Personal Profile
Liu Fuchu, male, native of Huangshi, Hubei Province, PhD/postdoctoral, associate professor, CUG scholar of China University of Geosciences (Wuhan) - Young Talents Program (A), director of Hubei Institute of Mechanical and Electrical Engineering, director of the Casting Committee of Hubei Mechanical Engineering Society, consultant of China Casting Industry Network, Vice President of Science and Technology of Hubei Province, and the Youth Member of the Second Committee of the Additive Manufacturing Technology Branch of the Chinese Mechanical Engineering Society. Guided by him, undergraduate students won more than 20 awards of third prize and above in national discipline competitions. He is mainly engaged in research on advanced 3D printing manufacturing technology, water-soluble core materials, and casting forming processes, and offers courses such as “Metal Technology”, “Engineering Drawing” and “3D Printing Manufacturing Technology”. He graduated from Huazhong University of Science and Technology with a bachelor’s degree in Materials Forming and Control Engineering in 2010, received his master of engineering and PhD degrees in Materials Processing Engineering from Huazhong University of Science and Technology in 2013 and 2016 respectively, entered the Environmental Engineering Mobile Station of Huazhong University of Science and Technology for postdoctoral research in 2016, and worked on high tenacity aluminum alloys at Brunel University London, UK from 2018 to 2019.
He has presided over 1 basic research project of free exploration supported by the Fund of Central Government for Guiding Local Science and Technology Development, 1 general program of the Natural Science Foundation of Guangdong Basic and Applied Basic Research Fund, 1 program supported by the Fundamental Research Funds for the Central Universities and 1 program supported by the Open Project Research Fund of State Key Laboratory respectively. As a technical backbone, he has successively participated in 6 programs supported by the National Natural Science Foundation of China, 1 Unveiling Science and Technology Project of Hubei Province, 1 subproject of the State Key R&D Program during the “14th Five-Year Plan” on “Additive Manufacturing and Laser Manufacturing” and several cooperation programs with large scale enterprises, including 1 project of Hubei Province for Supporting Enterprise Technological Innovation and Development in 2021 (High-tech Enterprise) upon joint application with Jingmen Jufeng Machinery Equipment Manufacturing Co., Ltd.
He has published more than 40 papers (more than 30 SCI papers) in high-level journals in his field, such as Journal of the European Ceramic Society, Composite Structures, 3D Printing and Additive Manufacturing, Journal of Alloys and Compounds, Ceramics International, Materials Chemistry and Physics, Journal of Manufacturing Processes, International Journal of Advanced Manufacturing Technology, Materials and Manufacturing Processes, Journal of Mechanical Engineering, and Journal of Aeronautical Materials; has applied for more than 20 invention patents (16 granted) and participated in the compilation of three books; has won the gold award for “FOSECO” Cup Best Foundry Papers (2016 and 2017).
He is also a youth editorial board member of CHINA FOUNDRY, Chinese Journal of Mechanical Engineering: Additive Manufacturing Frontiers, Journal of Aeronautical Materials, Journal of Materials Engineering, China Foundry, Special Casting and Nonferrous Alloys, Hot Working Technology, MW Metal Forming, and Materials Research and Application, a guest editor of Materials, and a reviewer of multiple domestic and international academic journals (such as Additive Manufacturing, Ceramics International, Materials and Design, China Foundry, China Foundry, International Journal of Metalcasting, Journal of Mechanical Engineering, Journal of Aeronautical Materials, and Acta Materiae Compositae Sinica and Foundry, etc.).
Contact Information
Address: Room 317, No. 2 Teaching Building, School of Mechanical Engineering and Electronic Information, China University of Geosciences (Wuhan)
Email: liufuchu@cug.edu.cn
Education and Work Experience
2020/05-present: Associate professor, School of Mechanical Engineering and Electronic Information, China University of Geosciences (Wuhan)
2018/12-2019/11: Visiting scholar, Brunel Centre for Advanced Solidification Technology (BCAST), Brunel University London, UK
2016/07-2020/05: Postdoctoral, School of Environmental Science & Engineering, Huazhong University of Science and Technology
2012/09-2016/06: Doctor of engineering, material processing engineering, Huazhong University of Science and Technology
2010/09-2013/03: Master of engineering, material processing engineering, Huazhong University of Science and Technology
2006/09-2010/06: Bachelor of engineering, material forming and control engineering, Huazhong University of Science and Technology
Research Fields
3D printing advanced manufacturing technology, ceramic materials and their rapid manufacturing, high strength and tough alloy materials and their precise forming, casting core materials and foundry used sand recycling and reuse technology.
Admission Requirements
We warmly welcome the positive, optimistic and enterprising students majored in science or engineering, such as mechanical engineering, materials processing, and automatic control, to apply for the master degree.
We also warmly welcome the outstanding undergraduate students to join our team for scientific research.
Scientific Research Programs
[1] Project supported by 2022 State Key R&D Program - Additive Manufacturing and Laser Manufacturing, “Implementation of Key Technologies for Fine Flow Channels inside Integrated Space Propulsion System (application demonstration subproject of internal fine channel additive manufacturing in the field of space propulsion)”, 2022/12-2026/11, under study, participant
[2] Basic research project of free exploration supported by the Fund of Central Government for Guiding Local Science and Technology Development in 2021: “Study on the properties of water-soluble calcium oxide ceramic core formed by micro-extrusion 3D printing, 2021/07-2023/06, under study, PI
[3] Unveiling Science and Technology Project of Hubei Province in 2021: “Integrated additive manufacturing of new engine thrust chamber and cooling structure in heterogeneous metals”, 2021/07-2023/12, under study, sub-project leader of water-soluble support material R&D
[4] Project of Hubei Province for Supporting Enterprise Technological Innovation and Development in 2021 (High-tech Enterprise - Jingmen Jufeng Machinery Equipment Manufacturing Co., Ltd): “Research on key technologies for efficient cleaning of complex castings”, 2021/07-2023/12, under study, technical leader
[5] Project supported by the Open Fund of State Key Laboratory of Materials Processing and Die & Mould Technology: Study on precision control of micro-extrusion 3D printing integral forming complex water-soluble ceramic core, 2021/01-2022/12, concluded, PI
[6] Fundamental Research Funds for the Central Universities - Distinguished Talent Cultivation Fund: “Study on micro-extrusion forming and property regulation mechanism of complex ceramic core”, 2020/05-2023/04, RMB 200,000Yuan, under study, PI
Scientific Research Achievements
(1) Selected journal papers (* as corresponding author)
[1] Zhang Chi, Liu Fuchu*, Mu Yingpeng, Wu Ming, Lin Yuxiao, Wang Siyu, Liu Hao, Cheng Peng , Xu Kai, Han Guangchao*. High-strength, high-porosity and low-shrinkage Al2O3 ceramics prepared by flexible adjustment of CaCO3 size and content [J]. Journal of the European Ceramic Society, 2024, 44(4): 2304-2316. (SCI)
[2] Mu Yingpeng, Liu Fuchu*, Zhang Chi, Lin Yuxiao, Wu Ming, Cai Jiajun, Han Guangchao*, Fan Zitian. Fabrication of high-strength and anti-hydration water-soluble calcia-based ceramic core modified with nano-ZrO2 via direct ink writing method [J]. Ceramics International, 2023, 49(23): 38623-38634. (SCI)
[3] Huang Jiefei, Liu Fuchu*, Mu Yingpeng, Zhang Chi, Liu Xin, Han Guangchao*, Fan Zitian. Parameter optimization and precision control of water-soluble support cores for hollow composite castings fabricated by slurry micro-extrusion direct forming method [J]. 3D Printing and Additive Manufacturing, 2023,Online, https://doi.org/10.1089/3dp.2023.0136 (SCI)
[4] Wu Ming, Liu Fuchu*, Lin Yuxiao, Wang Miao, Zhou Shilin, Zhang Chi, Mu Yingpeng, Han Guangchao*, Hao Liang. Parameter optimization via an orthogonal experiment to improve the whole-process accuracy of metakaolin ceramics fabricated by direct ink writing [J]. Chinese Journal of Mechanical Engineering: Additive Manufacturing Frontiers, 2023, 2(4): 100098
[5] Mu Yingpeng, Liu Fuchu*, Zhang Chi, Huang Jiefei, Liu Xin, Han Guangchao, Fan Zitian. Parameter Optimization and Surface Accuracy Control of Water Soluble Calcia Ceramic Core Prepared by Extrusion 3D Printing Technology [J]. Journal of Mechanical Engineering, 2023: Accepted, proofread, to be published. (EI)
[6] Zhang Chi, Liu Fuchu*, Mu Yingpeng, Wu Dingyi, Wu Ming, Lin Yuxiao, Han Guangchao, Fan Zitian. Study on the Correlation between Porosity and Flexural Strength of Porous Alumina Ceramic Based on Direct Ink Writing Forming Method [J]. Journal of Mechanical Engineering, 2023: Accepted. (EI)
[7] Wan Weiqiang, Cheng Jianfeng, Xu Linhong, Liu Fuchu*, Zhang Haiou, Han Guangchao*. Investigation on friction characteristics of micro double cup extrusion assisted by different ultrasonic vibration modes [J]. The International Journal of Advanced Manufacturing Technology, 2022, 123(7-8): 2549-2560.
[8] Ye Zejiu, Wen Xu, Wan Weiqiang, Liu Fuchu*, Bai Wei, Xu Chao, Chen Hui, Gong Pan, Han Guangchao*. Precision Grinding Technology of Silicon Carbide (SiC) Ceramics by Longitudinal Torsional Ultrasonic Vibrations [J]. Materials, 2023, 16(16), 5572.
[9] Gong Xiaolong, Liu Fuchu*, Hu Shengli, Jiang Wenming, Liu Xinwang, Fan Zitian*. Reclamation of clay-resin mixed waste sand by a hot waste alkali liquor soaking assisted with scrubbing method [J]. International Journal of Metalcasting, 2021, 15(2): 566-575.
[10] Liu Fuchu, Zhu Xiangzhen, Ji Shouxun*. Effects of Ni on the microstructure, hot tear and mechanical properties of Al-Zn-Mg-Cu alloys under as-cast condition [J]. Journal of Alloys and Compounds, 2020, 821: 153458.
[11] Liu Fuchu*, Jiang Peng, Huang Ying, Jiang Wenming, Liu Xinwang, Fan Zitian*. A water-soluble magnesium sulfate bonded sand core material for manufacturing hollow composite castings [J]. Composite Structures, 2018, 201: 553-560.
[12] Liu Fuchu*, Tu Suo, Gong Xiaolong, Li Guanjin, Jiang Wenming, Liu Xinwang, Fan Zitian*. Comparative study on performance and microstructure of composite water-soluble salt core material for manufacturing hollow zinc alloy castings [J]. Materials Chemistry and Physics, 2020, 252: 123257.
[13] Jiang Peng#, Liu Fuchu# *(Co-first authors), Fan Zitian*, Jiang Wenming, Liu Xinwang. Performance of water-soluble composite sulfate sand core for magnesium alloy castings [J]. Archives of Civil and Mechanical Engineering, 2016, 16(3): 494-502.
[14] Zhu Xiangzhen#, Liu Fuchu# (Co-first authors), Wang Shihao, Ji Shouxun. The development of low-temperature heat-treatable high-pressure die-cast Al-Mg-Fe-Mn alloys with Zn [J]. Journal of Materials Science, 2021, 56(18): 11083-11097.
[15] Liu Fuchu*, Fan Zitian*, Liu Xinwang, He Jiaqing, Li Fengguang. Aqueous gel casting of water-soluble calcia-based ceramic core for investment casting using epoxy resin as a binder [J]. International Journal of Advanced Manufacturing Technology, 2016, 86(5-8):1235-1242.
[16] Liu Fuchu*, Yang Li, Huang Ying, Jiang Peng, Li Guang, Jiang Wenming, Liu Xinwang, Fan Zitian*. Performance of resin bonded sand for magnesium alloy casting [J]. Journal of Manufacturing Processes, 2017, 30: 313-319.
[17] Liu Fuchu*, Fan Zitian*, Liu Xinwang, Huang Ying, Jiang Peng. Effect of surface coating strengthening on humidity resistance of sodium silicate bonded sand cured by microwave heating [J]. Materials and Manufacturing Processes, 2016, 31(12):1639-1642.
[18] Liu Fuchu, Fan Zitian*, Liu Xinwang, Wang Huafang, He Jiaqing. Research on humidity resistance of sodium silicate sand hardened by twice microwave heating process [J]. Materials and Manufacturing Processes, 2014, 29(2): 184-187.
[19] Tu Suo, Liu Fuchu*, Li Guanjin, Jiang Wenming, Liu Xinwang, Fan Zitian*. Fabrication and characterization of high-strength water-soluble composite salt core for zinc alloy die castings [J]. International Journal of Advanced Manufacturing Technology, 2018, 95(1-4): 505-512.
[20] Liu Xinwang, Liu Fuchu, Du Hui, Zhang Zhaolong, Cai Qizhou, Fan Zitian. Effect of hydrogen on interfacial reaction between TiAl alloy melt and graphite mold [J]. Intermetallics, 2014, 53: 107-111.
[21] Fan Zitian, Liu Fuchu, Long Wei, Li Guona. A new low-cost method of reclaiming mixed foundry waste sand based on wet-thermal composite reclamation [J]. China Foundry, 2014, 11(5): 402-407.
[22] Hu Qiang, Liu Fuchu, Fan Qianlu, Du Hui, Liu Gang, Wang Guanghua, Fan Zitian, Liu Xinwang. Effect of Al on microstructure and mechanical properties of cast CrCoNi medium-entropy alloy[J]. China Foundry, 2018, 15(4): 253-262.
[23] Gong Xiaolong, Liu Fuchu, Liu Xinwang, Jiang Wenming, Fan Zitian. Properties optimization and strengthening mechanism of KNO3-KCl water-soluble composite salt core for hollow zinc alloy die castings[J]. International Journal of Metalcasting, 2023,17 (1):563-572.
[24] Liu Fuchu, Jiang Peng, Huang Ying, Li Guang, He Jiaqing, Jiang Wenming, Liu Xinwang, Fan Zitian. Study on Water-Soluble Core Materials and Effective Cleaning Technology of Complex Magnesium Alloy Castings [J]. Foundry, 2016, 65(12): 1178-1184. (Foundry gold award paper)
[25] Liu Fuchu, Fan Zitian, Wang Huafang. Humidity resistance of surface coating of sodium silicate sand hardened by microwave heating [J]. Journal of Huazhong University of Science and Technology (Natural Science Edition), 2012, 40(10): 49-52. (EI)
[26] Liu Fuchu, Huang Jifei, Gong Xiaolong, Tu Suo, Han Guangchao, Fan Zitian. Research Progress in Water-soluble Cores for Castings with Complex Internal Cavity (I) [J]. Modern Cast Iron, 2021, 41(5): 52-58. (solicited paper)
[27] Liu Fuchu, Huang Jifei, Gong Xiaolong, Tu Suo, Han Guangchao, Fan Zitian. Research Progress in Water-soluble Cores for Castings with Complex Internal Cavity (II) [J]. Modern Cast Iron, 2021, 41(6): 40-46, 55. (solicited paper)
[28] Fan Zitian, Liu Fuchu, Gong Xiaolong, Wang Lichi. New method, progress and expectation of reclaiming used foundry sand [J]. China Foundry Machinery & Technology, 2018, 53(4): 5-10. (solicited paper)
[29] Fan Zitian, Liu Fuchu, Gong Xiaolong, Wang Lichi. New method, progress and expectation of reclaiming used foundry sand [J]. China Foundry Machinery & Technology, 2018, 53(5): 5-10. (solicited paper)
[30] Liu Fuchu, Li Guang, Huang Ying, Jiang Peng, Jiang Wenming, Liu Xinwang, Fan Zitian. Study on Formability and Collapsibility Characterwastics of Complex Slender Sand Core [J]. Modern Cast Iron, 2019, 39(1): 35-41. (solicited paper)
[31] Cai Jili, Wu Hebao, Liu Fuchu, Fan Zitian. Properties of Al2O3 Ceramic Microspheres Prepared by Micro-droplet Jetting Rapid Forming [J]. Journal of Materials Engineering, 2018, 46(11): 84-89. (EI)
[32] Yang Li, Tang Shiyan, Li Guanjin, Liu Fuchu, Liu Xinwang, Jiang Wenming. Performance characteristics of collapsible CaO-SiO2 based ceramic core material via layered extrusion forming[J]. Ceramics International, 2019, 45(6):7681-7689.
[33] Tang Shiyan, Fan Zitian, Zhao Huoping, Yang Li, Liu Fuchu, Liu Xinwang. Layered extrusion forming-A simple and green method for additive manufacturing ceramic core [J]. International Journal of Advanced Manufacturing Technology, 2018, 96(9-12):3809-3819.
[34] Cai Jili, Fan Suo, Liu Fuchu, Jiang Wenming, Wu Hebao, Fan Zitian. Preparation of porous Al2O3 ceramic microspheres by a novel micro-droplet jetting rapid forming method[J]. Ceramics International, 2019, 45(16): 20583-20588.
[35] Li Guanjin, Tang Shiyan, Yang Li, Qian Lei, Liu Fuchu, Fan Zitian, Zuo Kang, Wei Qingsong, Jiang Wenming. Fabrication of soluble salt-based support for suspended ceramic structure by layered extrusion forming method[J]. Materials & Design, 2019, 183: 108173.
[36] Gong Xiaolong, Jiang Wenming, Liu Fuchu, Yang Zhiyuan, Guan Feng, Fan Zitian. Effects of glass fiber size and content on microstructures and properties of KNO3-based water-soluble salt core for high pressure die casting[J]. International Journal of Metalcasting, 2021, 15(2): 520-529.
[37] Fan Zitian, Jiang Wenming, Liu Fuchu, Xiao Botao. Status quo and development trend of lost foam casting technology [J]. China Foundry, 2014, 11(4): 296-307.
(2) Invention patents
[1] Liu Fuchu, Lin Yuxiao, Wu Ming, Zhao Xin, Zhang Liang, Han Guangchao, Song Huaibing, Hao Liang. A dual-head synergistic direct writing 3D printing device and method [P]. China invention patent, ZL202311075788.8, applied on Aug. 24, 2023
[2] Liu Fuchu, Zhang Chi, Lin Yuxiao, Wu Ming, Mu Yingpeng, Wan Weiqiang, Bai Wei, Han Guangchao. An integrated method for efficient cleaning and cleanliness detection of casting inner cavity [P]. China invention patent, ZL202310604518.5, applied on May 23, 2023
[3] Liu Fuchu, Mu Yingpeng, Zhang Chi, Huang Jiefei, Lin Yuxiao, Wu Dingyi, Han Guangchao, Hao Liang. A calcium oxide based ceramic core and its preparation method based on micro extrusion 3D printing technology for rapid prototyping [P]. China invention patent, ZL 202211315833.8, applied on Oct. 26, 2022 and granted on May 26, 2023 (granted)
[4] Liu Fuchu, Huang Jiefei, Zhang Chi, Mu Yingpeng, Wu Ming, Liu Xin, Han Guangchao, Fan Zitian. A water-soluble calcium oxide based support core for internal flow channel components and its preparation method [P]. China invention patent, ZL 202211315829.1, applied on Oct. 26 and granted on May 26, 2023 (granted)
[5] Hao Liang, Han Guangchao, Yu Quan, Liu Fuchu, Li Zheng, Li Yan, Song Huaibing, Wen Xiaoning, Xu Haisheng, Wang Fen, Yin Jianhua . A monolithic additive manufacturing method for closed runners of dissimilar metals [P]. Chinese invention patent, ZL202210951082.2, applied on Aug. 9, 2022
[6] Fan Zitian, Liu Fuchu, Cai Jili, Hu Fen, Tang Shiyan, Suo Jinping. A rapid extrusion method for preparing ceramic microspheres [P]. Chinese invention patent, ZL201710252125.7, granted on Nov. 22, 2019
[7] Fan Zitian, Tu Suo, Liu Fuchu, Gong Xiaolong, Jiang Zailiang. High strength composite salt core material and salt core for low melting point alloy casting and preparation method [P]. Chinese invention patent, ZL201611186722.6, granted on Nov. 12, 2019
[8] Fan Zitian, Gong Xiaolong, Liu Fuchu, Wang Lichi, Jiang Wenming, Liu Xinwang, Wu Hebao. An integrated equipment for recycling and dewatering of old sand by a roller type wet process and its application method [P].Chinese invention patent, ZL201710400641.X, granted on Feb. 1, 2019
[9] Fan Zitian, Wang Lichi, Liu Fuchu, Jiang Wenming, Gong Xiaolong. An ultrasonic wet method for recovering old sodium silicate sand [P].Chinese invention patent, ZL 201710238547.9, granted on Mar. 5, 2019
[10] Fan Zitian, Jiang Peng, Liu Fuchu, Liu Xinwang, Huang Ying, Li Guang, Sun Rui. Preparation of water soluble sand cores for thin walled complex castings of aluminum or magnesium alloys [P]. Chinese invention patent, ZL201410648208.4, granted on Jan. 11, 2017
[11] Fan Zitian, Huang Ying, Liu Fuchu, Liu Xinwang, Jiang Peng, Li Guang, Sun Rui, Liao Chao. Sand core cleaning device for aluminum or magnesium alloy castings and a sand core cleaning method thereof [P]. Chinese invention patent, ZL201510027416.7, granted on Aug. 17, 2016
[12] Liu Xinwang, Sun Rui, Liu Fuchu, Fan Zitian. A high entropy alloy particle reinforced aluminum matrix composite and its preparation method [P]. Chinese invention patent, ZL201510295477.1, granted on Sept. 7, 2016
[13] Fan Zitian, Long Wei, Liu Fuchu, Li Xuejie, Zong Xiaoming. A wet intermittent regeneration method for used foundry sand and the equipment [P]. Chinese invention patent, ZL 201210084186.4, granted on Sept. 18, 2013
[14] Fan Zitian, Gong Xiaolong, Wang Lichi, Liu Fuchu, Jiang Wenming. A method for alkaline wastewater recovery from wet recovery of old sodium silicate sand [P].Chinese invention patent, ZL201710652097.8, granted on June 18, 2019
[15] Fan Zitian, Wang Lichi, Liu Fuchu, Jiang Wenming, Gong Xiaolong, Yang Li. A method for recovering sodium silicate from old sand wet wastewater [P]. Chinese invention patent, ZL201811222679.3, granted on May 19, 2020
(3) Monographs
[1] Fan Zitian, Jiang Wenming, Wei Qingsong, Song Bo, Huang Anguo, Liu Fuchu. Advanced Metal Forming Technology and Theory [M]. Wuhan: Huazhong University of Science and Technology Press, 2019/12
[2] Fan Zitian, Zhu Yisong, Dong Xuanjin, Wu Dianjie, Liu Fuchu. The Water Glass Sand Process Principle and Application (second edition) [M]. Beijing: China Machine Press, 2016/03
[3] Xu Linhong, Han Guangchao, Liu Fuchu, Wu Laijie. Production Practice in Mechanical Manufacturing and Fixture Design [M]. Wuhan: China University of Geosciences Press, 2023/01
(4) Academic conference reports (selected)
[1] Liu Fuchu. Study on the properties of water-soluble calcium oxide ceramic cores formed by slurry micro extrusion [C]. 2nd National Forum on Additive Manufacturing of cEramics (FAME 2023), Wuhan, 2023/05/28.
[2] Liu Fuchu. Performance of water-soluble sulfate bonded sand core cured by conventional and microwave heating process[C]. THERMEC2018, 2018/07/09, Paris, France.
[3] Liu Fuchu. Research on accuracy and performance of 3D printing sand mold [C]. 2018 green casting and 3DP printing sand mold technology seminar, Suzhou, 2018/03/15.
[4] Liu Fuchu. Study on the Performance and Curing process of the Water-soluble Sulfate Bonded Sand Core[C]. Proceedings of the 16th China Foundry Congress, Suzhou, 2017/11/16, Oral report on the International Foundry Technology Forum of 2017 China Foundry Congress.
[5] Liu Fuchu. China-Japan Science and Technology Exchange Program for the Youth, Shizuoka, Japan, 2017/06/20, oral report.
[6] Liu Fuchu, Huang Ying, Jiang Peng, Li Guang, Liu Xinwang, Fan Zitian. Performance and its influencing factors of no-bake furan resin bonded sand for magnesium alloy casting [C]. Proceedings of the 2015 WFO International Forum on Moulding Materials and Casting Technologies, Changsha: WFO Moulding Materials Commission, 20-24, Poster.
[7] Liu Fuchu, Li Fengguang, Liu Xinwang, Fan Zitian. Effect of Particle Size Distribution on the Properties of Alumina-Based Cores for Magnesium Alloy Casting [C]. Proceedings of the 2015 WFO International Forum on Moulding Materials and Casting Technologies, Changsha: WFO Moulding Materials Commission, 68-70, Oral presentation.
Awards and Honors
2023/12: Outstanding Class Advisor of China University of Geosciences for 2023
2023/07: Outstanding Instructor Award of the 14th Foundry Process Design Competition for University Students
2023/07: Instructor for the Second Prize of the 14th Foundry Process Design Competition for University Students (2 groups)
2023/07: Instructor for the Third Prize of the 14th Foundry Process Design Competition for University Students (5 groups)
2022/12: Outstanding Class Advisor of China University of Geosciences for 2022
2022/07: Outstanding Instructor Award of the 13th Foundry Process Design Competition for University Students
2022/07: Instructor for the Second Prize of the 13th Foundry Process Design Competition for University Students (1 group)
2022/07: Instructor for the Third Prize of the 13th Foundry Process Design Competition for University Students (4 groups)
2021/06: Instructor for the Third Prize of the 12th Foundry Process Design Competition for University Students (2 groups)
2018/10: Silver award for the 20th “FOSECO” Cup Best Foundry Papers
2017/11: Gold award for the 19th “FOSECO” Cup Best Foundry Papers
2016/10: Gold award for the 18th “FOSECO” Cup Best Foundry Papers
Students’ Awards
[1] Mu Yingpeng. 2023 National Scholarship for Graduate Students.
[2] Xu Zichao, Cheng Yangguang, Chen Lang, Fan Jianfei. C-type HT300 upper turntable. National Second Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2023
[3] Zhang Di, Tang Ting, Wang Lixin. C-type HT300 upper turntable. National Second Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2023
[4] Wu Keying, Liu Siying, He Luqi. A-type QT400 case. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2023
[5] Zou Ting, Gu Le, Xiao Hongpeng, Li Chengyu. A-type QT400 case. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2023
[6] Wu Dingyi, Liu Xin, Wang Wenjing, Xu Dongsheng. B-type ZG15Cr2Mo heat-resistant castings for high-pressure steam chamber. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2023
[7] Zhang Liang, Xia Shuangxi, Cheng Fangliang, Cai Jiajun. B-type ZG15Cr2Mo heat-resistant castings for high-pressure steam chamber. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2023
[8] Yang Xinqi, Gao Jiawei, Miao Jinqi, Zhao Wuxiu. C-type HT300 upper turntable. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2023
[9] Liu Yilong, He Sen, Zou Qifeng, Chai Jingwen. C-type HT300 spindle box. National Second Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2022
[10] Xia Gaoxiang, Ou Chentong, Ma Rusheng, Wang Huiheng. A-type QT400 upper half of front bearing housing. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2022
[11] Xiao Jingyi, Wang Yu, He Zheng, Liu Xuefeng. B-type ZG25CrNiMo lifting box. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2022
[12] Hou Yufan, Huang Xinbo, Li Jiaxin, Zhao Ruisi. C-type HT300 spindle box. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2022
[13] Liu Zhe, He Shulong, Wei Jinge. C-type HT300 spindle box. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 13th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2022
[14] Xiao Jingyi, Li Yifan, Xu Feiyang, Liu Xuefeng. A-type QT500 support. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 12th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2021
[15] Wang Zhifeng, Dai Yujiao, Zhang Qing, Wei Lifu. B-type ZG35CrMo planetary carrier. National Third Prize (Undergraduate) of China Mechanical Engineering Innovation and Creativity Competition for University Students: The 12th Foundry Process Design Competition, Chinese Mechanical Engineering Society, 2021