功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2014年
15期
15111-15113
,共3页
梁桂强%崔立功%朱永永%夏法锋
樑桂彊%崔立功%硃永永%夏法鋒
량계강%최립공%주영영%하법봉
电镀%Ni-SiC镀层%摩擦学性能
電鍍%Ni-SiC鍍層%摩抆學性能
전도%Ni-SiC도층%마찰학성능
electrodeposition%Ni-SiC coating%wear property
采用直流电镀、脉冲电镀和超声波辅助脉冲电镀方法,在20钢表面制备 Ni-SiC 镀层.利用扫描探针显微镜(SPM)、X 射线衍射仪(XRD)、扫描电镜(SEM)、显微硬度计及摩擦磨损试验机研究制备方法对 Ni-SiC 镀层显微组织、成分及摩擦学性能的影响.结果表明,制备方法对 Ni-SiC 镀层表面形貌有很大影响,超声波辅助脉冲电镀镀层 Ni 晶粒和 SiC 微粒的平均粒径分别为94.5和46.8 nm,其最大显微硬度为924.3 Hv.直流电镀、脉冲电镀和超声波辅助脉冲电镀 Ni-SiC 镀层的摩擦系数平均值分别为0.66,0.54和0.35,超声波辅助脉冲电镀镀层耐磨性能优良.
採用直流電鍍、脈遲電鍍和超聲波輔助脈遲電鍍方法,在20鋼錶麵製備 Ni-SiC 鍍層.利用掃描探針顯微鏡(SPM)、X 射線衍射儀(XRD)、掃描電鏡(SEM)、顯微硬度計及摩抆磨損試驗機研究製備方法對 Ni-SiC 鍍層顯微組織、成分及摩抆學性能的影響.結果錶明,製備方法對 Ni-SiC 鍍層錶麵形貌有很大影響,超聲波輔助脈遲電鍍鍍層 Ni 晶粒和 SiC 微粒的平均粒徑分彆為94.5和46.8 nm,其最大顯微硬度為924.3 Hv.直流電鍍、脈遲電鍍和超聲波輔助脈遲電鍍 Ni-SiC 鍍層的摩抆繫數平均值分彆為0.66,0.54和0.35,超聲波輔助脈遲電鍍鍍層耐磨性能優良.
채용직류전도、맥충전도화초성파보조맥충전도방법,재20강표면제비 Ni-SiC 도층.이용소묘탐침현미경(SPM)、X 사선연사의(XRD)、소묘전경(SEM)、현미경도계급마찰마손시험궤연구제비방법대 Ni-SiC 도층현미조직、성분급마찰학성능적영향.결과표명,제비방법대 Ni-SiC 도층표면형모유흔대영향,초성파보조맥충전도도층 Ni 정립화 SiC 미립적평균립경분별위94.5화46.8 nm,기최대현미경도위924.3 Hv.직류전도、맥충전도화초성파보조맥충전도 Ni-SiC 도층적마찰계수평균치분별위0.66,0.54화0.35,초성파보조맥충전도도층내마성능우량.
Ni-SiC coatings were prepared on the surface of 20 steel by direct current,pulse current and ultra-sound+ pulse current plating methods,respectively.The effect of preparation methods on microstructures, components and wear properties was investigated by using scanning probe microscope (SPM),X-ray diffraction (SXRD),scanning electron microscope (SEM),microhardness tester,and friction and wear tester.The results present that plating method has great influence on microstructures of Ni-SiC coatings.The average grain size of Ni and SiC in Ni-SiC coatings prepared by ultrasound+pulse current plating was 94.5 and 46.8 nm,respectively. And the maximum microhardness was 924.3 Hv.The friction coefficients of Ni-SiC coatings synthetised by di-rect current,pulse current and ultrasound+ pulse current plating are 0.66,0.54 and 0.35,respectively.The coating prepared by ultrasound+pulse current plating has better wear resistance.
