李廷举的个人简介
李廷举,男,毕业于日本名古屋大学,博士,大连理工大学教授、博士生导师、硕士生导师。
人物经历
教育经历1992.4-1995.3 日本名古屋大学材料加工博士
1984.9-1987.7 大连工学院铸造硕士
1978.10-1982.7 大连工学院铸造学士
工作经历1998.3至今大连理工大学教授
1987.91998.3 大连理工大学助教,讲师
1982.81984.8 郑洲纺织机械厂助理工程师
学术成果
论文成果[1]Guo, Zhongkai,Jie, Jinchuan,Yue, Shipeng,Li, Tingju,Guo, Qingtao.Microstructure Evolution of Cu-15Ni-8Sn Alloy Prepared by Vertical Semi-continuous Casting with EMS[A],2018,424(1)
[2]Sun, Xinglong,Jie, Jinchuan,Li, Tingju.Effect of Electromagnetic Field on Microstructure and Properties of Cu-Cr-Co-Si Alloy[A],2018,424(1)
[3]Zhang, Yubo,Fu, Ying,Guo, Gingtao,Jie, Jinchuan,Li, Tingju.Microstructure and properties of Al-Si alloys under intermediate frequency electromagnetic field[A],2018,424(1)
[4]Jie, J. C.,Yue, S. P.,Zheng, Z. L.,Guo, Z. K.,Li, T. J..Investigation of Si content on the grain refinement of Al-Si alloy under pulsed magnetic field[A],2018,424(1)
[5]Yue, S. P.,Zheng, Z. L.,Jie, J. C.,Guo, Z. K.,Li, T. J..Investigation of refining mechanism in pure Al under pulsed magnetic field[A],2018,424(1)
[6]Zou, Qingchuan,Jie, Jinchuan,Shen, Zhangfeng,Han, Ning,Li, Tingju.A new concept of Al-Si alloy with core-shell structure as phase change materials for thermal energy storage[J],MATERIALS LETTERS,2019,237:193-196
[7]Li, Rengeng,Guo, Enyu,Chen, Zongning,Kang, Huijun,Wang, Wei,Zou, Cunlei,Li, Tingju,Wang, Tongmin.Optimization of the balance between high strength and high electrical conductivity in CuCrZr alloys through two-step cryorolling and aging[J],JOURNAL OF ALLOYS AND COMPOUNDS,2019,771:1044-1051
[8]Sun, Xinglong,Jie, Jinchuan,Wang, Pengfei,Qin, Bailiang,Ma, Xiaodong,Wang, Tongmin,Li, Tingju.Effects of Co and Si additions and cryogenic rolling on structure and properties of Cu-Cr alloys[J],MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,2019,740:165-173
[9]Zou, Qingchuan,Han, Ning,Shen, Zhangfeng,Jie, Jinchuan,Li, Tingju.Effects of AlB2/AlP phase and electromagnetic stirring on impurity B/P removal in the solidification process of Al-30Si alloy[J],SEPARATION AND PURIFICATION TECHNOLOGY,2018,207:151-157
[10]Li, Ping,Li, Ting-ju,Zhao, Jie,Pang, Sheng-jiao.Hot corrosion behaviors of Super 304H austenitic stainless steelpre-coated in Na2SO4-25%NaCl mixture salt film[J],JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL,2018,25(11):1149-1155
[11]Liu, Shichao,Jie, Jinchuan,Dong, Bowen,Guo, Zhongkai,Wang, Tongmin,Li, Tingju.Novel insight into evolution mechanism of second liquid-liquid phase separation in metastable immiscible Cu-Fe alloy[J],MATERIALS & DESIGN,2018,156:71-81
[12]Zhang, Yubo,Liu, Jiaming,Fu, Ying,Jie, Jinchuan,Lu, Yiping,Guo, Qingtao,Wang, Tongmin,Li, Tingju.Microstructure and Fabrication of Cu-Pb-Sn/Q235 Laminated Composite by Semi-Solid Rolling[J],METALS,2018,8(9)
[13]Zhang, Yubo,Yu, Yingshui,Xu, Guangye,Fu, Ying,Li, Tingju,Wang, Tongmin,Guo, Qingtao.Microstructure and Performance of a Three-Layered Al/7075-B4C/Al Composite Prepared by Semi Continuous Casting and Hot Rolling[J],METALS,2018,8(8)
[14]Liu, S. C.,Jie, J. C.,Zhang, J. J.,Wang, P. F.,Wang, T. M.,Li, T. J.,Yin, G. M..A surface energy driven dissolution model for immiscible Cu-Fe alloy[J],JOURNAL OF MOLECULAR LIQUIDS,2018,261:232-238
[15]Jiang, Hui,Han, Kaiming,Qiao, Dongxu,Lu, Yiping,Cao, Zhiqiang,Li, Tingju.Effects of Ta addition on the microstructures and mechanical properties of CoCrFeNi high entropy alloy[J],MATERIALS CHEMISTRY AND PHYSICS,2018,210(,SI):43-48
[16]Liu, Shichao,Jie, Jinchuan,Guo, Zhongkai,Yin, Guomao,Wang, Tongmin,Li, Tingju.Solidification microstructure evolution and its corresponding mechanism of metastable immiscible Cu80Fe20 alloy with different cooling conditions[J],JOURNAL OF ALLOYS AND COMPOUNDS,2018,742:99-106
[17]Wang, Shiwei,Xie, Guangbo,Zhang, Jingjing,Zhang, Sen,Li, Tingju.Structure, thermal and luminescence properties of Eu/Tb(BA)(3)phen/PAN fibers fabricated by electrospinning[J],OPTICAL MATERIALS,2018,78:445-451
[18]Jiang, Hui,Han, Kaiming,Gao, Xiaoxia,Lu, Yiping,Cao, Zhiqiang,Gao, Michael C.,Hawk, Jeffrey A.,Li, Tingju.A new strategy to design eutectic high-entropy alloys using simple mixture method[J],MATERIALS & DESIGN,2018,142:101-105
[19]Wang, Pengfei,Jie, Jinchuan,Liu, Chenbin,Guo, Lijuan,Li, Tingju.An effective method to obtain Cu-35Zn alloy with a good combination of strength and ductility through cryogenic rolling[J],MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,2018,715:236-242
[20]Lu, Yiping,Li, Tingju,Tang, Zhongyi,Wen, Bin,Wang, Gang,Wu, Shiwei,Wang, Tongmin,Zhang, Yubo,Chen, Zongning,Cao, Zhiqiang.A promising new class of plasticine: Metallic plasticine[J],JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY,2018,34(2):344-348
专利成果一种低熔点合金及其制备方法
高强高塑耐海水腐蚀合金、其制备方法及用途
覆盖剂及铝硅合金熔体处理方法
合金凝固同步辐射成像静磁场复合直流电作用装置及实验方法
高强高塑耐氯离子腐蚀的铸造合金及其制备方法
添加稀土La的原位TiB2增强铜基复合材料及其制备方法
一种铜合金板带的水平电磁连续铸造装置
一种电磁分离铝合金溶液制备多晶硅的方法与装置
一种两步生长制备无孵化层微晶硅薄膜的方法
一种长寿命、抗衰退Al-Si合金晶粒细化剂及其制备方法
一种用计算机测量晶粒度的方法和装置
一种空心金属管坯电磁连续铸造方法
复层材料的电磁连续铸造方法
一种紫铜铸管坯水平连续铸造的电磁改性装置
一种提纯太阳能级多晶硅的装置与方法
一种复层金属铸锭的半连续铸造装置
一种制备高纯铜的装置与方法
半固态浆料制备所用斜槽的涂层及其喷涂方法
长寿命铝硅合金晶粒细化剂及其制备方法
一种复层管坯的水平电磁连续铸造装置及方法
半固态合金成型工艺及其所用成型装置
一种金属-陶瓷层状复合铸坯的连续铸造装置与方法
一种水平连续铸造高导高强铜合金圆棒的装置及方法
一种真空下处理高温金属熔体的功率超声装置及方法
一种高强导电Cu-Ni-Si-M合金
一种热轧钢板氧化层的环保清洗液及清洗方法
原位制备TiBsub2/sub增强铜基复合材料的方法和设备
覆盖剂及铝硅合金熔体处理方法
添加稀土La的原位TiBsub2/sub增强铜基复合材料及其制备方法
合金凝固同步辐射成像静磁场复合直流电作用装置及实验方法
科研项目汽车同步齿环用铜合金棒电磁连铸技术研究, 2017/07/15-2018/06/14, 进行
镁合金圆坯的电磁水平连铸技术研究, 2016/11/25-2017/12/31, 进行
高性能高精度铜及铜合金板带材制造技术, 国家重点研发计划, 2016/09/01, 进行
高性能离心铸铁管及热处理工艺开发, 2016/07/15-2017/12/30, 进行
高效铝水平多流连铸技术开发, 2016/06/10-2017/12/30, 进行
耐撞击高品质灰铁排水管道制备技术研究, 2016/04/15-2016/06/14, 进行
黄铜合金棒连续铸造电磁改性技术研究, 2015/12/28-2016/12/27, 进行
内置式Φ200铜合金水平连铸电磁搅拌铸造技术研究, 2015/08/21-2016/08/20, 进行
铝合金电磁半连续铸造的研究, 纵向合同, 2012/07/01, 完成
利用10T磁场控制粉末取向(Developmentofcrystal-alignmenttechnologywith10teslamagnet), 纵向合同, 2011/03/16, 完成
关于硅提纯和定向凝固机理的研究(PurificationofSibyUsingSlagTreatmentandDirectionalSolidification), 纵向合同, 2011/03/16, 完成
Study on the Mechanism of Mg/Al alloys Due Casting Technology, 纵向合同, 2010/06/01, 完成
高镍铬铁合金管坯水平连续铸造的研究, 2014/12/15-2015/12/14, 进行
水平连铸锡青铜板带坯稀土改性的研究, 2014/11/24-2016/11/23, 进行
复杂铜合金内置式电磁改性技术研究, 2014/12/08-2015/01/30, 进行
无铅黄铜水平连铸电磁改性研究, 2014/11/20-2015/11/19, 进行
铜及铜合金大口径管坯水平连铸技术, 2014/12/30-2016/12/30, 进行
镍熔炼实验, 2014/10/08-2014/10/26, 完成
过共晶铝硅合金电磁半连铸过程中初生硅形貌和偏聚的基础研究, 国家自然科学基金, 2014/09/01, 完成
Cu-Mg合金圆坯垂直半连续铸造研究, 2014/05/31-2015/05/30, 完成
