王斌

基本信息

教育背景

2015.9至2019.9，北京交通大学，机械工程，博士，导师：常秋英，房海蓉

2012.9至2014.7，北京交通大学，机械工程，硕士，导师：常秋英

工作经历

2021.11至今，北京交通大学，机械与电子控制工程学院，高聘副教授

2019.10至2021.11，清华大学，机械系，博士后，合作导师：田煜

研究方向

• 智能制造与机器人
• 智能制造与装备

招生专业

• 机械工程硕士

科研项目

国家自然科学基金青年科学基金，52005284，高性能硅酸盐水热复合石墨烯抗磨添加剂研究，主持，在研

自然科学横向项目，环保设备用润滑油脂的润滑状态和润滑失效机制研究，主持，在研

自然科学类人才基金项目，纳米羟基硅酸镁的磨损自修复机制研究，主持，在研

教学工作

本科生课程：机械设计，机械系统创新设计综合实践

研究生课程：机械装备润滑专题实践，现代机械设计方法

论文/期刊

[1] Wang B, Gao K, Wang YJ, Chang QY, Yang H. Synergistic dispersion, adsorption, and anti-wear effects of magnesium silicate hydroxide nanomaterials and carboxylic acid. Applied Surface Science 2024, 665: 160373.

[2] Wang B, Gao K, Wang K, Wang YJ, Chang QY, Yang H. Induced decomposition and slip interface transformation of oleic acid enables ultralow wear in boundary lubrication. Langmuir 2024, 40(3): 1941–1949.

[3] Gao K, Wang B, Berman D, Ren YL, Luo JB, Xie GX. Self-adaptive macroscale superlubricity based on the tribocatalytic properties of partially oxidized black phosphorus. Nano Letters 2023, 23(15): 6823-6830.

[4] Wang B, Gao K, Chang QY, Berman D, Tian Y. Magnesium silicate hydroxide−MoS₂−Sb₂O₃ coating nanomaterials for high-temperature superlubricity. ACS Applied Nano Materials 2021, 4(7): 7097–7106.

[5] Wang B, Chang QY, Gao K, Wen XL, Bai PP, Tian Y. Superlow wear realizable tribofilms from lubricant oil containing hydrothermallysynthesized magnesium silicate hydroxide/carbon core-shell nanoplates. Langmuir 2021, 37(1): 240–248.

[6] Gao K, Wang B, Shirani A, Chang QY, Berman D. Macroscale superlubricity accomplished by Sb₂O₃–MSH/C under high temperature. Frontiers in Chemistry, 2021, 9: 667878.

[7] Gao K, Chang Q, Wang B, Gao RQ. The tribological response of nanoparticles' equivalent diameter to the oil film thickness. Lubrication Science, 2021: 1-10.

[8] Wang B, Chang QY, Gao K, Wang K. Hydrothermal synthesized magnesium silicate hydroxide/graphene nanocomposites in a MgO-SiO₂-graphite-H₂O alkaline system and its application in anti-wear additive toward infinitesimal wear. Tribological International 2020, 148:106313.

[9] Gao K, Chang Q, Wang B. The dispersion and tribological performances of magnesium silicate hydroxide nanoparticles enhanced by Span60 oleogel. Journal of Sol-Gel Science and Technology, 2020, 94(1):165-173.

[10] Chang QY, Wang B, Gao K. Pressure-dependent anti-wear mechanisms of synthetic magnesium silicate hydroxide nanoparticles. Tribology International 2019, 135: 230-236. （共同一作）

[11] Wang B, Chang QY, Gao K. A hydrothermal reacting approach to prepare few-layer graphene form bulk graphite. Applied surface science 2019, 497:20-24.

[12] Wang B, Chang QY, Gao K. Synergistic tribological properties of synthetic magnesium silicate hydroxide combined with amphiphilic molecules. The Journal of Facta Universitatis Series: Mechanical Engineering 2019.17:65-74.

[13] Gao K, Chang Q, Wang B, Gao RQ, He Jing. Preparation of Fe₃O₄@C composite nanoparticles with core-shell structure in subcritical water condition. Diamond and Related Materials, 2019, 101:107627.

[14] Wang B, Chang QY, Gao K, Fang HR, Qing T, Zhou NN. The synthesis of magnesium silicate hydroxide with different morphologies and the comparison of their tribological properties. Tribological International 2018, 119:672-679.

[15] Gao K, Chang Q, Wang B, Zhou NN, Qing T. Synthetic magnesium silicate hydroxide nanoparticles coated with carbonaceous shell in subcritical water condition. Applied Surface Science, 2018, 450:312-317.

[16] Gao K, Chang Q, Wang B, Zhou NN, Qing T. The tribological performances of modified magnesium silicate hydroxide as lubricant additive. Tribology International, 2018, 121:64-70.

          [17] Gao K, Chang Q, Wang B, et al. The purification and tribological property of the synthetic magnesium silicate hydroxide modified by oleic acid. Lubrication science, 2018, 30(7): 377-385.

专著/译著

专利

1. 常秋英，高凯，王斌. 一种枝接脂肪酸制备复合抗磨添加剂的方法.公开专利号：CN201710717538.8

2. 常秋英，高凯，王斌.一种在羟基硅酸镁纳米颗粒表面包覆无定形碳的方法.公开专利号：CN201811406222.8

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