简历:
2022.7-至今:北京科技大学冶yl6809永利(中国)股份有限公司钢冶系,教授
2019.6-2022.6:北京科技大学冶yl6809永利(中国)股份有限公司钢冶系,副教授 2016.12-2019.6:北京科技大学冶yl6809永利(中国)股份有限公司钢冶系,讲师 2015.11-2016.11:澳大利亚联邦科学与工业研究院(CSIRO),博士后 2010.9-2015.6:北京科技大学冶yl6809永利(中国)股份有限公司,冶金工程专业,博士 2006.9-2010.7:北京科技大学冶金与生态学院,冶金工程专业,学士
代表性论著 :
论文:
[1] Kexin Jiao*, Guangxiang Feng, Jianliang Zhang, Hengbao Ma, Ziyu Guo. Characterization and formation mechanism of graphite-rich iron protective layer in blast furnace hearth. Fuel, 306(12): 121665. (SCI 检索,IF="6.609)
[2] Sai Meng, Kexin Jiao*, Jianliang Zhang, Yanbing Zong, Lei Zhang, Hengbao Ma, Ziyu Guo. Dissection study of the deadman in a commercial blast furnace hearth. Fuel Processing Technology, 221(10): 106916. (SCI 检索,IF="7.033)
[3] Hengbao Ma, Kexin Jiao*, Cui Wang, Jianliang Zhang. Viscosity of CaO-MgO-Al2O3-SiO2-TiO2- FeO slag with varying TiO2 content: The effect of crystallization on viscosity abrupt behavior. Ceramics International, 2021, 47(12): 17445-17454. (SCI 检索,IF="4.527)
[4] Xinyu Zhang, Kexin Jiao*, Jianliang Zhang, Ziyu Guo. A review on low carbon emissions projects of steel industry in the World. Journal of Cleaner Production, 2021, 306(07): 127259. (SCI 检索,IF="9.297)
[5] Xiaoyue Fan, Kexin Jiao*, Jianliang Zhang, Rongrong Wang. Comprehensive research about critical interaction region named cohesive zone in series of dissected blast furnaces: A Review. ISIJ International, 2021, 61(06): 1758-1767. (SCI 检索,IF="1.739)
[6] Hengbao Ma, Kexin Jiao*, Cui Wang, Jianliang Zhang. Investigation of formation and shedding behavior of slag crust in a large blast furnace with copper stave: flow properties and crystallization characteristics. Journal of Sustainable Metallurgy, 2021, 60(11): 2357-2365. (SCI 检索,IF="2.347)
[7] Guangxiang Feng, Kexin Jiao*, Jianliang Zhang, Shanchao Gao. High-temperature viscosity of iron‑carbon melts based on liquid structure: The effect of carbon content and temperature. Journal of Molecular Liquids, 2021, 330: 115603. (SCI 检索,IF="6.165)
[8] Kexin Jiao*, Cui Wang, Jianliang Zhang, Shan Ren, E Dianyu. Heat transfer evolution process in hearth based on blast furnace dissection. JOM, 2020, 72(05): 1935-1942. (SCI 检索,IF="2.474)
[9] Kai Gao, Kexin Jiao*, Jianliang Zhang, Lei Zhang, Cui Wang, Weimin Gong, Jingxian Zheng, Haibin Zhang. Dissection investigation of forming process of titanium compounds layer in the blast furnace hearth. ISIJ International, 2020, 60(11): 2385-2391. (SCI 检索,IF="1.739)
[10] Tianlu Gao, Kexin Jiao*, Jianliang Zhang, Hengbao Ma. Melting erosion failure mechanism of tuyere in blast furnace. ISIJ International, 2020, 61(01): 71-78. (SCI 检索,IF="1.739)
[11] Heng Zhang, Kexin Jiao*, Jianping Liu. Comparisons of the microstructures and micro-mechanical properties of copper/steel explosive-bonded wave interfaces. Materials Science and Engineering A, 2019, 756: 430-441. (SCI 检索,IF="4.652)
[12] Xiaoyue Fan, Kexin Jiao*, Jianliang Zhang, Ruiqi Cao, Rusheng He, Kaidi Wang. Study on physicochemical properties of Al2O3-SiC-C castable for blast furnace. Ceramics International, 2019, 45(11): 13903-13911. (SCI 检索,IF="3.830)
[13] Xiaoyue Fan, Kexin Jiao*, Jianliang Zhang, Hongxiu Ma, Haibin Jiang, Bingji Yan. Coke microstructure and graphitization across the hearth deadman regions in a commercial blast furnace. ISIJ International, 2019, 59(10): 1770-1775. (SCI 检索,IF="1.405)
[14] Zhiyu Chang, Kexin Jiao*, Jianliang Zhang, Xiaojun Ning. Insights into accumulation behavior of harmful elements in cohesive zone with reference to its influence on coke. ISIJ International, 2019, 59(10): 1796-1800. (SCI 检索,IF="1.405)
[15] Kexin Jiao*, Zhiyu Chang, Jianliang Zhang, Chunlin Chen. Thermodynamic properties and viscosities of CaO-SiO2-MgO-Al2O3 slags. Metallurgical and Materials Transactions B. 2019, 50(02): 1012-1022. (SCI 检索,IF="2.035)
[16] Kexin Jiao*, Jianliang Zhang, Chunlin Chen. Analysis of the deadman features in hearth based on blast furnace dissection by comprehensive image-processing technique. ISIJ International, 2019, 59(01): 16-21. (SCI 检索,IF="1.405)
[17] Hengbao Ma, Kexin Jiao*, Jianliang Zhang. Basicity and TiO2 on crystallization behavior of high Ti-bearing slag. CrystEngComm, 2019, 22(02): 361-370. (SCI 检索,IF="3.117)
[18] Zhiyu Chang, Kexin Jiao*, Jianliang Zhang. Graphitization Behavior of Coke in Cohesive Zone. Metallurgical and Materials Transactions B, 2018, 49(06): 2956-2962. (SCI 检索,IF="1.952)
[19] Zhiyu Chang, Kexin Jiao*, Xiaojun Ning, Jianliang Zhang. Behavior of Alkalis Accumulation of Coke in Cohesive Zone. Energy & Fuels, 2018, 32: 8383-8391. (SCI 检索,IF="3.021)
[20] Kexin Jiao, Xiaoyue Fan*, Jianliang Zhang, Kaidi Wang, Yongan Zhao. Corrosion behavior of alumina-carbon composite brick in typical blast furnace slag and iron. Ceramics International, 2018, 44: 19981-19988. (SCI 检索,IF="3.450)
[21] Heng Zhang, Kexin Jiao*, Jianliang Zhang, Jianping Niu. Experimental and numerical investigations of interface characteristics of copper/steel composite prepared by explosive welding. Materials & Design, 2018, 154: 140-152. (SCI 检索,IF="5.770)
[22] Heng Zhang, Kexin Jiao*, Jianliang Zhang, Jianping Niu. Microstructure and mechanical properties investigations of copper-steel composite fabricated by explosive welding. Materials Science and Engineering A, 2018, 731: 278-287. (SCI 检索,IF="4.081)
[23] 焦克新,张建良*,刘征建,刘彦祥,梁利生,贾国栋.高炉炉缸凝铁层物相分析.工程科学学报.2017,39(06):838-846.
[24] 焦克新*,张建良,刘征建,王广伟.高炉炉缸含钛保护层物相及TiC0.3N0.7形成机理.工程科学学报,2019,41(02):190-198.
[25] 焦克新,张建良,刘征建,杨天钧.关于高炉炉缸长寿的关键问题解析.钢铁,2020,55(08):193-198.
著作:
1、张建良, 焦克新, 刘征建, 等. 高炉炉缸安全长寿理论与实践. 冶金工业出版社, 2022.04.
2、张建良, 焦克新, 王振阳. 炼铁过程节能减排先进技术. 冶金工业出版社, 2021.11.
3、张建良, 焦克新, 黄务涤. The Operation of Contemporary Blast Furnaces. Springer, 2020.04.
4、张建良, 罗登武, 左海滨, 曾晖 , 焦克新, 王振阳. 炼铁过程节能减排先进技术. 冶金工业出版社, 2019.12.