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HomeMaterials Science ForumMaterials Science Forum Vol. 925Effect of C Content on High Temperature Erosive...

Effect of C Content on High Temperature Erosive Wear Characteristics of Fe-Based V Containing Multi-Component Cast Steel with Ni

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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 erosion test machine was used to investigate the erosive wear property of experimental materials at 1173K. Alumina grits (average diameter: 1.16 mm, hardness: 1250 HV₁) which were used as impact particles were heated to 1073K and shoot on the heated specimen by hot air at the velocity of 100 m/s. The total particle loading was 2 kg. In order to clarify the correlation of hot hardness, oxidation property and the erosion resistance of specimens, hot hardness test was carried out specimens, to estimate erosion damage caused by solid particle. Hot hardness of specimens showed a value comparable to 200～250HV₁. Result of erosion and oxidation tests, erosion rate and amount of oxidation of the specimen were suppressed by Ni addition. It suggested that the more amount of Ni contents, the lower the erosion rate and the less the amount of oxidation.

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Science and Processing of Cast Iron XI

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Periodical:

Materials Science Forum (Volume 925)

Pages:

400-407

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.925.400

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Online since:

June 2018

Authors:

Kazumichi Shimizu*, Kenta Kusumoto, Kimitoshi Nakamura, Shoji Kiguchi, Masato Shirai, Jun Ito

Keywords:

Area Ratio of Carbides, High Temperature Erosion, High Temperature Hardness, Multi-Component Cast Steel, Ni Addition

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Creative Commons CC BY 4.0

* - Corresponding Author

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