摘要
通过在液态酚醛树脂溶液中引入不同粒径的CuO-TiO2低温烧结氧化铝陶瓷粉体、陶瓷-芳纶-金属混杂纤维以及硅烷偶联剂,探讨了陶瓷粉体、混杂纤维以及偶联剂等对树脂基复合材料摩擦因数与磨损率的影响规律。结果发现,粗大氧化铝陶瓷颗粒的引入,有助于提高树脂基复合材料的摩擦因数并降低其磨损率;将Ti/Cu摩尔比为4.0的低温烧结氧化铝粉体引入到酚醛树脂中,可获得摩擦因数0.54、磨损率0.22×10-7cm3/N·m的良好摩擦性能;适量硅烷偶联剂的添加能有效提高摩擦因数并降低磨损率,过量的陶瓷粉体与混杂纤维虽然可以提高摩擦因数,但因造成树脂相对含量的减少而使得复合材料的整体结合力变小,从而恶化了复合材料的耐磨损性能。
Through adding Al2O3 powders doped with CuO-TiO2 sintering aids,hybrid fibers and siloxane coupling agent into liquid state phenol-formaldehyde resin,the friction and wear performances of resin-based composites have been investigated.It was found that the friction coefficient of resin-based composite materials was improved and the wear rate was decreased by introduction of coarse Al2O3 particles.Adding Al2O3 ceramic powders doped with 2 wt% CuO-TiO2 sintering aids(the molar ratio of TiO2 to CuO was 4.0),the resin-based friction materials were given a good friction and wear properties,and the friction coefficient and wear rate was 0.54 and 0.22×10^-7 cm^3/N·m,respectively.It was useful to improve the friction coefficient and lower the wear rate by adding appropriate amount of siloxane coupling agent,Al2O3 powders and hybrid fibers.An excessive amount of Al2O3 powders and hybrid fibers could increase the friction coefficient,but deteriorate the wear performance,primarily due to lowering the relative content of phenol-formaldehyde resin.
出处
《非金属矿》
CAS
CSCD
北大核心
2010年第6期72-75,78,共5页
Non-Metallic Mines
基金
教育部新世纪优秀人才支持计划(NCET-07-0786)
浙江省科技计划(2008C21054)
关键词
摩擦材料
氧化铝
混杂纤维
酚醛树脂
硅烷偶联剂
friction material Al2O3 powders hybrid fibers phenol-formaldehyde resin siloxane coupling agent