Research on microstructure and high-temperature friction and wear properties of a cobalt-based alloy for hot extrusion die

The hot extrusion die is a key tool for determining the surface quality and dimensional accuracy of extruded products. Because its service process is subject to high temperature,high pressure, and wear,it must be resistant to these conditions. In this paper,the high-temperature friction and wear pro...

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Published in	Baosteel Technical Research Vol. 14; no. 1; pp. 8 - 18
Main Authors	Qu, Haixia, Tang, Chenglong, Gu, Tingquan
Format	Journal Article
Language	English
Published	Shanghai Baosteel Technical Research 01.03.2020 Research Institute, Baoshan Iron & Steel Co., Ltd., Shanghai 201999, China
Subjects	Alloys Cemented carbides Cobalt base alloys Extrusion dies Friction High temperature Hot extrusion Impact strength Impact tests Investigations Microcracks Microstructure Powder metallurgy Scanning electron microscopy Surface properties Titanium carbide Wear resistance Working conditions hot extrusion die cobalt-based alloy microstructure high-temperature friction and wear properties
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Abstract	The hot extrusion die is a key tool for determining the surface quality and dimensional accuracy of extruded products. Because its service process is subject to high temperature,high pressure, and wear,it must be resistant to these conditions. In this paper,the high-temperature friction and wear properties of a cobalt (Co)-based aioy were investigated and compared with those of a titanium carbide (TiC) cemented material. The results show that the high-temperature wear performance of the Co-based aioy is better than that of the TiC cemented material, and that Co-based materials have the potential for replacing TiC cemented materials as hot-extrusion-die materials. Due to the high density and good combination of the matrix and carbide,the carbides do not easily peel off from the matrix during the wear process. Due to the higher impact toughness of the Co-based alloys, microcracks that can cause worn-surface peeling are not easily generated. As a result,the high-temperature wear performance of Co-based aioys is found to be better than that of TiC cemented materials.
AbstractList	The hot extrusion die is a key tool for determining the surface quality and dimensional accuracy of extruded products.Because its service process is subject to high temperature,high pressure,and wear,it must be resistant to these conditions.In this paper,the high-temperature friction and wear properties of a cobalt (Co)-based alloy were investigated and compared with those of a titanium carbide (TiC) cemented material.The results show that the high-temperature wear performance of the Co-based alloy is better than that of the TiC cemented material,and that Co-based materials have the potential for replacing TiC cemented materials as hot-extrusion-die materials.Due to the high density and good combination of the matrix and carbide,the carbides do not easily peel off from the matrix during the wear process.Due to the higher impact toughness of the Co-based alloys,microcracks that can cause worn-surface peeling are not easily generated.As a result,the high-temperature wear performance of Co-based alloys is found to be better than that of TiC cemented materials. The hot extrusion die is a key tool for determining the surface quality and dimensional accuracy of extruded products. Because its service process is subject to high temperature,high pressure, and wear,it must be resistant to these conditions. In this paper,the high-temperature friction and wear properties of a cobalt (Co)-based aioy were investigated and compared with those of a titanium carbide (TiC) cemented material. The results show that the high-temperature wear performance of the Co-based aioy is better than that of the TiC cemented material, and that Co-based materials have the potential for replacing TiC cemented materials as hot-extrusion-die materials. Due to the high density and good combination of the matrix and carbide,the carbides do not easily peel off from the matrix during the wear process. Due to the higher impact toughness of the Co-based alloys, microcracks that can cause worn-surface peeling are not easily generated. As a result,the high-temperature wear performance of Co-based aioys is found to be better than that of TiC cemented materials.
Author	Qu, Haixia Tang, Chenglong Gu, Tingquan
AuthorAffiliation	Research Institute, Baoshan Iron & Steel Co., Ltd., Shanghai 201999, China
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SubjectTerms	Alloys Cemented carbides Cobalt base alloys Extrusion dies Friction High temperature Hot extrusion Impact strength Impact tests Investigations Microcracks Microstructure Powder metallurgy Scanning electron microscopy Surface properties Titanium carbide Wear resistance Working conditions
Title	Research on microstructure and high-temperature friction and wear properties of a cobalt-based alloy for hot extrusion die
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