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HomeSolid State PhenomenaSolid State Phenomena Vol. 299Increasing Wear Resistance of Chizel Tools Working...

Increasing Wear Resistance of Chizel Tools Working Bodies Based on Improving the Metallographic Structure of Grey Cast Iron

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Abstract:

The article concerns developing and implementing the technological principles for manufacturing the working bodies of chisel tools by casting grey cast iron with partial chilling of its working edges and surfaces interacting with the soil layer. High wear resistance of the working body is achieved by chilling its working part by means of a chill inserted into the mold, or by absence of coating in the corresponding zone of the mold. Severe overcooling of liquid cast iron contacting the chill or the metal surface of the mold causes crystallization of the meta-stable eutectics, and in the chilled part it acquires a ledeburite structure, the hardness being not lower than 64 HRC. At the same time, the bulk of the cast iron crystallizes in the stable system, forming austenitic-graphite eutectics and after complete cooling, it should have a pearlitic metal base, ensuring good machine ability of casting by cutting. Working surfaces and cutting edges of chisels are exposed to abrasive and chemical impacts of the soil, causing intense wear, the latter being the main reason for their failure. The utilization of the given technology will allow increasing service-life of the working bodies and improve the manufacturability, according to the criteria for labor intensity and casting mold making.

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Materials Engineering and Technologies for Production and Processing V

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Periodical:

Solid State Phenomena (Volume 299)

Pages:

652-657

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.299.652

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Online since:

January 2020

Authors:

Vadim A. Motorin*, Ludmila V. Kostyleva, Dmitry S. Gapich

Keywords:

A Chisel of a Chisel Plow, Carbon Steel, Cementite Eutectics, Graphite Eutectics, Grey Cast Iron, Wear Resistance, Working Surface Chilling

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© 2020 Trans Tech Publications Ltd. All Rights Reserved

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