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个人简介
Yongle has over 10 year research experience tackling the scientific and application challenges associated with important engineering materials, such as high-strength / low-alloy steels, lightweight protective materials (e.g. energy-absorbing and load-attenuating foams) and thermal barrier coatings. These materials (or material systems) and the ways to process them play crucial roles in underpinning our energy and aerospace industries.
Yongle's expertise and research lies in revealing the relations between process, micro- / meso-structures, mechanical properties and performance of engineering materials and their constructed systems. He has been developing numerical and theoretical models capable of capturing multiple physical factors across different length and time scales, to understand key mechanisms and provide practical solutions to engineering problems. He is also actively involved in experimental characterisations and measurements to validate and complement the modelling of arc / laser / electron-beam welding, material response to impact loads, oxide growth induced stress, etc.
Examples of Yongle's contribution to his research fields include innovative modelling of weld dilution, tempering, inter-part opening/sliding gap distortion (and its restraint) and residual stresses in weldments, revealing small-scale mechanisms that control quasi-static and dynamic compressive behaviours of cellular materials, and understanding oxide growth stress and residual stress in thermal barrier coating systems.
Yongle's achievements in research have been demonstrated through scholarly / engineering publications and industrial projects / applications. He is the first author of 15 research papers published in leading journals and a corresponding author or a co-author of other 25 papers. His H-index is 17 according to Google Scholar. His PhD study on lightweight and energy-absorbing cellular materials constituted part of the innovative application of new techniques in X-ray imaging, for which University of Manchester was awarded Queen's Anniversary Prizes, and Yongle was selected to attend the awarding ceremony held in Buckingham Palace. One of his first-authored papers is indexed as the No. 1 on the list of most cited International Journal of Impact Engineering Articles (those published after 2017). His research findings about welding have been applied in UK nuclear energy industry to address the technical challenges associated with new nuclear manufacturing, as part of the outcome from NNUMAN and MATTEAR projects with total funding of £9M.
Yongle's expertise and research lies in revealing the relations between process, micro- / meso-structures, mechanical properties and performance of engineering materials and their constructed systems. He has been developing numerical and theoretical models capable of capturing multiple physical factors across different length and time scales, to understand key mechanisms and provide practical solutions to engineering problems. He is also actively involved in experimental characterisations and measurements to validate and complement the modelling of arc / laser / electron-beam welding, material response to impact loads, oxide growth induced stress, etc.
Examples of Yongle's contribution to his research fields include innovative modelling of weld dilution, tempering, inter-part opening/sliding gap distortion (and its restraint) and residual stresses in weldments, revealing small-scale mechanisms that control quasi-static and dynamic compressive behaviours of cellular materials, and understanding oxide growth stress and residual stress in thermal barrier coating systems.
Yongle's achievements in research have been demonstrated through scholarly / engineering publications and industrial projects / applications. He is the first author of 15 research papers published in leading journals and a corresponding author or a co-author of other 25 papers. His H-index is 17 according to Google Scholar. His PhD study on lightweight and energy-absorbing cellular materials constituted part of the innovative application of new techniques in X-ray imaging, for which University of Manchester was awarded Queen's Anniversary Prizes, and Yongle was selected to attend the awarding ceremony held in Buckingham Palace. One of his first-authored papers is indexed as the No. 1 on the list of most cited International Journal of Impact Engineering Articles (those published after 2017). His research findings about welding have been applied in UK nuclear energy industry to address the technical challenges associated with new nuclear manufacturing, as part of the outcome from NNUMAN and MATTEAR projects with total funding of £9M.
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Journal of Materials Processing Technology (2023): 118163
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Journal of Manufacturing Processes (2023): 320-332
International Journal of Fatigue (2023): 107829-107829
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