钱凌云
机械装备与控制工程系
qianly@ustb.edu.cn
010-62334197
机电楼810
- 学 位:博士
- 所在系所:机械装备与控制工程系
- 行政职务:无
- 办公地点:机电楼810
- 办公电话:010-62334197
- 电子邮箱:qianly@ustb.edu.cn
- 科研方向:金属韧性损伤断裂、高性能轻量化成形理论及技术、多尺度建模仿真
本科生课程:塑性加工技术、工程材料的力学行为
研究生课程:塑性加工原理
教育经历:
2012.09-2016.12 清华大学机械工程系 工学博士
2015.04-2016.01 麻省理工学院机械工程系, 访问学生
2013.12-2014.01 韩国高等科学技术学院机械工程系 访问学生
2009.09-2013.05 合肥工业大学材料科学与工程学院 工学硕士
2005.09-2009.06 合肥工业大学材料科学与工程学院 工学学士
工作经历:
2017.07-2019.06 集团 大阳城官网 教师博士后
2017.07-2022.06 集团 大阳城官网 讲师
2022.07-至今 集团 大阳城官网 副教授
代表性论著:
[1]Xitong Li, Lingyun Qian*, Jingdong Sun, Wanting Ji, Nanyang Zhu, Chaoyang Sun. A non-sequential isothermal local-loading forming process for large-scale rib-web components, Journal of Manufacturing Processes, 2022, 79(5):666-677.
[2]Lingyun Qian*, Wanting Ji, Chaoyang Sun, Gang Fang, Junhe Lian. Prediction of edge fracture during hole-flanging of advanced high-strength steel considering blanking pre-damage, Engineering Fracture Mechanics, 2021, 248:107721.
[3]Xitong Li, Lingyun Qian*, Chaoyang Sun*, Weipeng Ning. The effect of loading mode on isothermal local loading forming of magnesium alloy rib-web component, The International Journal of Advanced Manufacturing Technology, 2021, 114(7):2485–2497.
[4]Zexing Su, Chaoyang Sun*, Mingjia Wang, Lingyun Qian*, Xintong Li. Modeling of microstructure evolution of AZ80 magnesium alloy during hot working process using a unified internal state variable method, Journal of Magnesium and Alloys, 2022,10(1):281-294.
[5]钱凌云*,纪婉婷,王小灿,孙朝阳,马腾云,不同应力状态下的高强钢板断裂机理及预测,机械工程学报,2020,56(24):72-80.
[6]Yun Cai, Chaoyang Sun*, Yulan Li*, Shenyang Hu, Nanyang Zhu, Erin I Barker, Lingyun Qian. Phase field modeling of discontinuous dynamic recrystallization in hot deformation of magnesium alloys, International Journal of Plasticity, 2020, 133:102773.
[7]钱凌云*,马腾云,安鹏,纪婉婷,孙朝阳,金属薄板面内压剪变形的损伤断裂行为,工程科学学报,2021,43(02):263-272.
[8]徐宁宁,孙朝阳*,钱凌云,倪克志,蔡旺,镁合金板形件扭-挤成形载荷的主应力法求解模型,机械工程学报,2021,57(04):73-82.
[9]Feifan Li, Gang Fang*, Lingyun Qian. Forming limit analysis of Mg-2Zn-1.2Al-0.2Ca-0.2RE alloy sheet using ductile fracture models, International Journal of Damage Mechanics, 2020, 29(8):1181-1198.
[10]Dehao Qin, Mingjia Wang*, Chaoyang Sun*, Zexing Su, Lingyun Qian, Zhihui Sun. Interaction between texture evolution and dynamic recrystallization of extruded AZ80 magnesium alloy during hot deformation, Materials Science and Engineering:A, 2020, 788:139537.
[11]Mingjia Wang, Chaoyang Sun*, Mingwang Fu*, Zhongli Liu, Lingyun Qian. Study on the dynamic recrystallization mechanisms of Inconel 740 superalloy during hot deformation, Journal of Alloys and Compounds, 2020, 820:153325.
[12]Lingyun Qian*, Xiaocan Wang, Chaoyang Sun*, Anyi Dai. Correlation of Macroscopic Fracture Behavior with Microscopic Fracture Mechanism for AHSS Sheet, Materials, 2019, 12(6):900
[13]钱凌云,王梦琦,孙朝阳,王小灿,核电主管道非对称双管嘴同时挤压成形工艺,工程科学学报,2019,41(1):124-133.
[14]Lixiao Wang, Gang Fang*, Lingyun Qian. Modeling of dynamic recrystallization of magnesium alloy using cellular automata considering initial topology of grains, Materials Science and Engineering:A, 2018, 711:268-283.
[15]郭祥如,孙朝阳*,王春晖,钱凌云,刘凤仙,基于三维离散位错动力学的fcc结构单晶压缩应变率效应研究,金属学报,2018,54(09):1322-1332.
[16]Lingyun Qian, Gang Fang*, Pan Zeng, Modeling of the ductile fracture during the sheet forming of aluminum alloy considering non-associated constitutive characteristic, International Journal of Mechanical Science, 2017, 126:55-66.
[17]Lingyun Qian*, Marcelo Paredes, Tomasz Wierzbicki, Yannik Sparrer, Martin Feuerstein, Pan Zeng, Gang Fang, Experimental and numerical study on shear-punch test of 6060 T6 extruded aluminum profile, International Journal of Mechanical Science, 2016, 118:205-218.
[18]Lingyun Qian, Gang Fang*, Pan Zeng, Qian Wang, Experimental and numerical investigations into the ductile fracture during the forming of flat-rolled 5083-O aluminum alloy sheet. Journal of Materials Processing Technology, 2015, 220:264-275.
[19]Lingyun Qian, Gang Fang*, Pang Zeng, Lixiao Wang. Correction of flow stress and determination of constitutive constants for hot working of API X100 pipeline steel, International Journal of Pressure Vessels and Piping, 2015, 132:43-51.
[20]Lingyun Qian, Gang Fang*, Pang Fang. Three-dimensional finite element analysis for flying shearing of X100 hot-rolled steel plate, Procedia Engineering, 2014, 81:2488-2493.
[21]Lixiao Wang, Gang Fang*, Lingyun Qian, Sander Leeflang, Jurek Duszczyk, Jie Zhou. Forming of magnesium alloy microtubes in the fabrication of biodegradable stents, Progress in Natural Science: Materials International, 2014, 24(5):500-506.
[22]钱凌云,刘全坤*,王成勇,李亨,韩豫,厚壁圆筒自增强压力的优化分析,中国机械工程,2012,23(4):474-479.
[23]王成勇*,钱凌云,陈从升,李亨,韩豫,刘全坤,共享三维变换矩阵的模具工艺协同关键技术研究,中国机械工程,2012,23(1):102-105.
[24]钱凌云,刘全坤*,韩豫,李亨,王琬璐,基于双线性强化模型的挤压凹模自增强技术研究,机械工程学报,2011,47(12):26-31.
代表性发明专利:
[1]钱凌云,岳颖,孙朝阳,崔政国,冯英豪,马腾云,李明.一种金属切屑固态回收装置,中国发明专利,申请号:202110580632.X.
[2]李昕童,钱凌云,孙朝阳,苏泽兴,朱南阳,温璐.一种实现大型筋板件连续局部加载成形的模具及成形方法,中国发明专利,申请号:202010485701.4.
[3]钱凌云,马腾云,安鹏,孙朝阳,纪婉婷.一种板材压剪断裂分析试样用夹具及其方法和试样. 中国发明专利,专利号:CN111665127B
[4]钱凌云,李昕童,孙朝阳,苏泽兴,孙志辉,蔡贇.一种镁合金带筋筒形件强塑变挤压成形装置及方法. 中国发明专利,专利号:ZL201810287671.9
[5]钱凌云,程兰月,孙志辉,孙朝阳,李月敏.一种镁/铝合金双金属复合管成形方法及模具. 中国发明专利,专利号:ZL201811378028.3
[6]孙朝阳,李广东,钱凌云,孙志辉,李昕童.一种扭-挤复合强塑变成形方法及工艺装置. 中国发明专利,专利号:ZL201810473725.0
[7]孙朝阳,李广东,钱凌云,蔡贇,李昕童,苏泽兴,朱南洋.一种筋板类构件双侧变通道强塑变挤压方法及成形模具. 中国发明专利,专利号:ZL201810224019.2
[8]孙朝阳,徐宁宁,钱凌云,杨涛,纪婉婷. 一种高性能构件扭-挤成形的装置,中国发明专利,申请号:CN111167909A.
成果与荣誉:
重点围绕金属轻量化成形制造的塑性变形理论、损伤断裂预测和剧烈塑性变形新工艺开展研究,并将研究方法拓展到构件服役失效评估和机加工低应力制造领域。主持国家自然科学基金项目、北京市自然科学基金、中国博士后科学基金、中南大学复杂高性能制造国家重点实验室开放基金、集团学科交叉基金、中央高校基本科研业务费、企业合作课题等10余项。作为项目骨干参与国家重大研发计划课题、教育部装备联合基金、国家自然科学基金、企业重大课题等项目20余项。已发表SCI/EI论文30余篇,申请发明专利10余项。曾获集团优秀博士后、集团第一届本科生十佳导师提名奖、集团优秀本科生导师等荣誉。