摘要
研究了Cu、Ag及Au等金属基体上二烷基二硫代磷酸修饰MoS2纳米微粒LB膜的摩擦学性能,用红外显微镜分析LB膜在摩擦过程中的结构变化,用电子探针分析考察不同金属基体上LB膜的磨痕形貌.结果表明:DDP修饰MoS2纳米微粒LB膜可有效降低Ag和Cu与GCr15钢对摩时的摩擦系数;该LB膜极易向对偶转移并在摩擦过程中发生摩擦化学变化,主要包括无序化转变及修饰剂的部分分解;无机纳米核起主要承载和抗磨作用.Cu基体上的LB膜耐磨寿命较Ag基体上LB膜的耐磨寿命高100倍,这主要因LB膜与Ag基体的结合较弱.
The tribological behaviors of dialkyldithiophosphate (DDP)
capped MoS 2 nanoparticle (MoS 2 DDP) LB films on copper, silver and gold substrates were
studied. The structural changes during rubbing process have been investigated by means of
Fourier Transform Infrared (FTIR) microspectroscopy. The surface morphology of the wear track
of the LB films on different metal substrates was observed with an EPM 810 electron probe
microanalyzer. The results show that the LB films can lower strikingly friction coefficient of
silver and copper substrate under certain experiment conditions. A transfer film formed on the
steel counterface, and tribochemical changes occurred during friction process, which mainly
include disordering and partial decomposition of surface modifying agent. The nucleus of MoS
2 nanoparticle plays a role in load carrying and wear resisting, especially after partial
decomposition of surface modifying agent with increasing of friction duration. The wear
resistance of the LB films on copper is higher by a factor of 100 and one of the main reasons is
that adhesive strength between the film and silver substrate is weaker.
出处
《摩擦学学报》
EI
CAS
CSCD
北大核心
1999年第2期112-116,共5页
Tribology
基金
国家自然科学基金
