摘要
采用羟基硅酸镁粉体作为润滑油添加剂,在MMU-5G材料端面摩擦磨损试验机上,研究了不同添加剂含量对45#钢/45#钢摩擦副磨损表面自修复膜生成的影响及其机制,借助SEM及EDX测试分析摩擦副的表面形貌及表面成分组成。结果表明,自修复添加剂的含量对羟基硅酸镁粉体添加剂在磨损表面形成自修复膜影响显著。在添加剂质量分数为2%,3%和5%的工况条件下,试样磨损表面有自修复膜生成。添加剂质量分数为2%时,易于短时间内达到磨损-自修复动态平衡,自修复效果最为理想。自修复膜的生成过程包含磨粒磨损和摩擦化学反应2个阶段。自修复膜的生成使得试样摩擦磨损表面平整光滑,可以有效降低金属磨损。
Influence and mechanism of self-repair coating on the worn surfaces of 45 steel pairs were investigated by using MMU-SG end-face friction and wear tester under lubricated condition with magnesium silicate hydroxide powder additives of different concentration. The surface images of self-repair coatings and their chemical composition were detected by using SEM and EDX. The experimental results show varying concentration of additives has a great influence on the formation of self-repair coating on the worn surface. Self-repair coatings are formed with the concentration( mass fraction) of 2% ,3% and 5%. The dynamical equilibrium of wear and self-repair can be achieved in a short time with the additives concentration of 2% ,while the self-repair coatings with high quality are formed. The formation of self-repair coatings consists of two stages of abrasive wear and tribochemical reaction. The surface of 45 steel with self-repair coatings is flat and smooth which can improve the wear resistance of the metals.
出处
《润滑与密封》
CAS
CSCD
北大核心
2007年第6期46-49,共4页
Lubrication Engineering
基金
国家自然科学基金资助项目(50475079)
河北省自然科学基金资助项目(E2007000359)
高等学校博士学科点专项科研基金项目(20060216013)
关键词
摩擦磨损
自修复
添加剂
friction and wear
self-repair
additive
