不同纤维材料对铜基粉末冶金摩擦材料性能的影响OA
Effect of Different Fibre Materials on the Properties of Copper-based Powder Metallurgy Friction Materials
笔者采用传统粉末冶金工艺分别制备了含碳纤维、钛酸钾晶须、氧化锆陶瓷纤维以及作为对比不含纤维材料的铜基粉末冶金摩擦材料,研究了不同种类的纤维材料对摩擦材料物理及力学性能和摩擦磨耗性能的影响.结果表明:添加三种纤维的摩擦材料硬度与对比样品相当;对于摩擦体剪切强度和抗压强度,添加碳纤维样品与添加钛酸钾晶须样品相当,均大于添加氧化锆陶瓷纤维的样品和对比样品;对于摩擦系数而言,氧化锆陶瓷纤维样品最高,碳纤维样品最低,钛酸钾晶须样品以及对比标样居中;在高中低时速下的摩擦系数稳定性,碳纤维样品和钛酸钾晶须样品均优于对比样品,氧化锆陶瓷纤维样品最差;在磨耗方面,碳纤维样品磨耗最低,钛酸钾晶须样品与对比样品相当,氧化锆陶瓷纤维样品最高.从整体上分析评判,添加钛酸钾晶须的摩擦材料综合性能最佳.
Copper-based powder metallurgy friction materials containing carbon fiber,potassium titanate whisker,zirconia fiber,and a control sample without fiber materials were fabricated using traditional powder metallurgy processes.The effects of different fiber materials on the physical,mechanical,and tribological properties of friction materials were investi-gated.Results showed that the hardness of fiber-containing materials remained comparable to the contrast sample.Re-garding shear strength and compressive strength,samples with carbon fiber and potassium titanate whisker demonstrated equivalent values,both exceeding those with zirconia fiber and the contrast sample.The friction coefficient was highest in zirconia fiber samples and lowest in carbon fiber samples,while potassium titanate whisker samples and the contrast sam-ple exhibited moderate values.In terms of friction coefficient stability at high,medium,and low speeds,carbon fiber and potassium titanate whisker samples outperformed the contrast sample,with zirconia fiber samples showing the poorest sta-bility.Wear resistance was optimal in carbon fiber samples,comparable between potassium titanate whisker and contrast samples,and worst in zirconia fiber samples.Comprehensive analysis indicates that friction materials incorporating potassi-um titanate whisker exhibit the most balanced overall performance.
刘建刚;聂军波;刘英凯;郝文龙
博深股份有限公司 石家庄 050035博深股份有限公司 石家庄 050035博深股份有限公司 石家庄 050035博深股份有限公司 石家庄 050035
矿业与冶金
粉末冶金纤维摩擦材料性能
Powder metallurgyFiberFriction materialPerformance
《陶瓷》 2026 (3)
22-25,111,5
评论