2018
DOI: 10.4028/www.scientific.net/msf.925.400
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Effect of C Content on High Temperature Erosive Wear Characteristics of Fe-Based V Containing Multi-Component Cast Steel with Ni

Abstract: Hot hardness and oxidation property of target material influences greatly on the erosion behavior at elevated temperature. The correlation between hot hardness and oxidation property of multi component white cast irons and its erosion resistance were investigated, and try to estimate the high temperature erosion behavior in the study. Nine kinds of multi component white cast iron and cast steel were used in this study. Specimen were machined into a flat plate with dimension of 50×50×10 mm. High temperature ero… Show more

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Cited by 3 publications
(4 citation statements)
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“…It was due to that a great deal of consumption of carbon in the matrix for crystallization of primary carbides MC and M 2 C led to a decrease in hardness of martensite by the reduction of carbon. (3) The difference between two types of wear behaviors can be explained by not hardness but the relationship between carbide and martensitic/austenitic matrix. Martensite with distribution of fine primary carbides contribute to improvement of abrasive wear resistance, whereas metastable austenite is the effective factor for impact wear resistance.…”
Section: Discussionmentioning
confidence: 99%
“…It was due to that a great deal of consumption of carbon in the matrix for crystallization of primary carbides MC and M 2 C led to a decrease in hardness of martensite by the reduction of carbon. (3) The difference between two types of wear behaviors can be explained by not hardness but the relationship between carbide and martensitic/austenitic matrix. Martensite with distribution of fine primary carbides contribute to improvement of abrasive wear resistance, whereas metastable austenite is the effective factor for impact wear resistance.…”
Section: Discussionmentioning
confidence: 99%
“…According to the researchers, a carbide-rich layer on the outer side of LSM samples increases hardness, however its effects on wear rate are dependent on interfacial pressure. The addition of nickel (Ni), tungsten (W), cobalt (Co), chromium (Cr), and molybdenum (M) in laser coated surfaces, improves the quantity of eutectic carbides and hence the high-temperature hardness wear resistance properties [83][84][85][86][87]. Surface modification by material coating with different coated materials are given in table 1.…”
Section: Effect Of Different Materials Coating On Friction and Wearmentioning
confidence: 99%
“…В работе [4] показано, что значительное повышение высокотемпературной (900 °С) износостойкости сплава 9 (табл. 2) достигается при его легировании 10 % никеля при содержании углерода около 2 %.…”
Section: экспериментальные наплавленные сплавыunclassified
“…Проблему борьбы с износом данного оборудования эффективно решают наплавкой их рабочих поверхностей износостойкими сплавами [1, 4,5]. Для этой цели производители сварочных материалов предлагают специализированные порошковые проволоки и покрытые электроды.…”
Section: Introductionunclassified