中国科技论文
中國科技論文
중국과기논문
Sciencepaper Online
2015年
16期
1907-1910
,共4页
高秀%刘敬春%赵永武%刘新佳
高秀%劉敬春%趙永武%劉新佳
고수%류경춘%조영무%류신가
非晶涂层%超音速电弧喷涂%干滑动摩擦%显微硬度
非晶塗層%超音速電弧噴塗%榦滑動摩抆%顯微硬度
비정도층%초음속전호분도%간활동마찰%현미경도
amorphous coating%supersonic arc spraying%dry sliding friction%microhardness
为了研究非晶涂层的摩擦磨损行为,采用超音速电弧喷涂技术在低碳钢基体上制备了 FeCrBNiSiCRE 非晶涂层,并对其组织结构、显微硬度及干滑动摩擦学行为进行了研究。结果表明:制备的 FeCrBNiSiCRE 非晶涂层与基体结合良好,结构致密,只含有少量的微小孔隙;FeCrBNiSiCRE 非晶涂层的显微硬度 HV 达到876,为基体硬度的4倍左右;在干滑动摩擦条件下, FeCrBNiSiCRE 非晶涂层的摩擦因数随着时间的增加逐渐增大,最后稳定在0.7附近;在相同的摩擦磨损试验条件下,FeCrB-NiSiCRE 非晶涂层的相对耐磨性是基体的3.2倍,磨损机制为典型的颗粒脆性剥落和微裂纹扩展。FeCrBNiSiCRE 非晶涂层优异的耐磨性能归因于涂层均匀的非晶结构和高硬度。
為瞭研究非晶塗層的摩抆磨損行為,採用超音速電弧噴塗技術在低碳鋼基體上製備瞭 FeCrBNiSiCRE 非晶塗層,併對其組織結構、顯微硬度及榦滑動摩抆學行為進行瞭研究。結果錶明:製備的 FeCrBNiSiCRE 非晶塗層與基體結閤良好,結構緻密,隻含有少量的微小孔隙;FeCrBNiSiCRE 非晶塗層的顯微硬度 HV 達到876,為基體硬度的4倍左右;在榦滑動摩抆條件下, FeCrBNiSiCRE 非晶塗層的摩抆因數隨著時間的增加逐漸增大,最後穩定在0.7附近;在相同的摩抆磨損試驗條件下,FeCrB-NiSiCRE 非晶塗層的相對耐磨性是基體的3.2倍,磨損機製為典型的顆粒脆性剝落和微裂紋擴展。FeCrBNiSiCRE 非晶塗層優異的耐磨性能歸因于塗層均勻的非晶結構和高硬度。
위료연구비정도층적마찰마손행위,채용초음속전호분도기술재저탄강기체상제비료 FeCrBNiSiCRE 비정도층,병대기조직결구、현미경도급간활동마찰학행위진행료연구。결과표명:제비적 FeCrBNiSiCRE 비정도층여기체결합량호,결구치밀,지함유소량적미소공극;FeCrBNiSiCRE 비정도층적현미경도 HV 체도876,위기체경도적4배좌우;재간활동마찰조건하, FeCrBNiSiCRE 비정도층적마찰인수수착시간적증가축점증대,최후은정재0.7부근;재상동적마찰마손시험조건하,FeCrB-NiSiCRE 비정도층적상대내마성시기체적3.2배,마손궤제위전형적과립취성박락화미렬문확전。FeCrBNiSiCRE 비정도층우이적내마성능귀인우도층균균적비정결구화고경도。
In order to investigate the tribological behavior of the Fe-based amorphous coating,FeCrBNiSiCRE amorphous coating was sprayed onto the low carbon steel substrate by the ultrasonic electric-arc spraying.The microstructure,microhardness and dry sliding friction behavior of FeCrBNiSiCRE amorphous coating were investigated.The results showed the coating with homo-geneous microstructure adhered well to the substrate.Only a small amount of microporosity appeared in the coating.The Vickers hardness of the coating is as high as 876.It is about 4 times than that of the low carbon steel substrate.Under the condition of dry sliding friction,friction coefficient of FeCrBNiSiCRE amorphous coating increases with the sliding time,and finally is stabi-lized at the vicinity of 0.7.The relatively wear resistance of the amorphous alloy coating is about 3.2 times as large as that of low carbon steel under the same wear testing condition.The main failure mechanism of FeCrBNiSiCRE amorphous coating is the brit-tle spalling of particle and the propagation of microcracks.The excellent wear resistance of FeCrBNiSiCRE amorphous coating is attributed to the uniform amorphous structure in the coating and the intrinsic high hardness of the amorphous coating.