The rolling treatment of steel-mushy QTi3.5-3.5 graphite composite was conducted under different relative reduction at room temperature. The effect of room-temperature rolling on interracial mechanical property of ste...The rolling treatment of steel-mushy QTi3.5-3.5 graphite composite was conducted under different relative reduction at room temperature. The effect of room-temperature rolling on interracial mechanical property of steel-mushy QTi3.5-3.5 graphite composite was studied and the relationship between interracial shear strength and relative reduction was established. The results show that, for steel-mushy QTi3.5-3.5 graphite composite, which consists of 1.2 mm-thick 08AI steel plate and 2.8 mm-thick QTi3.5-3.5 graphite layer, there is a nonlinear relationship between interracial shear strength and relative reduction in graphite layer. When relative reduction is smaller than 1.1%,interracial shear strength increases with increasing the relative reduction. When relative reduction is larger than 1.1%, interracial shear strength decreases with increasing the relative reduction. When relative reduction is 1.1%,the largest interracial shear strength of 145.2 MPa can be obtained.展开更多
Ti3AlC2 was added into Cu-graphite composites to enhance their tribological properties.The impact of sintering temperature on properties of Cu-graphite-Ti3AlC2 composites(CGTCs)fabricated by spark plasma sintering(SPS...Ti3AlC2 was added into Cu-graphite composites to enhance their tribological properties.The impact of sintering temperature on properties of Cu-graphite-Ti3AlC2 composites(CGTCs)fabricated by spark plasma sintering(SPS)was studied,including microstructure,density,hardness,electrical conductivity,interfacial properties,and tribological behavior.The results indicate that mutual diffusion between Ti3AlC2 and Cu occurs during sintering,leading to metallurgical bonding.Moreover,titanium atoms originating from Ti3AlC2 undergo a reaction with carbon atoms on the graphite surface,facilitating enhanced bonding between Cu and graphite.CGTCs exhibit promising lubrication performance at different sintering temperatures,with friction coefficients ranging from 0.15 to 0.25.The wear rate decreases and then increases with the increase of sintering temperature.Optimal tribological properties are achieved at 980℃,when the average friction coefficient and wear rate are 0.18 and 4.82×10−6 mm3·(N·m)−1,respectively.展开更多
基金supported by the National Natural Science Foundation of China(Nos.50274047 and 50304001)the Ministry of Education of PRC FoundationBeijing Jiaotong University Foundation
文摘The rolling treatment of steel-mushy QTi3.5-3.5 graphite composite was conducted under different relative reduction at room temperature. The effect of room-temperature rolling on interracial mechanical property of steel-mushy QTi3.5-3.5 graphite composite was studied and the relationship between interracial shear strength and relative reduction was established. The results show that, for steel-mushy QTi3.5-3.5 graphite composite, which consists of 1.2 mm-thick 08AI steel plate and 2.8 mm-thick QTi3.5-3.5 graphite layer, there is a nonlinear relationship between interracial shear strength and relative reduction in graphite layer. When relative reduction is smaller than 1.1%,interracial shear strength increases with increasing the relative reduction. When relative reduction is larger than 1.1%, interracial shear strength decreases with increasing the relative reduction. When relative reduction is 1.1%,the largest interracial shear strength of 145.2 MPa can be obtained.
基金Open subject of State Key Laboratory of Heavy-Duty and Express High-Power Electric Locomotive(QZKFKT2023-007)。
文摘Ti3AlC2 was added into Cu-graphite composites to enhance their tribological properties.The impact of sintering temperature on properties of Cu-graphite-Ti3AlC2 composites(CGTCs)fabricated by spark plasma sintering(SPS)was studied,including microstructure,density,hardness,electrical conductivity,interfacial properties,and tribological behavior.The results indicate that mutual diffusion between Ti3AlC2 and Cu occurs during sintering,leading to metallurgical bonding.Moreover,titanium atoms originating from Ti3AlC2 undergo a reaction with carbon atoms on the graphite surface,facilitating enhanced bonding between Cu and graphite.CGTCs exhibit promising lubrication performance at different sintering temperatures,with friction coefficients ranging from 0.15 to 0.25.The wear rate decreases and then increases with the increase of sintering temperature.Optimal tribological properties are achieved at 980℃,when the average friction coefficient and wear rate are 0.18 and 4.82×10−6 mm3·(N·m)−1,respectively.
