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单爱党

教授
所属二级机构:高性能金属材料研究所
通讯地址:材料学院
电子邮箱:adshan@sjtu.edu.cn
办公电话:021-34202767
主要从事钢铁为主的高性能金属结构材料的强韧化机理、强韧化技术和应用技术研究。挖掘金属结构材料性能潜力,开发研制面向未来的新型高强韧、高性能金属及合金材料并成功应用在海洋船舶、航天军工和重型机械等领域;主持及参加多项国家及企业的重大项目与重大课题的立项、评审等工作,学术兼职包括ISO(国际标准学会)TC186技术委员会主席、上海金属学会常务理事及上海有色金属学会副理事长等。相关研究工作获得国家、地方及企业资助项目 68项(包括: 支持科技部863计划子课题1项、科技部重大专项子课题1项、自然基金面上项目1项和千万级校地/企合作项目3项)。相关研究成果发表国内外论文200余篇,SCI收录120余篇,SCI引用次数1000余次。申请及授权国家发明专利80余项。获冶金科学技术奖一等奖、国家教委科技进步一等奖一项、上海市科技进步二等奖一项、上海交通大学教学成果特等奖等。
教育经历
  • 1988年-1992年,上海交通大学 材料科学专业 博士
  • 1985年-1988年,上海交通大学 材料科学专业 硕士
  • 1981年-1985年,上海交通大学 材料科学与工程专业 学士
工作经历
  • 2015年-2022年,上海交通大学材料科学与工程学院,党委书记
  • 2014年-2019年,上海交通大学云南(大理)研究院院长,院长
  • 2021年-1970年,校区建设副总指挥、南通基地专项工作组,组长
  • 2012年-2015年,上海交通大学环境科学与工程学院,党委书记
  • 2005年-2007年,上海交通大学高温材料及高温测试教育部重点实验室,主任
  • 2007年-2009年,陕西渭南市临渭区,常委、副区长(挂职)
  • 2005年-2007年,上海交通大学材料科学与工程学院,常务副院长
  • 2001年-2003年,日本东北工业技术研究所,特别研究员
  • 1999年-1970年,上海交通大学材料科学与工程学院,教授
  • 1997年-1999年,韩国科学技术研究院,高级访问学者
研究方向
  • 高性能新材料的设计、开发与应用;
  • 微纳结构高强度材料制备、强韧化机制和力学行为
  • 耐热耐高温合金;
科研项目
  • 难降解高浓度有机废水深度氧化设备大型化关键技术研究(上海市配套)
  • 羽绒品质的人工智能检测关键技术及其应用研究
  • 超大挖铲斗关键制造技术研究及产业化(300吨矿挖铲斗关键部件材料分析及关键部件试制)
  • 超大口径平衡炮大型发射装置用特种合金材料研发
  • 400吨超大挖机高耐磨斗齿及锁定机构技术开发及国产化制造
  • 航天军工用先进超高强特种合金钢棒材制造技术研究
  • 超大挖铲斗关键制造技术研究及产业化(阶段一:400吨矿挖正铲铲斗耐磨件材料分析与齿尖试制)
  • 高端装备紧固件用先进高强钢的强韧化机理研究
  • 先进超高强度铜合金的开发及组织与性能调控工艺和强韧化机理研究
  • 原奥组织超细化及成分梯度化的快速加热工艺研究
  • 共建“上海交通大学-建水紫陶联合研究中心 ”协议
  • 高性能纳米孪晶镍铝青铜合金的制备工艺开发
  • 2.5GPa超级高强钢板的开发及其强韧化机理研究
  • 共建(上海交通大学-苏州黄桥新材料联合研究中心)协议
  • 热轧先进高强钢的“一钢多材”热处理工艺研究
  • 上海交大-广东超华科技电子材料联合研究中心
  • 服役后GH6783螺栓组织分析与寿命评估
  • 管状类试件试制用机械疲劳裂纹缺陷嵌块试制
  • 镍包钢基材的镀层性能与工艺模型研究
  • CDRM密封焊缝基础堆焊测试样件理化检验
  • 垃圾焚烧炉排性能检测及新型复合炉排片的研制
  • 商用车曲轴用钢微观组织对旋转弯曲疲劳性能影响的研究
  • 共建上海交通大学-山东公用同太环保环境材料联合实验室
  • Ni-Co-Cr合金的制备 产学研合作项目
  • 上海交大-南京江北新区新材料工程化研究中心
  • 高强度钢板延迟开裂试验
  • 3.5Ni低温钢厚壁锻件强韧性化机理研究
  • 汽轮机用Fe-Ni-Co高温合金均匀化处理工艺研究
  • 高强度钢板延迟开裂试验
  • 生活垃圾焚烧炉炉排材料及试制炉排片
  • 生活垃圾焚烧炉炉排耐用性测试
  • 国产化炉排片试制材料耐用性测试
  • 汽轮机再热门紧固件用特种合金材料的组织调控和高温力学性能研究
  • 高强度钢板耐延迟开裂性能试验
  • 1000MPa级高强度钢板耐延迟开裂性能测试
  • 宝钢B425NT不锈钢的热疲劳测试及性能评定
  • 新型薄壁辐射管材120合金蠕变性能测试
  • 高强韧超细晶TWIP钢的制备技术研发及变形机制研究
  • 高压共轨燃油喷射系统材料及其性能研究
  • 上海交通大学云南(大理)研究院建设
  • 承担ISO/TC186餐刀具和餐桌及装饰用中空金属器皿技术委员会主席工作
  • 奥氏体稳定性对热轧先进高强钢性能的影响规律研究
  • 钛合金微创手术器械材料改性
  • 冷喷涂钛及钛钢复合板变形机制研究
  • 排气歧管用不锈钢的热疲劳测试方法研究及性能评定
  • 磷化废水综合处理
  • 承担ISO/TC186餐刀具和餐桌及装饰用中空金属器皿技术委员会主席工作
  • 低偏析结构长期稳定的镍基单晶高温合金设计(08DJ1400402)
  • 耐火耐候钢中稀贵金属元素的替代研究
  • 磁性材料研究
  • 异步轧制导致的切应变及其对钢铁组织性能的影响
  • 稀土磁性材料研究
  • 车用超高强钢板延迟断裂的评估和机理
  • 地铁公交车辆进口制动块国产化研制和开发
  • 钢铁材料表层成分研究
  • Ф130实验轧机异步轧制装置的研制
  • 稀土永磁性材料研究和开发
  • 用纳米压痕和微刮擦技术测量薄膜杨氏模量附着力
  • 超超临界汽轮机新型高温叶片材料微观组织研究
  • 2A14铝合金TIG自动焊接头性能测试与断口分析
  • 金属间化合物表面纳米化机理与工艺研究
  • 金属材料表面纳米化、冷气动力喷涂协作研究
  • 奥氏体高温合金氮化及轴瓦结合层镀银工艺研究
  • 针对良种高温合金材料的应用性能研究和人员培训
  • 难熔金属硅化物高耐磨、抗氧化、低摩擦多功能涂层新材料及其优质涂层激光熔覆技术
  • Al-Li合金组织与力学电学性能分析研究
研究情况

主要从事钢铁为主的高性能金属结构材料的强韧化机理、强韧化技术和应用技术研究。挖掘金属结构材料性能潜力,开发研制面向未来的新型高强韧、高性能金属及合金材料并成功应用在海洋船舶、航天军工和重型机械等领域;主持及参加多项国家及企业的重大项目与重大课题的立项、评审等工作,学术兼职包括ISO(国际标准学会)TC186技术委员会主席、上海金属学会常务理事及上海有色金属学会副理事长等。相关研究工作获得国家、地方及企业资助项目 68项(包括: 支持科技部863计划子课题1项、科技部重大专项子课题1项、自然基金面上项目1项和千万级校地/企合作项目3项)。相关研究成果发表国内外论文200余篇,SCI收录120余篇,SCI引用次数1000余次。申请及授权国家发明专利80余项。获冶金科学技术奖一等奖、国家教委科技进步一等奖一项、上海市科技进步二等奖一项、上海交通大学教学成果特等奖等。

论文信息
  • [1] Jiantao Fan, Shuo Ma, Liming Fu*, Pengfei Yu, Gong Li*, Mao Wen, Aidang Shan*, Partial recrystallization of Ni42Fe30Cr12Mn8Al5Ti3 complex-concentrated alloy to achieve enhanced strength-ductility combination, Journal of Alloys and Compounds 1020 (2025) 179412.
  • [2] Tao Fu, Liming Fu*, Dongyang Qin, Cong Ye, Shuo Ma, Mao Wen, Aidang Shan*, Effect of annealing temperature on microstructure and mechanical properties of a heavy cold-rolled Custom 465 maraging stainless steel, Materials Science and Engineering: A 936 (2025) 148443.
  • [3] Dongyang Qin, Tao Fu, Liming Fu*, Cong Ye, Shuo Ma*, Aidang Shan*, Enhancement of strength–ductility in a martensitic stainless steel via heavy warm–rolling and tempering–partitioning treatment, Journal of Materials Science 60(32) (2025) 14102-14123.
  • [4] Tian Genqi, C. U. I. Zhengqiang, S. H. I. Chenyi, M. A. O. Bo, Zhao Shuangqun, F. U. Liming, Wang Yanfeng, Shan Aidang, Research and Application Progress of Ferritic Heat-resistant Steels for Boilers, Journal of Chinese Society of Power Engineering 45(3) (2025) 334-346.
  • [5] Kesen Wang, Fangzhou Qi, Deyun Liu, Shuo Ma*, Liming Fu*, Aidang Shan*, Achieving excellent mechanical and electrical properties in Al-Si alloy via heterogeneous lamella structure with high-density nanoprecipitates, Materials Science and Engineering: A 924 (2025) 147778.
  • [6] Yutao Wang, Limng Fu*, Shuo Ma*, Wei Wang, Aidang Shan*, A 2.6 GPa Ultra-Strong Steel with Ultrafine Lamellar Structure Produced by Heavy Warm Rolling, Acta Metallurgica Sinica (English Letters) 38(9) (2025) 1613-1627.
  • [7] Xiaofeng Wu, Yao Lu, Mingjian Wang, Mao Wen, Liming Fu*, Shuo Ma, Aidang Shan*, Comparative study the effect of β-phase ratio on mechanical properties of Ti-4Al-2.5V-1.5Fe and Ti-6Al-4V alloys by heavy warm rolling followed by annealing, Journal of Alloys and Compounds 1033 (2025) 181274.
  • [8] Xiaobin Yang, Deyun Liu, Siyu Kuang, Kai Yin, Cong Ye, Yiheng Dong, Jiang Ju, Zhao Shen, Shuo Ma*, Liming Fu*, Aidang Shan*, Outstanding strength-ductility combination in NAB alloy via coarse Widmanstätten α phases and ultrafine (α+κ) lamella structure, Materials Science and Engineering: A 920 (2025) 147565.
  • [9] Jiantao Fan, Tao Fu, Shuo Ma, Liming Fu*, Mao Wen, Aidang Shan*, Study on the strain partitioning behavior in heterostructured complex-concentrated alloy via high-resolution digital image correlation, Materials Science and Engineering: A 908 (2024) 146809.
  • [10] Xinbo Ji, Mingjian Jian, Huakai Zhang, Liming Fu*, Liangliang Jian, Yang Chen, Guangcheng Zhang, Aidang Shan*, Effects of prior austenite refinement on microstructure and property of ultra-fine lath martensitic steel, Materials Letters 358 (2024) 135816.
  • [11] Shuo Ma, Zhao Shen*, Xiaobin Yang, Jiang Ju, Xiaoqin Zeng, Liming Fu*, Aidang Shan*, Observation of the formation of CuAl2O4 by the direct consumption of Al2O3 in an NAB alloy at elevated temperature, Corrosion Science 232 (2024) 112026.
  • [12] Genqi Tian, Yuantao Xu, Liming Fu*, Bo Mao, Shuangqun Zhao, Yanfeng Wang, Aidang Shan*, Effect of long-term aging on the microstructure evolution and fracture mechanism of 9% Cr steels, Materials Science and Engineering: A 893 (2024) 146133.
  • [13] Yuxuan Liu, Shichang Liu, Liming Fu*, Huanrong Wang, Wei Wang, Mao Wen, Aidang Shan*, Achieving Fine-Grained Microstructure and Superior Mechanical Property in a Plain Low-Carbon Steel Using Heavy Cold Rolling Combined with Short-Time Heat Treatment, Acta Metallurgica Sinica (English Letters) 36(10) (2023) 1719-1734.
  • [14] Shuo Ma, Xuan Li, Xiaobin Yang, Liming Fu*, Lei Liu, Mingxu Xia, Aidang Shan*, Effect of Annealing Temperature on Microstructure and Properties of a Heavy Warm Rolled Nickel Aluminum Bronze Alloy, Metallurgical and Materials Transactions A 54(1) (2023) 293-311.
  • [15] Shuo Ma, Xiaobin Yang, Liming Fu*, Aidang Shan*, Achieving high strength-ductility synergy in nickel aluminum bronze alloy via a quenching-aging-tempering heat treatment, Materials Letters 333 (2023) 133661.
  • [16] Shuo Ma, Cong Ye, Xiaobin Yang, Liming Fu*, Jiantao Fan, Jian Wang, Aidang Shan*, Microstructure evolution during the heavy warm rolling of a nickel aluminum bronze, Materials Science and Engineering: A 883 (2023) 145458.
  • [17] Shuo Ma, Qing Zhang, Jiantao Fan, Liming Fu*, Mao Wen, Manping Liu, Aidang Shan*, Excellent combination of strength, conductivity and ductility realized in a dilute Cu-Cr-Zr alloy by coherent nanoprecipitates, Materials Science and Engineering: A 885 (2023) 145614.
  • [18] Genqi Tian, Bo Mao, Yuantao Xu, Liming Fu*, Zuogui Zhang, Yanfeng Wang, Aidang Shan*, Investigation on gradual degradation of mechanical property and microstructure in 9% Cr heat-resistant steels via interrupted creep test, Journal of Materials Science 58(10) (2023) 4637-4656.
  • [19] Jian Wang, Jiantao Fan, Liming Fu*, Aidang Shan*, Improved Mechanical Properties in Carbon Martensitic Steel Achieved by Continuous Carbon Gradient and Multilayered Structure, Acta Metallurgica Sinica (English Letters) 36(12) (2023) 2069-2078.
  • [20] Jian Wang, Qing Tao, Jiantao Fan, Liming Fu*, Aidang Shan*, Enhanced mechanical properties of a high-carbon martensite steel processed by heavy warm rolling and tempering, Materials Science and Engineering: A 872 (2023) 144958.
  • [21] Jiantao Fan, Liming Fu*, Yanle Sun, Feng Xu, Yi Ding, Mao Wen, Aidang Shan*, Unveiling the precipitation behavior and mechanical properties of Co-free Ni47-xFe30Cr12Mn8AlxTi3 high-entropy alloys, Journal of Materials Science & Technology 118 (2022) 25-34.
  • [22] Jiantao Fan, Xinbo Ji, Liming Fu*, Jian Wang, Shuo Ma, Yanle Sun, Mao Wen, Aidang Shan*, Achieving exceptional strength-ductility synergy in a complex-concentrated alloy via architected heterogeneous grains and nano-sized precipitates, International Journal of Plasticity 157 (2022) 103398.
  • [23] Xinbo Ji, Liming Fu*, Han Zheng, Jian Wang, Hengchang Lu, Wei Wang, Mao Wen, Han Dong, Aidang Shan*, Strengthening of Ultrafine Lamellar-Structured Martensite Steel via Tempering-Induced Nanoprecipitation, Acta Metallurgica Sinica (English Letters) 35(11) (2022) 1812-1824.
  • [24] Xin-bo Ji, Si-xin Zhao, Li-ming Fu*, Jian Peng, Jia-qiang Gao, Da-jiang Yu, Zong-ze Huang, Ai-dang Shan*, High cycle rotating bending fatigue performance and fracture behavior in a pearlite–ferrite dual-phase steel, Journal of Iron and Steel Research International 29(3) (2022) 519-528.
  • [25] Jian Wang, Qing Tao, Han Zheng, Liming Fu*, Aidang Shan*, Microstructure and mechanical properties of a continuous carbon-gradient sheet steel, Materials Letters 308 (2022) 131059.
  • [26] Xinbo Ji, Liming Fu*, Han Zheng, Jian Peng, Wei Wang, Aidang Shan*, Ultrafine lamellar microstructure with greatly enhanced strength and ductility of martensite steel via heavily warm rolling of metastable austenite, Materials Science and Engineering: A 826 (2021) 141977.
  • [27] Han Zheng, Liming Fu*, Xinbo Ji, Yi Ding, Wei Wang, Mao Wen, Aidang Shan*, Microstructural evolution and mechanical property of ultrafine-grained pearlitic steel by cold rolling: The influence of cementite morphology, Materials Science and Engineering: A 824 (2021) 141860.
  • [28] Shuo Ma, Liming Fu*, Aidang Shan*, Enhancing strength-ductility of the aluminum bronze alloy by generating high-density ultrafine annealing twins, Materials Characterization 177 (2021) 111057.
  • [29] Jian Peng*, Huashan Liu, Liming Fu, Aidang Shan*, Multi-principal-element products enhancing Au–Sn-bonded joints, Journal of Alloys and Compounds 852 (2021) 157015.
  • [30] Jian Peng*, Liming Fu, Yanle Sun, Ziyong Li, Xinbo Ji, Aidang Shan*, Thermal expansion-adjustable carbon-doped FeCoCrNiMn high-entropy alloys for electronic packaging, Journal of Materials Science: Materials in Electronics 31(21) (2020) 19366-19380.
  • [31] Han Zheng, Liming Fu*, Xinbo Ji, Ziyong Li, Yanle Sun, Sixin Zhao, Wei Wang, Aidang Shan*, Granular Carbides-Assisted Ultrafine-Ferrite Fabrication in the Pearlitic Steel Without Severe Plastic Deformation and Annealing, Acta Metallurgica Sinica (English Letters) 33(12) (2020) 1645-1656.
  • [32] 马硕, 龚安华, 付立铭, 单爱党, 温轧高强韧镍铝青铜合金的组织与力学性能, 中国有色金属学报 (2020).
  • [33] Ziyong Li, Liming Fu*, Jian Peng, Han Zheng, Xinbo Ji, Yanle Sun, Shuo Ma, Aidang Shan*, Improving mechanical properties of an FCC high-entropy alloy by γ′ and B2 precipitates strengthening, Materials Characterization 159 (2020) 109989.
  • [34] Shuo Ma, Liming Fu*, Xuedong Ma, Aidang Shan*, Ultra-strong nickel aluminum bronze alloys with ultrafine microstructures by continuous heavy hot rolling, Materials Characterization 158 (2019) 109986.
  • [35] Han Zheng, Liming Fu*, Ziyong Li, Xinbo Ji, Qijiang Wang, Wei Wang, Aidang Shan*, An ultrahigh-strength steel produced by heavy warm rolling of the metastable austenite, Materials Today Communications 21 (2019) 100646.
  • [36] Jian Peng, Ziyong Li, Liming Fu*, Xinbo Ji, Zhuorui Pang, Aidang Shan*, Carbide precipitation strengthening in fine-grained carbon-doped FeCoCrNiMn high entropy alloy, Journal of Alloys and Compounds 803 (2019) 491-498.
  • [37] Ziyong Li, Liming Fu*, Han Zheng, Rui Yu, Lifeng Lv, Yanle Sun, Xianping Dong, Aidang Shan*, Effect of Annealing Temperature on Microstructure and Mechanical Properties of a Severe Cold-Rolled FeCoCrNiMn High-Entropy Alloy, Metallurgical and Materials Transactions A 50(7) (2019) 3223-3237.
  • [38] Lifeng Lv, Liming Fu*, Yanle Sun, Aidang Shan*, An investigation on the microstructure and mechanical properties in an ultrafine lamellar martensitic steel processed by heavy warm rolling and tempering, Materials Science and Engineering: A 731 (2018) 369-376.
  • [39] Yanle Sun, Liming Fu, Zhiqiang Fu, Aidang Shan*, Enrique J. Lavernia*, Enhanced thermal stability and ductility in a nanostructured Ni-based alloy, Scripta Materialia 141 (2017) 1-5.
  • [40] Lifeng Lv, Liming Fu, Sohail Ahmad, Aidang Shan*, Effect of heavy warm rolling on microstructures and mechanical properties of AISI 4140 steel, Materials Science and Engineering: A 704 (2017) 469-479.
  • [41] Zhiming Li*, Xiaoping Yang, Junbao Zhang, Aidang Shan*, Interfacial Mechanical Behavior and Electrochemical Corrosion Characteristics of Cold-Sprayed and Hot-Rolled Titanium/Stainless-Steel Couples Advanced Engineering Materials 18(7) (2016) 1240-1249.
  • [42] Yanle Sun, Songqian Xu, Aidang Shan*, Effects of annealing on microstructure and mechanical properties of nano-grained Ni-based alloy produced by severe cold rolling, Materials Science and Engineering: A 641 (2015) 181-188.
  • [43] Zhiming Li, Ping Ou, Nairong Sun, Zhigang Li, Aidang Shan*, Face-centered tetragonal titanium hydrides in fine-grained commercial pure (grade 2) titanium, Materials Letters 105 (2013) 16-19.
  • [44] Zhiming Li, Liming Fu, Bin Fu, Aidang Shan*, Yield point elongation in fine-grained titanium, Materials Letters 96 (2013) 1-4.
  • [45] Zhiming Li, Liming Fu, Bin Fu, Aidang Shan*, Effects of annealing on microstructure and mechanical properties of nano-grained titanium produced by combination of asymmetric and symmetric rolling, Materials Science and Engineering: A 558 (2012) 309-318.
  • [46] Liming Fu, Likun Fan, Zhigang Li, Nairong Sun, Huanrong Wang, Wei Wang, Aidang Shan*, Yield behaviour associated with stacking faults in a high-temperature annealed ultra-low carbon high manganese steel, Materials Science and Engineering: A 582 (2013) 126-133.
  • [47] Shengzhi Li, Zumrat Eliniyaz, Xianping Dong, Yinzhong Shen, Lanting Zhang, Aidang Shan*, Effect of stress on microstructural evolution and mechanical properties of 12Cr3W3Co steel during aging and short-term creep, Materials Science and Engineering: A 580 (2013) 51-57.
  • [48] Shengzhi Li, Zumrat Eliniyaz, Feng Sun, Yinzhong Shen, Lanting Zhang, Aidang Shan*, Effect of thermo-mechanical treatment on microstructure and mechanical properties of P92 heat resistant steel, Materials Science and Engineering: A 559 (2013) 882-888.
  • [49] Shengzhi Li*, Zumrat Eliniyaz, Lanting Zhang, Feng Sun, Yinzhong Shen, Aidang Shan*, Microstructural evolution of delta ferrite in SAVE12 steel under heat treatment and short-term creep, Materials Characterization 73 (2012) 144-152.
  • [50] Liming Fu, Zhiming Li, Huanrong Wang, Wei Wang, Aidang Shan*, Lüders-like deformation induced by delta-ferrite-assisted martensitic transformation in a dual-phase high-manganese steel, Scripta Materialia 67(3) (2012) 297-300.
  • [51] Z. J. Miao, A. D. Shan*, J. Lu, H. W. Song, Microstructure and solidification behaviour characterisation of phosphorus and boron doped IN718 superalloy, Materials Science and Technology 28(3) (2012) 334-341.
  • [52] Z. J. Miao, A. D. Shan*, J. Lu, H. W. Song, Segregation and diffusion characterisation in two-stage homogenisation of conventional superalloy, Materials Science and Technology 27(10) (2011) 1551-1557.
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