研究员
杨守峰,1994年获清华大学机械工程学士学位,1999年获清华大学材料学博士学位;1999-2000年在新加坡南洋理工大学进行博士后研究,2000-2010年在英国伦敦大学玛丽女王学院任高级讲师,2010-2023年在英国南安普顿大学和比利时鲁汶大学任讲席正教授。
长期从事增材制造研究,在多材料增材制造领域开创了新方向,取得了多项创新性成果。提出并建立微量粉末精准流动的多频率超声控制理论,发明了曼陀罗微喷嘴铺粉系列技术,创立了“模/件同生”增材制造新技术。承担包括欧盟H2020、英国EPSRC、比利时自然科学基金在内的40多项研究项目;发表学术论文200余篇,总被引超过16000次;拥有4项国际发明专利。担任8个SCI国际期刊编委;担任英国、美国等11个国家科学基金的评审专家。世界前2%终身科学影响力科学家,世界前2%年度影响力科学家。
多材料增材制造、人工智能
1. Haiyang Fan, Ann Witvrouw, Friedrich Wolf-Monheim, Rainer Souschek, Shoufeng Yang*, Effects of substrate surface treatments on hybrid manufacturing of AlSi7Mg using die casting and selective laser melting. Journal of Materials Sciences and Technology. 2023, VOL.156,p.142-156.
2. Qimin Shi*, Raya Mertens, Sasan Dadbakhsh, Guichuan Li, Shoufeng Yang*. In-situ formation of particle reinforced Aluminium matrix composites by laser powder bed fusion of Fe2O3/AlSi12 powder mixture using laser melting/remelting strategy. JOURNAL OF MATERIALS PROCESSING TECHNOLOGY. 2022, VOL.299,117357.
3. Lei Yang, Chunze Yan∗, Wenchao Cao, Zhufeng Liu, Bo Song, Shifeng Wen, Cong Zhang, Yusheng Shi, Shoufeng Yang∗. Compression-compression fatigue behaviour of gyroid-type triply periodic minimal surface porous structures fabricated by selective laser melting. ACTA MATERIALIA.2019,VOL.181, p.49-66.
4. Quanquan Han*, Yuchen Gu, Rossitza Setchi*, Franck Lacan, Richard Johnston, Sam L. Evans, Shoufeng Yang*. Additive manufacturing of high-strength crack-free Ni-based Hastelloy X superalloy. ADDITIVE MANUFACTURING.2019,VOL.30,100919.
5. Lei Yang, Chunze Yan*, Haiyang Fan, Zhaoqing Li, Chao Cai, Peng Chen, Yusheng Shi, Shoufeng Yang*. Investigation on the orientation dependence of elastic response in Gyroid cellular structures. JOURNAL OF THE MECHANICAL BEHAVIOR OF BIOMEDICAL MATERIALS. 2019,VOL.90,p.73-85.
6. Mohammad Vaezi, Srisit Chianrabutra, Brian Mellor, Shoufeng Yang*. Multiple material additive manufacturing – Part 1: a review. Virtual and Physical Prototyping. 2013,VOL.8,NO.1, p.19-50.
7. Shoufeng Yang, Kah-Fai Leong, Zhaohui Du, Chee-Kai Chua. The design of scaffolds for use in tissue engineering. Part II. Rapid prototyping techniques. TISSUE ENGINEERING. 2002,VOL.8,NO.1,p.1-11.
8. M Vaezi, G Zhong, H Kalami, S Yang*. Extrusion-based 3D printing technologies for 3D scaffold engineering, Functional 3D Tissue Engineering Scaffolds, Materials. Woodhead Publishing. 2018,p.235-254.
9. MJ Starink, X Cheng, S Yang, Hardening of pure metals by high-pressure torsion: A physically based model employing volume-averaged defect evolutions, ACTA MATERIALIA 2013,61 (1), 183-192
10. YM Zhang, S Yang, JRG Evans*. Revisiting Hume-Rothery’s Rules with artificial neural networks ACTA MATERIALIA 2008, 56 (5), 1094-1105
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