisawas C, Lu Y, Dhiman I, Basoalto HC and Brooks JW (2018). Neutron tomography methods applied to a nickel-based superalloy additive manufacture build. Materials Letters, Elsevier vol. 230, 109-112. 01-11-2018
Anderson MJ, Panwisawas C, Sovani Y, Turner RP, Brooks JW and Basoalto HC (2018). Mean-field modelling of the intermetallic precipitate phases during heat treatment and additive manufacture of Inconel 718. Acta Materialia, Elsevier vol. 156, 432-445. 01-09-2018
Flint TF, Panwisawas C, Sovani Y, Smith MC and Basoalto HC (2018). Prediction of grain structure evolution during rapid solidification of high energy density beam induced re-melting. Materials & Design, Elsevier vol. 147, 200-210. 01-06-2018
Panwisawas C, D’Souza N, Collins DM, Bhowmik A and Roebuck B (2018). History Dependence of the Microstructure on Time-Dependent Deformation During In-Situ Cooling of a Nickel-Based Single-Crystal Superalloy. 31-05-2018
Panwisawas C, Sovani Y, Turner RP, Brooks JW, Basoalto HC and Choquet I (2018). Modelling of thermal fluid dynamics for fusion welding. Journal of Materials Processing Technology, Elsevier vol. 252, 176-182. 01-02-2018
2017
Panwisawas C, D’Souza N, Collins DM and Bhowmik A (2017). The contrasting roles of creep and stress relaxation in the time-dependent deformation during in-situ cooling of a nickel-base single crystal superalloy. Scientific Reports, Springer Nature vol. 7 (1) 11-09-2017
Mathur HN, Panwisawas C, Jones CN, Reed RC and Rae CMF (2017). Nucleation of recrystallisation in castings of single crystal Ni-based superalloys. Acta Materialia, Elsevier vol. 129, 112-123. 01-05-2017
Collins DM, D’Souza N and Panwisawas C (2017). In-situ neutron diffraction during stress relaxation of a single crystal nickel-base superalloy. Scripta Materialia, Elsevier vol. 131, 103-107. 01-04-2017
Panwisawas C, Perumal B, Ward RM, Turner N, Turner RP, Brooks JW and Basoalto HC (2017). Keyhole formation and thermal fluid flow-induced porosity during laser fusion welding in titanium alloys: Experimental and modelling. Acta Materialia, Elsevier vol. 126, 251-263. 01-03-2017
Qiu C, D'Souza N, Kelleher J and Panwisawas C (2017). An experimental investigation into the stress and strain development of a Ni-base single crystal superalloy during cooling from solidification. Materials & Design, Elsevier vol. 114, 475-483. 01-01-2017
D'Souza N, Kelleher J, Kabra S and Panwisawas C (2017). Visco-plasticity during in-situ cooling from solidification of a nickel-base single crystal superalloy using neutron diffraction. Materials Science and Engineering A, Elsevier vol. 681, 32-40. 01-01-2017
Panwisawas C, Qiu C, Anderson MJ, Sovani Y, Turner RP, Attallah MM, Brooks JW and Basoalto HC (2017). Mesoscale modelling of selective laser melting: Thermal fluid dynamics and microstructural evolution. Computational Materials Science, Elsevier vol. 126, 479-490. 01-01-2017
2016
Panwisawas C, Sovani Y, Anderson MJ, Turner R, Palumbo NM, Saunders BC, Choquet I, Brooks JW and Basoalto HC (2016). A Multi‐Scale Multi‐Physics Approach to Modelling of Additive Manufacturing in Nickel‐Based Superalloys. 31-08-2016
Turner RP, Panwisawas C, Sovani Y, Perumal B, Ward RM, Brooks JW and Basoalto HC (2016). An Integrated Modeling Approach for Predicting Process Maps of Residual Stress and Distortion in a Laser Weld: A Combined CFD–FE Methodology. Metallurgical and Materials Transactions B, Springer Nature vol. 47 (5), 2954-2962. 11-07-2016
Panwisawas C, Perumal B, Sovani Y, Turner RP, Ward RM, Brooks JW and Basoalto HC (2016). Porosity Formation in Laser Welded Ti‐6Al‐4V Alloy: Modelling and Validation. Proceedings of the 13th World Conference on Titanium 1897-1900. 02-05-2016
D'Souza N, Kelleher J, Qiu C, Zhang S-Y, Gardner S, Jones RE, Putman D and Panwisawas C (2016). The role of stress relaxation and creep during high temperature deformation in Ni-base single crystal superalloys – Implications to strain build-up during directional solidification. Acta Materialia, Elsevier vol. 106, 322-332. 01-03-2016
Anderson M, Basoalto H, Brooks J, Choquet I, Palumbo N, Panwisawas C, Saunders B, Sovani Y and Turner R (2016). A Multi-Scale Multi-Physics Approach to Modelling of Additive Manufacturing in Nickel-Based Superalloys. Proceedings of the 13th International Symposium on Superalloys. 01-01-2016
2015
Turner RP, Villa M, Sovani Y, Panwisawas C, Perumal B, Ward RM, Brooks JW and Basoalto HC (2015). An Improved Method of Capturing the Surface Boundary of a Ti-6Al-4V Fusion Weld Bead for Finite Element Modeling. Metallurgical and Materials Transactions B, Springer Nature vol. 47 (1), 485-494. 30-10-2015
Qiu C, Panwisawas C, Ward M, Basoalto HC, Brooks JW and Attallah MM (2015). On the role of melt flow into the surface structure and porosity development during selective laser melting. Acta Materialia, Elsevier vol. 96, 72-79. 01-09-2015
Panwisawas C, Qiu CL, Sovani Y, Brooks JW, Attallah MM and Basoalto HC (2015). On the role of thermal fluid dynamics into the evolution of porosity during selective laser melting. Scripta Materialia, Elsevier vol. 105, 14-17. 01-08-2015
2014
Panwisawas C, Mathur HN, Broomfield RW, Putman D, Rae CMF and Reed RC (2014). Prediction of recrystallisation in single crystal nickel-based superalloys during investment casting. 01-01-2014
2013
Panwisawas C, Gebelin J-C and Reed RC (2013). Analysis of the mechanical deformation arising from investment casting of directionally solidified nickel-based superalloys. Materials Science and Technology, SAGE Publications vol. 29 (7), 843-853. 01-07-2013
Panwisawas C, Mathur H, Gebelin J-C, Putman D, Rae CMF and Reed RC (2013). Prediction of recrystallization in investment cast single-crystal superalloys. Acta Materialia, Elsevier vol. 61 (1), 51-66. 01-01-2013
2012
Panwisawas C, Mathur H, Gebelin J, Putman DC, Withey P, Warnken N, Rae CMF and Reed RC (2012). Prediction of Plastic Strain for Recrystallisation during Investment Casting of Single Crystal Superalloys. Superalloys 2012 547-556. 10-09-2012
Panwisawas C, Mathur H, Gebelin J, Putman D, Withey P, Warnken N, Rae C and Reed R (2012). Prediction of Plastic Strain for Recrystallization during Investment Casting of Single Crystal Superalloys. Superalloys 2012 (Twelfth International Symposium). 01-01-2012
2011
Panwisawas C, Gebelin JC, Warnken N, Broomfield RW and Reed RC (2011). Numerical Modelling of Stress and Strain Evolution during Solidification of a Single Crystal Superalloy. 04-07-2011
Grants
Grants of specific relevance to the Centre for Intelligent Transport(S&E Flexible PhD Studentship, 2023/24, Commercial, Fully External, Band B, 3Y)Harshad Bhadeshia and Chinnapat Panwisawas
£158,000 Molycop USA LLC (04-02-2024 - 03-02-2027)
DISTorting the Aerospace Manufacturing Boundaries: OPerational Integration of Autonomy on TitaniumChinnapat Panwisawas and Harshad Bhadeshia
£120,000 Innovate UK (01-02-2024 - 31-07-2026)
Vibration-Based Non-Destructive Testing for metal Additive ManufacturingYunpeng Zhu and Chinnapat Panwisawas
£19,695 Dutch Research Council (01-01-2024 - 31-12-2027)
Next Generation TATARA Co-creation Centre (NEXTA) Award - Phase 1Chinnapat Panwisawas
£50,000 Shimane University (01-04-2023 - 31-03-2025)
Design by additive manufacturing of Innovative nanocomposites for biomedical applicationChinnapat Panwisawas
£12,000 Royal Society (31-03-2023 - 30-03-2025)
Novel low-modulus titanium alloy for biomedical applications-GRANT TRANSFERChinnapat Panwisawas
£16,720 Royal Academy of Engineering (15-09-2022 - 31-01-2024)
Digital materials design and additive manufacturing for helping patients with bespoke 3D-printed imp-GRANT TRANSFERChinnapat Panwisawas
£12,473 Royal Academy of Engineering (01-07-2022 - 31-01-2024)