一 研究领域
纤维、颗粒增强金属基复合耐磨材料
轻金属及其合金化的制备及新技术研发
二 科研项目
[1]国家国际科技合作项目:原位整体复合柱状M7C3硬质点耐磨材料复合工艺及其特性研究(编号:2008KR0762)
[2]国家863计划(课题):纳米金属丝材及其复合产品规模化装备研制.(编号:2008AA03Z310)
[3]陕西省“13115”科技创新工程重大科技产业化项目:原位生成柱状硬质相增强金属基复合材料及其产品产业化.(编号:2009ZDCY-14)
[4]陕西省科技厅科技统筹项目:多热源-内热式-电热法竖式炉炼镁技术与装备(编号:KTCQ1-17)
[5]西安市科技计划项目:电致发热碳化硅梯度多孔陶瓷中试关键技术”(编号:CX1261⑦)
[6]陕西省教育厅项目:钛丝丝网原位合成Al3Ti颗粒增强铝基表面复合材料(编号:11JK0799)
[7]陕西省教育厅项目:气相合金化制备超纯净镁合金机理性研究.(编号:2013JK0861)
[8]陕西省教育厅重点实验室项目:原位合成WC微/纳颗粒增强金属基复合材料及其工艺研究.(编号:09JS032)
[9]西安市科技局项目:电内热快速炼镁新技术与新装备研发. (编号:CX1254⑧)
[10]云南煤炭勘探局合作项目:云南昭通超纯无烟煤高性能材料转化应用研究(横向)
[11]北京神州洪雨防水材料有限责任公司项目:ZX-1型全自动化SBS防水卷材生产的在线检测(横向)
[12]上海尧率经贸有限公司项目:冷/热轧高锰钢板材在喷丸机上的使用及磨损性能研究(横向)
三 期刊论文
[1]Ma J, Niu L B, Long Y X, et al. Effect of Hot Extrusion on Microstructure and Corrosion Performance of Mg–Zn Binary Alloys Prepared by Vacuum Evaporation[J]. Science of Advanced Materials, 2020, 12(7): 973-980.
[2]MA Jun, NIU Li-bin, YAN Yu-ting, GAO Chong, WANG Xiao-gang. Influence of heat treatment on microstructure and electrochemical behaviors of Mg-Zn binary alloys prepared by gas-phase alloying technique [J]. Journal of Central South University, 2020, 27(3): 762−771.
[3]Li-bin Niu*and Xiao-gang Wang. A novel vertical magnesium reduction furnace by inner-multiple-electrical heating[J]. Int.J.Mining and Mineral Engineering, 2015, 6(1):14-21
[4]Li-bin Niu and Xiao-gang Wang A novel vertical magnesium reduction furnace by inner multiple electrical heating[J]. Int. J. Mining and Mineral Engineering, 2014, 18 (3).27-34.
[5]NIU Libin, WANG Xiaogang, FAN Zimin. Center Distance and Pouring Temperature on in-situ Synthesis of WCP/Fe Composite Coating[J]. Journal of Wuhan University of Technology Mater. Sci. Ed. 2013, (6): 449-454.
[6]Li-bin NIU*, Ju-mei ZHANG,Xiao-lan YANG., In-situ synthesis of Al3Ti particles reinforced Al-based composite coating[J]. Transactions of Nonferrous Metals Society of China, 2012, 22(6): 1387-1392.
[7]Libin Niu*, Yunhua Xu, Xiaogang Wang, Fabriaction of WC/Fe composite coating by centrifugal casting plus in situ synthesis techniques[J]. Surface &Coatings Technology, 2010, 205: 551-556.
[8]L. Niu*, Y. Xu, H. Wu. Reinforcement of Hadfield steel matrix by oriented high-chromium cast iron bars[J]. Fatigue & Fracture of Engineering Materials & Structures, 2010, 34: 423-429.
[9]NIU Li bin*, XU Yun hua, PENG Jian Hong, WU Hong. Effects of heat treatment on mechanical properties and microstructure of tungsten wire reinforced gray cast iron matrix composites[J]. China foundry, 2009, 6(4): 333-338.
[10]Libin Niu*, Mirabbos Hajamaberdiev Yunhua Xu preparation of in situ-formed WC/Fe composite on gray cast iron substrate by a centrifugal casting process[J]. Journal of Materials Processing Technology, 2010, 210: 1986-1990.
[11]Libin Niu*, Mirabbos HojamberdievYunhua Xu Microstructure and mechanical properties of Hadfield steel matrix composite reinforced with oriented high-chromium cast iron bars[J]. Materials science, 2010, 45(16): 2321-2325.
[12]Niu Libin*, Xu Yunhua, Wu Hong. Preparation of in situ (Fe,Cr)7C3 / Fe composite coating by centrifugal casting[J]. Surface Engineering, 2010, 3: 675-680.
[13]NIU Li bin*, WU Hong, XU Yun hua, Microstructure and mechanical properties of high-Cr cast iron bars reinforced Hadfield steel matrix composites[J]. Journal of Wuhan University of Technology, 2010, 25(3): 464-468.
[14]Niu Libin*, Xu Yunhua, Wu Hong. Study on in-situ WC particles/tungsten wire reinforced iron matrix composites under electromagnetic field[J]. China foundry, 2010, 7(2): 157-162.
四 授权专利
[1]牛立斌. 一种原位生成碳化硅纤维束增强铝基复合材料的制备方法, 专利号: ZL201710643905.2
[2]牛立斌, 王晓刚, 樊子民, 陆树河. 超纯镁锌二元合金的制备方法及制备装置, 专利号: CN2014101508181
[3]牛立斌, 樊子民, 王晓刚. Al3Ti/Al3Ni颗粒协同增强硅铝基复合活塞及制备方法, 专利号: CN201310223926
[4]牛立斌, 孙万昌, 杨小兰. 原位合成Al3Ti颗粒表面增强铝基复合气缸套及其制备方法, 专利号: ZL201110121461.0
[5]牛立斌, 许云华, 武宏, 吴天栋. 一种原位熔覆耐磨层强化球墨铸铁复合轧辊的制备方法, 专利号: 200910024365.7
[6]牛立斌, 许云华. 钨丝原位生成碳化钨颗粒铁基复合材料及其制备方法, 专利号: 20081001759
[7]牛立斌, 许云华, 崔雅茹. 一种混杂增强铸铁基复合轧辊及其制造方法, 专利号: 200810232068
