摘要
采用粉末冶金工艺制备了无铅的铜铋轴承材料,并在HDM-20端面摩擦磨损试验机上进行了边界润滑条件下的摩擦磨损试验,分析了无铅的铜铋轴承材料的减摩、抗粘着性能及其承载能力。结果表明:无铅的铜铋轴承材料因有低熔点组元铋的存在,能阻碍因油膜破裂而引起的摩擦副局部区域的直接接触,体现出较好的减摩、抗粘着性能。定载试验时,铋含量为1.0%~3.0%(质量)时无铅的铜铋轴承材料的减摩、抗粘着性能较好;变载试验时,铋含量为2.0%~3.0%(质量)时无铅的铜铋轴承材料的抗粘着、咬合性能好,承载能力高。
Lead-free copper-bismuth(Cu-Bi) bearing materials were prepared by powder metallurgy method.The tribotests of the Cu-Bi bearing materials were conducted by using the HDM-20 tribometer under boundary lubrication conditions.The anti-friction,anti-adhesion and the carrying capacity of the lead-free Cu-Bi bearing materials were also analyzed.The results showed that the addition of Bi element can improve the anti-friction and anti-adhesion of the bearing materials,which is originated from the Bi(its melting point is lower than 270 ℃) and the protection of the frictional surfaces from direct contact during sliding in the case of failure of oil film.To achieve the better performance of the anti-friction and anti-adhesion of the bearing materials,the optimal addition of Bi is 1.0~3.0 wt% at constant load and 2.0~3.0 wt% at increasing loads.
出处
《金属功能材料》
CAS
2010年第5期32-36,共5页
Metallic Functional Materials
基金
国家自然科学基金(50975072)
关键词
铜铋轴承材料
无铅
摩擦学特性
copper-bismuth bearing material
lead-free
tribological properties
