Dr Chinnapat Panwisawas
BSc, PhD, CEng, FIMMM, FInstP, FIMechE
Research Funding
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Current Funded Research Projects
DISTOPIA - Distorting the Aerospace Manufacturing Boundaries: Operational Integration of Autonomy on Titanium (TS/Y016548/1)Funding source: Innovate UKStart: 01-11-2023 / End: 30-04-2026 Amount: £120,000 Innovate UK - Eureka collaborative R&D: smart advanced manufacturing Cluster (Project number 10086469) |
Correlative Analysis of Crystals in 3D (EP/X014614/1)Funding source: Engineering and Physical Science Research Council (EPSRC), UKRIStart: 01-10-2022 / End: 30-09-2025 EPSRC Equipment Business Case: Correlative Analysis of Crystals in 3D (EP/X014614/1: £2,501,463, 1 Oct 2022 – 31 Aug 2025) More info: https://gow.epsrc.ukri.org/NGBOViewGrant.aspx?GrantRef=EP/X014614/1 |
Next Generation TATARA Co-creation Centre (NEXTA) AwardFunding source: Next Generation TATARA Co-creation Centre (NEXTA) at Shimane University in JapanStart: 01-04-2023 / End: 31-03-2025 Amount: £50,000 Collaborative research project between Next Generation TATARA Co-creation Centre (NEXTA) in Japan and QMUL to concentrate on next-generation additive manufacturing technologies. |
Design by additive manufacturing of Innovative nanocomposites for biomedical application (IES\R3\223167)Funding source: Royal SocietyStart: 31-03-2023 / End: 30-03-2025 Amount: £12,000 Royal Society International Exchange has brought together research expertise from Queen Mary University of London (QMUL) in the UK and National University of Singapore (NUS) in Singapore. The exchange research programme will seek collaborative effort in the area of innovative digital technology. Laser-based powder-bed fusion (L-PBF) is one of the additive manufacturing (AM) processes, which employs high-power laser source to melt pre-deposited powder on the basis of a layer-by-layer build principle. The use of the nanocomposites of meta-material structure will be studied for biomedical application. |
RAEng-Newton Fund - Transforming Systems through Partnership - Thailand 2020-2021 - 2 (TSP2021/100366)Funding source: Royal Academy of EngineeringStart: 01-07-2022 / End: 31-01-2024 Amount: £12,473 The project concentrates on additive manufacturing of metastable materials for biomedical applications. The project title is "Digital Materials Design and Additive Manufacturing for helping patients on bespoke 3D-printed implants"(TSP2021/100366). |
RAEng-Newton Fund - Transforming Systems through Partnership - Thailand 2020-2021 - 1 (TSP2021/100052)Funding source: Royal Academy of EngineeringStart: 15-09-2022 / End: 31-01-2024 Amount: £16,620 This project is about novel alloy design for additive manufacturing in biomedical applications. The project title is "Novel titanium alloys for biomedical application" (TSP2021/100052). |
Novel low-modulus titanium alloy for biomedical applicationsFunding source: Royal Academy of EngineeringStart: 15-09-2022 / End: 31-01-2024 Amount: £16,620 |
Digital materials design and additive manufacturing for helping patients with bespoke 3D-printed impFunding source: Royal Academy of EngineeringStart: 01-07-2022 / End: 31-01-2024 Amount: £12,473 |
Current PhD Studentship Projects
MolyCop PhD studentship: Chemical composition and heat treatment optimisation of martensitic steelsFunding source: Molycop USA LLCStart: 01-10-2023 / End: 30-09-2026 MolyCop PhD studentship |
QMUL Principal’s Studentship: High-Fidelity Modelling of Multi-Material Additive ManufacturingFunding source: Queen Mary University of LondonStart: 18-09-2023 / End: 17-09-2026 PhD studentship |
Conacyt PhD scholarship: Sinter-based additive manufacturing for bespoke biomedical implantsFunding source: Conacyt scholarshipStart: 18-09-2023 / End: 17-09-2026 Conacyt PhD scholarship |
Previous Funded Research Projects
Next Generation TATARA Co-creation Centre (NEXTA) - Phase IFunding source: Promotion of Regional Industries and University from Cabinet Office, JapanStart: 01-10-2018 / End: 31-03-2023 I involved in Next Generation TATARA Co-creation Centre (NEXTA): One of the seven Japanese national projects funded for development of advanced materials for aerospace and motor applications as Research Co-I & Consultant & Visiting Associate Professor. The NEXTA project is funded by a Grant-in-aid for the Promotion of Regional Industries and University from Cabinet Office, Japan worth JPY7,000,000,000 or £42,000,000 in total) (1 Oct 2018 – 1 Apr 2023). |
British Council - Thai-UK World-Class University ConsortiumFunding source: British CouncilStart: 01-01-2022 / End: 31-12-2022 Drone Research and Training Center for Smart City (1 Jan 2022 – 31 Dec 2022) |
From Industry 3.0 to Industry 4.0: Additive Manufacturability: EPSRC UKRI Innovation FellowshipFunding source: Engineering and Physical Science Research Council (EPSRC), UKRI / Engineering and Physical Science Research Council (EPSRC), UKRIStart: 29-06-2018 / End: 28-06-2022 The work concerns about the simulation of solid-liquid-vapour transition and relevant thermal fluid mechanics at the AM technological applications. The aim is to use computational modelling to design AM alloys and improve the AM processing through the optimisation of chemical constituents and process conditions, which will be backed up with through-process testings. (EP/S000828/1 at University of Oxford & EP/S000828/2 at University of Leicester) (29 Jun 2018-28 Jun 2022) |
RAEng-Newton Fund Industry Academia Partnership Programme - Thailand 17/18Funding source: Royal Academy of EngineeringStart: 30-03-2018 / End: 30-03-2021 Additive manufacturing of titanium based metallic glass for biomedical applications (IAAP1/100163) (Mar 2018 – Mar 2020) |