Cavitation resistance, microstructure and surface topography of materials used for hydraulic components

L. A. Espitia; A. Toro

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Cavitation resistance, microstructure and surface topography of materials used for hydraulic components

机译：液压元件材料的抗气蚀性，微观结构和表面形貌

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The cavitation resistance of a stainless steel and two flame thermal spray coatings was tested in laboratory according to ASTM G32 standard. The time-variation curves of cumulative volume loss, erosion rate and roughness parameters were related to the microstructure of the samples and to the wear mechanisms. Pores, unmelted particles and other microstructure defects prevented the coatings from showing an incubation period during the tests, while the stainless steel exhibited the expected incubation, acceleration and maximum rate stages. In the stainless steel, a correlation between the transition from incubation to acceleration stage and the R_(sm)/R_q and R_y/R_q ratios was established.

机译：根据ASTM G32标准，在实验室测试了不锈钢和两种火焰热喷涂涂层的抗气蚀性。累积体积损失，腐蚀速率和粗糙度参数的时变曲线与样品的微观结构和磨损机理有关。孔，未熔化的颗粒和其他微结构缺陷阻止了涂层在测试过程中显示出保温期，而不锈钢表现出了预期的保温，加速和最大速率阶段。在不锈钢中，建立了从孵化到加速阶段的转变与R_（sm）/ R_q和R_y / R_q比率之间的相关性。

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《Tribology International》 |2010年第11期|共9页
作者
L. A. Espitia; A. Toro;
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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Stainless steel; Cavitation stages; Microstructure; Roughness parameters;

机译：不锈钢空化阶段显微组织粗糙度参数;

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1. Cavitation resistance, microstructure and surface topography of materials used for hydraulic components [J] . L. A. Espitia, A. Toro Tribology International . 2010,第11期

机译：液压元件材料的抗气蚀性，微观结构和表面形貌
2. Study Regarding the Good Cavitation Erosion Resistance of a 13Cr-4Ni Stainless Steel used to Manufacture the Components Exposed to Water of the Hydraulic Turbines [J] . Oyati E.N., Stephen A.O. Analele Universitatii "Eftimie Murgu" . 2017,第1期

机译：关于用于制造水轮机与水接触的部件的13Cr-4Ni不锈钢良好的抗空蚀性的研究
3. Study on cavitation erosion resistance and surface topologies of various coating materials used in shipbuilding industry [J] . Chi SangKi, Park JinHwan, Shon MinYoung Journal of industrial and engineering chemistry . 2015,第Null期

机译：造船工业中使用的各种涂料的抗气蚀性和表面形貌的研究
4. On Surface Topography and Microstructure In Cavitation Erosion Tests of Alloy 80 A [C] . C Belin, I Mitelea, I Bordeasu International Conference on Advanced Materials and Structures . 2018

机译：在合金80a空化腐蚀试验中的表面形貌和微观结构
5. Surface analytical studies and theoretical modelling of defect behavior, surface topography and crack nucleation in fatigued materials [D] . Venkataraman, Gourishankar. 1990

机译：疲劳材料的缺陷行为，表面形貌和裂纹成核的表面分析研究和理论模型
6. Material Analysis and Molecular Dynamics Simulation for Cavitation Erosion and Corrosion Suppression in Water Hydraulic Valves [O] . Masoud Kamoleka Mlela, He Xu, Feng Sun, 2020

机译：水压阀气蚀和腐蚀抑制的材料分析和分子动力学模拟
7. Correlation of Microstructure with Hardness and Wear Resistance of (Cr3C2,CrB)/Steel Surface Alloyed Materials Fabricated by High-Energy Electron Beam Irradiation [O] . Duk-Hyun Nam, Kyuhong Lee, Sunghak Lee 2007

机译：高能电子束照射（CR3C2，CRB）/钢表面合金材料的硬度和耐磨性的微观结构的相关性
8. Application of Electron Microscopy to the Study of Surface Topography and Subsurface Microstructure in Wear [R] . Newman, G. T., Smith, O. D., Matthes, D. K., 1970

机译：电子显微镜在磨损表面形貌和亚表面微观结构研究中的应用

Cavitation resistance, microstructure and surface topography of materials used for hydraulic components

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