Synthesis and tribological properties of ferrous octoxyborate as antiwear and friction-reducing additive of lubricating oil

被引:0
|
作者
Z.S. Hu
Y. Yie
L.G. Wang
G.X. Chen
J.X. Dong
机构
[1] Logistic Engineering College,
来源
Tribology Letters | 2000年 / 8卷
关键词
synthesis; ferrous octoxyborate; tribology; boron-containing compound;
D O I
暂无
中图分类号
学科分类号
摘要
An oil-soluble compound containing ferrous iron and boron–ferrous octoxyborate was synthesized. The antiwear and friction-reducing properties of the compound as a lubricating oil additive were evaluated using a four-ball and a block-on-ring tribotester. Results indicated that both the wear resistance and the load-carrying capacity of a 500 SN base oil were improved and its friction coefficient was decreased by the additive. The wear scar, after being cleaned using an ultrasonic bath in ligroin and in distilled water, was characterized with SEM and XPS. Diboron trioxide, FeB and Fe2B were all found to have been deposited on the wear-scar surface. It was this deposition that provided the oil with excellent antiwear and friction-reducing properties.
引用
收藏
页码:45 / 50
页数:5
相关论文
共 50 条
  • [31] THE ANTIWEAR PROPERTIES OF POTASSIUM BORATE AS AN OIL ADDITIVE
    LIU, WM
    BING, Z
    HUANG, CX
    ZHANG, XS
    XUE, QJ
    WANG, HQ
    LUBRICATION ENGINEERING, 1991, 47 (05): : 344 - 347
  • [32] Friction reducing anti-wear and self-repairing properties of nano-Cu additive in lubricating oil
    Zhang Y.
    Yan J.
    Sun L.
    Yang G.
    Zhang Z.
    Zhang P.
    Jixie Gongcheng Xuebao/Journal of Mechanical Engineering, 2010, 46 (05): : 74 - 79
  • [33] Synthesis and tribological behavior of phosphorous-nitrogen-incorporated rapeseed oil as lubricating additive
    Fang, Jian-Hua
    Chen, Bo-Shui
    Huang, Wei-Jiu
    Guo, Xiao-Chuan
    Zhang, Bin
    2001, Science Press (21):
  • [34] Dispersion and their tribological properties of molybdenum nanoparticles with different particle sizes as additive in lubricating oil
    Chen, Tianhua
    FUNCTIONAL MATERIALS, 2018, 25 (03): : 632 - 636
  • [35] High Temperature Tribological Properties of Modified Nano-diamond Additive in Lubricating Oil
    Sun, X. F.
    Qiao, Y. L.
    Song, W.
    Ma, S. N.
    Hu, C. H.
    INTERNATIONAL FEDERATION FOR HEAT TREATMENT AND SURFACE ENGINEERING (20TH CONGRESS), 2013, 50 : 343 - 347
  • [36] Tribological properties of graphene oxide as a lubricating additive in water and lubricating oils
    Kinoshita, Hiroshi
    Ono, Hideki
    Alias, Aidil Azli
    Nishina, Yuta
    Fujii, Masahiro
    MECHANICAL ENGINEERING JOURNAL, 2015, 2 (06):
  • [37] Tribological properties of lyophilized graphene loading nano-copper as lubricating oil additive
    Peng, Runling
    Liu, Jinyue
    Wang, Wei
    Wang, Peng
    Liu, Shijiao
    Zhai, Haonan
    Dai, Leyang
    Guo, Junde
    INDUSTRIAL LUBRICATION AND TRIBOLOGY, 2023, 75 (03) : 325 - 332
  • [38] Preparation and Tribological Properties Research of NbSe2 Nanowires as Additive in Lubricating Oil
    Sun Jianrong
    Li Changsheng
    Tang Hua
    Hao Maode
    RARE METAL MATERIALS AND ENGINEERING, 2013, 42 (10) : 2183 - 2186
  • [39] RELATION BETWEEN ADSORPTION AND ANTIWEAR PROPERTIES FOR LUBRICATING OIL ADDITIVES
    BRIANT, JF
    MAZE, MH
    JOURNAL OF RHEOLOGY, 1980, 24 (06) : 938 - 938
  • [40] Development of nano biochar as a lubricating oil additive for tribological applications
    Wang, Youheng
    Hou, Xianjun
    Zhang, Longxiang
    Ali, Mohamed Kamal Ahmed
    Jiang, Hua
    Ma, Yuxin
    JOURNAL OF CLEANER PRODUCTION, 2023, 421
12345