腐蚀磨损是指摩擦过程中材料与介质发生化学或电化学反应并产生材料流失的磨损现象。在侵蚀性介质中工作的摩擦副如各类泵及阀门的密封面等部件往往因腐蚀及磨损的双重作用而过早失效,因此这类问题很受人们重视。 Uhlig对腐蚀与微动损伤的相互作用进行过讨论。等对某些高合金钢的府蚀磨损性能作过较系统的评价,并建立了实验设备。欲了解材料的腐蚀磨损性能,除了要弄清楚它在介质中的化学及电化学行为外,还要了解受机械力作用时材料表面或表面膜的变形及流失过程。更主要的是两者间的关系。因此,Kim及Bhattacharyya研究了不锈钢在NaCl介质中磨损及摩擦参数对电化学行为的影响。为了研究腐蚀磨损的瞬态过程而建立物 Corrosion wear refers to the abrasion phenomenon of chemical or electrochemical reaction between material and medium in the process of friction and material loss. Friction pairs that work in aggressive media, such as the sealing surfaces of various types of pumps and valves, tend to fail prematurely due to the dual effects of corrosion and wear. Therefore, such issues are highly regarded. Uhlig discusses the interaction between corrosion and fretting damage. Etch erosion performance of some high alloy steel made a systematic evaluation, and the establishment of experimental equipment. To understand the corrosive wear properties of materials, in addition to clarify its chemical and electrochemical behavior in the medium, it is also necessary to understand the deformation and loss of the material surface or surface film when subjected to mechanical forces. More important is the relationship between the two. Therefore, Kim and Bhattacharyya studied the wear and friction parameters of stainless steel in NaCl medium on the electrochemical behavior. In order to study the transient process of corrosion wear and build objects