副教授

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  • 姓名:许越

  • 职称:副教授
  • 联系电话:010-82339930
  • 电子邮箱:xuyue@buaa.edu.cn
  • 办公地址:北航新主楼D436

教育背景

1979.09-1983.07   南开大学 化学系 大学本科
1986.09-1989.07   哈尔滨工业大学 应用化学系 硕士研究生
1999.09-2002.07   哈尔滨工业大学 材料学院 博士研究生

工作履历

1983.09-2001.10   哈尔滨工业大学 应用化学系
1995.10-1997.04   德国海德堡大学化学系
2001.11-2008.05   北京航空航天大学材料学院
2008.06-现   在   北京航空航天大学化学与环境学院

学术兼职

清华大学“先进核能技术协同创新中心”材料性能及制造工艺
研究员        

奖励与荣誉

1.国防科学技术进步二等奖;
2.北京航空航天大学“安美特教师奖”;
3.北京航空航天大学“成飞奖教金”二等奖;
4.北京航空航天大学“教学成果奖”多项;
5.北京航空航天大学研究生精品课程“化学反应动力学”负责人。

研究领域

1.陶瓷环境障涂层的制备与性能基础研究;
2.金属及合金材料表面改性(气、液、固多元渗)工程化研究;
3.功能搪瓷、陶瓷涂层工程化研究;
4.精细化学品(清洗剂、防锈剂、除锈剂等)产业化开发研究;
5.摩擦传扭增摩涂层工程化研究。

承担项目

1. 焦硅酸镥/单硅酸镥双相复合环境障涂层的韧化机制研究
(国家自然科学基金项目) 2012.01-2015.12
2. 纳米结构稀土硅酸盐环境障涂层的激光熔凝合成机制研究
(国家自然科学基金项目)  2014.01-2017.12
3. 铝电解槽中金属件表面抗冰晶石融盐腐蚀技术 (横向课题,山西关铝集团)
4. 钢表面盐浴多元复合渗技术 (横向课题,山西关铝集团)  
5. 金属材料的粉末微区熔铸技术 (横向课题,山西关铝集团)
6. 液压联轴节增摩涂层技术的研究及产业化 (横向课题,中船重工)

学术成果

1.部分科研论文
(1) Rare earth silicate environmental barrier coatings: Present status and prospective. Ceramics International, 2017, 2
(2) A Co3O4 Nano-needles Mesh for High-efficient, High-flux Emulsion
Separation.Journal of Materials Chemistry A, 2016, 6
(3) Preparation and corrosion resistance of rare earth-silane composite
conversion coatings on magnesium-lithium alloy surface. Rare Metals,
2015, 34(11)
(4) Corrosion mechanism of anode steel claw in high temperature cryolite
molten salt and corrosion resistance technology. Materials Research
Innovations, 2015, 19 (S4) : 260
(5) Effect of doping rare earth oxides and nano-silica on the performance
of the functional enamel. Journal of rare earths, vol.32, Spec.Issue,
Nov.2014: 149
(6) Preparation and molten salt corrosion research of composite
environmental barrier coatings of Lu2Si2O7 and Lu2SiO5 Materials
Research Innovations, 2014, 18 (4): 958
(7) Preparation and characterisation of threelayered environmental barrier
coatings onto silicon carbide substrate, Materials Research Innovations,
2014, 18 (4):963
(8) Cu2O-CuO composite microframes with well-designed micro/nano
structures fabricated via controllable etching of Cu2O microcubes for CO
gas sensors Crystengcomm, 2013, 15(37): 746
(9) Well-graphitized graphene as photoinduced charge transport channel
for improving the photocatalytic activity of AgBr, New Journal of
Chemistry, 2013, 37(6): 1797
(10) Corrosion properties of Light-weight and high-strength 2195
aluminum-lithium alloy. Chinese Journal of Aeronautics, 2011, 24(5): 681
(11) Performances and failure mechanism of Semi-metallic friction
materials doping Rare Earths. Journal of Rare Earths, 2010,28:464
(12) Investigation on preparation of Si/mullite/Yb2Si2O7 environmental
barrier coatings onto silicon carbide. Journal of Rare Earths, 2010, 28 (3):
399
(13) Effects of Rare Earths on Properties and Microstructure of
Automotive Friction Materials. Journal of Rare Earths,2007,25: 94
(14) The Preparation and Characterization of Semi-metal Friction
Materials doping Rare Earths. Journal of Rare Earths,2007, 25: 364
(15) Investigation on Interaction Mechanism of Components in Fiction
Materials Doping Rare Earths. Journal of Rare Earths,2007,25:369
(16) Preparation and Characterization of Sol-gel Coatings Doping with
Ce Ingredients on Aluminum Alloy Surface. Journal of Rare Earths, 2007,
25 (Spec.Issue): 193
(17) Corrosion Resistance of AZ91D Magnesium Alloy Modified by Rare
Earths Laser Surface Treatment. Journal of Rare Earths, 2007, 25: 201
(18) Effects of Rare Earth Elements on Corrosion Resistance of Sol- gel
Coatings for 2024 Aluminum Alloy. Materials Science Forum,
Vol:546-549 (2007): 1801

2.专利
(1)国家发明专利3项
(2)实用新型专利1项