韩琦男
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韩琦男博士当前作为讲师任职于南京航空航天大学(能源与动力学院强度与振动工程系)。他于2013年获得清华大学学士学位(力学)。他于2018年在施惠基教授的指导下获得清华大学博士学位(固体力学)。招生范围:一级学科名称:082500(学术学位)航空宇航科学与技术,其中 02(全日制)推进系统强度与振动工程。一级学科名称:085800(专业学位)能源动力,其中 02(全日制)强度与振动工程。教育经历清华大学, 2013-2018博士学位(固体力学)学业一等奖学金,北京市优秀毕业生博士论文:晶体取向和温度相关的镍基单晶合金微动疲劳性能研究清华大学, 2009-2013学士学位(工程力学与航天航空工程)国家励志奖学金,学业一等奖学金多次,冯氏学者奖学金项目经历自然基金项目:考虑小角晶界影响的镍基单晶高温合金微动疲劳性能研究 (国家自然科学基金青年项目,主持)基于实验表征和模拟的增材制造高温合金变形机理研究 (国家自然科学基金国际合作项目,主持)接触晶向和温度相关的镍基单晶合金微动疲劳损伤机理及寿命评估模型(国家自然科学基金,参研)镍基单晶高温合金第二晶向对疲劳性能影响机制的实验和理论研究 (国家自然科学基金,参研)扫描显微环境下高温变形原位测量关键技术及其应用研究(国家自然科学基金重点项目,参研)其他项目:特殊构型镍基单晶高温合金的疲劳和蠕变行为模拟,重大专项子课题,主持取向偏差相关的镍基单晶高温合金微动疲劳损伤机理及裂纹萌生判据研究,基本科研经费,主持xx疲劳损伤机理与寿命预测模型,重大专项子课题,主持清华大学王永志科创基金,主持专利韩琦男,施惠基,张成成,邓国坚,任远,高靖云,嵇应凤,燕尾型高温微动疲劳实验系统,已授权,2018年5月(申请号CN201721248108.8,公开号CN207423505U)韩琦男, 苏越, 施惠基, 高温原位微动疲劳实验系统,已授权,2018年6月(申请号CN201721539937.1,公开号CN207516011U)韩琦男, 杨晓林, 崔海涛, 苏越, 施惠基, 超高温原位微动疲劳实验系统(申请号CN202010167112.1,公开号CN111443103A)Qinan Han, Xiaolin Yang, et al. SYSTEM FOR ULTRA-HIGH TEMPERATURE IN-SITU FRETTING FATIGUE EXPERIMENT. US Patent. 2021. (under review)韩琦男,鲁章伦,崔海涛,张宏建,双相合金的全场晶体塑性模拟方法、装置、设备及介质,2021-12(申请号202111624193.4)韩琦男,王威,崔海涛,方健文,张宏建, 含小角晶界的双晶合金微动疲劳晶体塑性模拟方法、装置 ,2011-1(申请号202210093849.2)软件著作权韩琦男,方健文,雷旭升,崔海涛,几何必需位错密度计算与可视化软件,2021.4,登记号2021SR0564383.韩琦男,俞耀,崔海涛,各向异性材料裂尖场变量求解及可视化交互软件,2021.5.13,软著登字第7408326号学术会议Qinan Han, Jianwen Fang, Haitao Cui, Crystal orientation effect on the fretting fatigue behavior in Ni-based single crystal superalloys, The 8th International Conference on Fracture Fatigue and Wear (FFW 2020), August 26-27, 2020, Online conference.Qinan Han, Wenhui Qiu, Haitao Cui, Huiji Shi, Crystal Plasticity Simulation of the Indentation Behavior of Ni-based Single Crystal Superalloy Considering the Crystal Orientation Effect, 11th International Conference on Computational Methods (ICCM 2020), 9th-12th August 2020, Virtual Conference.Qinan Han, Shao-Shi Rui, Yue Su, Haitao Cui, Huiji Shi. The Distributions of Geometrically Necessary Dislocation under Different Crystal Orientations in Fretting Fatigue of Ni-based Single-crystal Superalloys. The 16th Asia-Pacific Conference on Fracture and Strength 2020 (APCFS2020). November 3-7 2020. Online conference.Qi-Nan Han, Hui-Ji Shi, Fretting fatigue crack formation in Ni-base single-crystal superalloys: in-situ SEM experiment and crystal plasticity analysis, 6th World Tribology Congress, 2017, Beijing, China.教学和学生指导讲授2021秋季学期《工程弹性力学》课程。研究生指导和协助指导:正在指导硕士生3名、博士生1名,研究生论文和课题均进展顺利。已毕业硕士2名,均按期毕业,其中校优秀硕士论文1名。本科生指导:指导5名基本科研能力训练、6名本科生毕业设计,学生均取得良好成绩。指导本科生大学生创新创业校级项目1项、院级自由探索项目1项。本科生班级:2021.4-,卓越工程师班班主任。与麻省理工学院(MIT), 范德堡大学(Vanderbilt University),清华大学,北京大学,东南大学,中山大学等国内外知名机构研究人员有深入交流/合作研究。研究领域
高性能合金(高温/高熵合金)的复杂疲劳损伤机理和寿命预测基于原位SEM和EBSD的材料表征单晶/多晶合金的晶体塑性多尺度有限元模拟基于数据驱动的图像视觉损伤检测、材料内秉属性理解""近期论文
Han, Q.-N., Rui, S.-S., Qiu, W., Ma, X., Su, Y., Cui, H., . . . Shi, H. (2019). Crystal orientation effect on fretting fatigue induced geometrically necessary dislocation distribution in Ni-based single-crystal superalloys. Acta Materialia.Han QN, Lei XS, . . . Cui HT, Shi HJ. (2021).Temperature-dependent fatigue response of a Fe44Mn36Co10Cr10 high entropy alloy: a coupled in-situ electron microscopy study and crystal plasticity simulation. International Journal of Fatigue.Han QN et al., In-situ SEM and EBSD study on fretting fatigue crack initiation of a directionally solidified Ni-based superalloy. Under Review.Han, Q.-N., et al.(2020). Effects of temperature and load on fretting fatigue induced geometrically necessary dislocation distribution in titanium alloy. Materials Science & Engineering A.Han, Q.-N., . . . Shi, H. (2019). Effect of crystal orientation on the indentation behaviour of Ni-based single crystal superalloy. Materials Science & Engineering A.Han Qi-Nan, Qiu Wenhui, Shang Yi-Bo, et al. (2016). In-situ SEM observation and crystal plasticity finite element simulation of fretting fatigue crack formation in Ni-base single-crystal superalloys. Tribology International.Han QN, Lei XS, . . . Cui HT, Shi HJ. (2020). In-situ Observation and Finite Element Analysis of Fretting Fatigue Crack Propagation Behavior in 1045 Steel. Chinese Journal of Aeronautics.Han, Q. N., Rui, S. S., Qiu, W., Su, Y., Ma, X., He, Z., . . . Shi, H. J. (2019). Subsurface crack formation and propagation of fretting fatigue in Ni‐based single‐crystal superalloys. Fatigue & Fracture of Engineering Materials & Structures.Su, Y., Han, Q.-N., Zhang, C.-C., Shi, H.-J., Niu, L.-S., Deng, G.-J., & Rui, S.-S. (2019). Effects of secondary orientation and temperature on the fretting fatigue behaviors of Ni-based single crystal superalloys. Tribology international, 130, 9-18.为 Journal of Materials Science,Theoretical and Applied Fracture Mechanics, Chinese Journal of Aeronautics等杂志审稿。International Conference on Environment Engineering and Energy Science (ICEEES 2021)特邀审稿人和技术委员会委员。 相关热点
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