Journal Publications 2024 Estimation of fatigue life of TiN coatings using cyclic micro-impact testing A Koko, E Elmukashfi, T Fry, M Gee, H Zhang Thin Solid Films A correlative approach to evaluating the links between local microstructural parameters and creep initiated cavities S He, E H, S M, E Galliopoulou, P J Thomas, A Caballero, E Elmukashfi, M Salvini, M Mostafavi, D Knowles, P EJ Flewitt, TL Martin Materials & Design 2023 A novel approach for evaluating creep damage and cavitation in copper bicrystals subject to constant load H Shang, E Elmukashfi, J Čapek, P Lejcek, K R Hallam, ACF Cocks, C Hardie, T L Martin, P EJ Flewitt Materialia Creep cavitation evolution in polycrystalline copper under conditions of stress relaxation H Shang, A Caballero, E Elmukashfi, TL Martin, KR Hallam, ACF Cocks, P EJ Flewitt Materials Science and Engineering: A HR-EBSD analysis of in situ stable crack growth at the micron scale A Koko, T H Becker, E Elmukashfi, N M Pugno, A J Wilkinson, T J Marrow Journal of the Mechanics and Physics of Solids Design and Analysis of Homes for Mars Habitats D Kang, E Elmukashfi, K Kukla Journal of Student Research 2022 Building power-ful health systems: the impacts of electrification on health outcomes in LMICs A Khogali, A Ahmed, M Ibrahim, K Karrar, M Elsheikh, E Abdelraheem, L Cluver, E Elmukashfi Psychology, Health & Medicine Multi-scale modelling of creep cavity nucleation and growth in polycrystalline Type 316 stainless steel M P Petkov, E Elmukashfi, ACF Cocks Philosophical Magazine In situ characterisation of the strain fields of intragranular slip bands in ferrite by high-resolution electron backscatter diffraction A Koko, E Elmukashfi, T H Becker, P S Karamched, A J Wilkinson, T J Marrow Acta Materialia Stress driven creep deformation and cavitation damage in pure copper Y Das, A Caballero, E Elmukashfi, H Jazaeri, A Forsey, M T Hutchings, R Schweins, P J Bouchard Materials Science and Engineering: A Model selection and sensitivity analysis in the biomechanics of soft tissues: A case study on the human knee meniscus E Elmukashfi, G Marchiori, M Berni, G Cassiolas, N F Lopomo, H Rappel, M Girolami, O Barrera Advances in applied mechanics 2021 Evaluation of local stress state due to grain-boundary sliding during creep within a crystal plasticity finite element multi-scale framework M P Petkov, E Elmukashfi, E Tarleton, ACF Cocks International Journal of Mechanical Sciences J -integral analysis of the elastic strain fields of ferrite deformation twins using electron backscatter diffraction A Koko, E Elmukashfi, K Dragnevski, A J Wilkinson, T J Marrow Acta Materialia An experimental method for estimating the tearing energy in rubber-like materials using the true stored energy E Elmukashfi Scientific Reports A theoretical and computational investigation of mixed mode creep crack growth along an interface E Elmukashfi, ACF Cocks International Journal of Fracture 2020 A modelling framework for coupled hydrogen diffusion and mechanical behaviour of engineering components E Elmukashfi, E Tarleton, ACF Cocks Computational Mechanics Analysis of the Thermomechanical Stresses in Double-Wall Effusion Cooled Systems E Elmukashfi, A V Murray, P T Ireland, ACF Cocks Journal of Turbomachinery 2019 Effect of weld angle on the creep rupture life of ferritic/austenitic dissimilar weld interfaces under remote mode-I fracture J Hu, E Elmukashfi, T Fukahori, T Igari, Y Chuman, ACF Cocks Engineering Fracture Mechanics A theoretical and computational framework for studying creep crack growth E Elmukashfi, ACF Cocks International Journal of Fracture Numerical analysis of dynamic crack propagation in biaxially strained rubber sheets E Elmukashfi, M Kroon Engineering Fracture Mechanics Numerical analysis of dynamic crack propagation in rubber E Elmukashfi, M Kroon International journal of fracture Book and Thesis Conferences

About AML The Advanced Materials Laboratory (AML), led by Dr. Elsiddig Elmukashfi , is a cutting-edge research group dedicated to advancing the understanding of materials through both simulation and experimentation. Our work focuses on developing high-fidelity models and designing precise characterisation experiments to unravel the intricate process-structure-property (PSP) relationships in materials. At AML, we pay particular attention to investigating deformation and failure mechanisms, as well as the influence of microstructural features and their statistical distributions under extreme conditions (e.g., high temperatures, corrosive environments, etc.). Our overarching mission is to pioneer a microstructure-informed, closed-loop framework for studying materials. This approach aims to facilitate the development of resilient and optimised structures, as well as the design of next-generation advanced materials that can withstand the challenges of modern applications. Learn More Image Title Describe your image here Image Title Describe your image here Image Title Describe your image here Image Title Describe your image here Image Title Describe your image here Image Title Describe your image here Image Title Describe your image here Video Title Describe your video here Image Title Describe your image here Image Title Describe your image here Image Title Describe your image here Video Title Describe your video here Latest News Item Title Read More Item Title Read More Item Title Read More Item Title Read More Revolutionising Materials Science with Microstructure-Informed Insights To Create Next-Generation Technologies

Academics Elsiddig Elmukashfi is a lecturer at the University of Leicester and college lecturer at St Annes College, University of Oxford. He is the principal investigator of the AML. His research focues on modelling, testing, design and manufacturing approaches for advanced materials. Undergraduate Students Describe the team member here. Write a brief description of their role and responsibilities, or a short bio with a background summary. Payton Hillman Describe the team member here. Write a brief description of their role and responsibilities, or a short bio with a background summary. Chloe Wilson Describe the team member here. Write a brief description of their role and responsibilities, or a short bio with a background summary. Jessica Davis Describe the team member here. Write a brief description of their role and responsibilities, or a short bio with a background summary. James Williams Describe the team member here. Write a brief description of their role and responsibilities, or a short bio with a background summary. James Williams Describe the team member here. Write a brief description of their role and responsibilities, or a short bio with a background summary. James Williams Graduate Students Ashale Ramesh is a PhD student working on understanding the creep behavior of additively manufactured AM316H stainless steel. His research focuses analysing creep damage analysis using correlative microscopy techniques, including micro-CT and laser-FIB SEM. Ali Fahem is a PhD student working on understanding the failure of welding of cladded metallic systems. His research focuses analysing failure of welding in cladded systems using advanced experimental techniques and Finite Element simulations.

Research At the Advanced Materials Laboratory (AML), our research is dedicated to developing cutting-edge methodologies for materials characterisation, multiscale modeling, and AI-driven simulations. By integrating advanced experimental techniques with computational modeling, we aim to address critical challenges in material degradation, performance, and optimisation under extreme conditions.