个人简历
本人的研究领域集中在轻质材料模拟以及高性能大型薄壁构件精确成形技术方面。具体研究方向包括:轻量化材料加工成形工艺开发与应用(蠕变时效,旋压,冷/温/热冲压等)
先进铝、钛合金微观及宏观特征表征,多尺度材料本构模型构建
残余应力表征与分析(加工成型及结构应用领域)
金属材料弹塑性力学、结构力学分析与建模
先进复合材料模具设计与制造
本人在浙江大学机械工程学院获得本科与硕士学位。后赴英国帝国理工学院攻读博士学位,师从金属材料模拟与成形领域著名学者,英国皇家工程院院士林建国 (Jianguo Lin) 教授。近年来在先进铝合金材料-成形-应用一体化模拟与预测以及大型壁板件精确成形工艺开发方面取得了系列成果,解决了多类航空航天用高强铝合金(第三代铝锂等)成形过程形性演变精确预测与控制的难题,并实现了其在工业生产中的应用,为巴西航空、中航工业集团、中车集团等提供关键技术支撑。
近五年发表论文 20 余篇,在塑性成形领域顶级期刊 Int. J. Plasticity, Int. J. Mach. Tool. Manu. 及材料表征模拟领域知名期刊 Mat. & Des., Mat. Sci. Eng. A 等有 14 篇 1 作/通讯作者论文发表。获得第五届新成形技术国际会议(ICNFT 2018,Germany)最佳论文奖。
教育经历
[1] 2014.11-2018.2英国帝国理工学院 | 机械工程 | 博士学位 | 博士研究生毕业
[2] 2011.9-2014.3
浙江大学 | 机械工程 | Master's Degree | 硕士研究生毕业
[3] 2007.9-2011.7
浙江大学 | 机械工程 | Bachelor's Degree | 大学本科毕业
工作经历
[1] 2019.9-至今北京航空航天大学 |机械工程及自动化学院 |副教授
[2] 2018.2-2019.9
Imperial College London |Department of Mechanical Engineering |Research Associate
[3] 2016.11-2018.1
Imperial College London |Department of Mechanical Engineering |Research Assistant
研究方向
[1] 轻量化材料加工成形工艺开发与应用(蠕变时效,旋压,冷/温/热冲压等)[2] 先进铝、钛合金微观及宏观特征表征,多尺度材料本构模型构建
[3] 先进复合材料模具设计与制造
[4] 残余应力表征与分析(加工成型及结构应用领域)
[5] 金属材料弹塑性力学、结构力学分析与建模
研究领域
当前位置: 李勇-中文主页 >> 研究领域本人的研究领域集中在轻质材料模拟以及高性能大型薄壁构件精确成形技术方面。具体研究方向包括:
轻量化材料加工成形工艺开发与应用(蠕变时效,旋压,冷/温/热冲压等)
先进铝、钛合金微观及宏观特征表征,多尺度材料本构模型构建
残余应力表征与分析(加工成型及结构应用领域)
金属材料弹塑性力学、结构力学分析与建模
先进复合材料模具设计与制造
开授课程
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科研项目
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论文
当前位置: 李勇-中文主页 >> 论文[1] F. Lyu, Y. Li*, Z. Shi* et al. Stress and temperature dependence of stress relaxation ageing behaviour of an Al–Zn–Mg alloy. Mater Sci Eng A, 773(2020): 138859.
[2] Y. Li, Z. Shi and J. Lin. Experiments and modelling of yield strength and work hardening behaviour of Al-Cu-Li alloy during artificial ageing. Materials Design, 183 (2019): 108121..2020
[3] Y. Li, Z. Shi, Q. Rong, W. Zhou and J. Lin. Effect of pin arrangement on formed shape with sparse multi-point flexible tool for creep age forming. International Journal of Machine Tools and Manufacture, 140 (2019): 48-61. .2020
[4] W. Zhou, Y. Li, Z. Shi et al. Analytical solutions for elastic buckling analysis of stiffened panels subjected to pure bending. Int J Mech Sci, 161(2019): 105024.
[5] Q. Rong, Y. Li, Z. Shi et al. Experimental investigations of stress-relaxation ageing behaviour of AA6082. Mat Sci Eng A, 750(2019): 108-116.
[6] F. Lyu, Y. Li*, X. Huang et al. An investigation of creep age forming of AA7B04 stiffened plates: Experiments and FE modelling. J Manuf Process, 37 (2019): 232-241.
[7] Y. Li, Z. Shao, Q. Rong et al. Development of similarity-based scaling criterial for creep age forming of large/extra-large panels. Int J Adv Manuf Technol, 101(2019): 1537-1551.
[8] Y. Li, Q. Rong, Z. Shi, et al. An accelerated springback compensation method for creep age forming. Int J Adv Manuf Technol, 102(2019): 121-134.
[9] Y. Li, Y. L. Yang, Q. Rong et al. Effect of initial tempers on mechanical properties of creep-aged AA2050. Manuf Review, 6 (2019): 8.
[10] Y. Li, Z. Shi, J. Lin, Y. L. Yang, P. Saillard and R. Said. Effect of machining-induced residual stress on springback of creep age formed AA2050 plates with asymmetric creep-ageing behaviour. International Journal of Machine Tools and Manufacture, 132 (2018): 113-122. .2020
[11] Y. Li, Z. Shi, J. Lin et al. FE simulation of asymmetric creep-ageing behaviour of AA2050 and its application to creep age forming. Int J Mech Sci, 140 (2018): 228-240.
[12] Y. Li, Z. Shi, J. Lin, Y. L. Yang and Q. Rong. Extended application of a unified creep-ageing constitutive model to multistep heat treatment of aluminium alloys. Materials Design, 122 (2017): 422-432. .2020
[13] Y. Li, Z. Shi, J. Li, Y. L. Yang et al.. Modelling of asymmetric tension and compression creep-ageing behaviour of naturally aged Al-Cu-Li alloy. International Journal of Plasticity, 89 (2017): 130-149. .2020
[14] Y. LI, Z. Shi, J. Lin et al. Experimental investigation of tension and compression creep-ageing behaviour of AA2050 with different initial tempers. Mater Sci Eng A, 657 (2016): 299–308.
[15] Y. LI, J. Wang, G. Lu et al. A numerical study of the effects of roller paths on dimensional precision in die-less spinning of sheet metal. J Zhejiang Univ Sci A, 15(6) (2014): 432-446.
[16] Y. LI, J. Wang, G. Lu et al. Three-dimensional finite element analysis of effects of roller intervals on tool forces and wall thickness in stagger spinning of thin-walled tube. P I Mech Eng C, 227(7) (2013): 1429-1440.
[17] 潘国军,李勇,王进,陆国栋. 普通旋压工艺及旋轮轨迹研究现状与发展. 浙江大学学报 (工学版) 49 (4): 644-654.
[18] Y. Li, Y. Yang, Q. Rong et al. Effect of initial temper on mechanical properties of creep-aged Al-Cu-Li alloy AA2050. MATEC Web of Conf (EDP Sci), 190 (2018): 12006.
[19] Y. Li, Z. Shi, Y. Yang et al. Experimental and numerical study of creep age forming of AA2050 plates with sparse multi-point flexible forming tool. Procedia Manuf, 15 (2018): 1016-1023.
[20] Y. Li, Z. Shi, Y. Yang et al. Effects of asymmetric creep-ageing behaviour on springback of AA2050-T34 after creep age forming. Procedia Eng, 207 (2017): 287-292.
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荣誉及奖励
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