Rapid surface hardening and enhanced tribological performance of 4140 steel by friction stir processing

Tribological performance of steel materials can be substantially enhanced by various thermal surface hardening processes. For relatively low-carbon steel alloys, case carburization is often used to improve surface performance and durability. If the carbon content of steel is high enough (>0.4%),...

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Veröffentlicht in:	Wear 2015-05, Vol.332-333 (C), p.962-970
Hauptverfasser:	Lorenzo-Martin, Cinta, Ajayi, Oyelayo O.
Format:	Artikel
Sprache:	eng
Schlagworte:	Carburizing Chromium molybdenum steels Friction Friction stir processing FSP Grain refinement Heat treatment High strength steels MATERIALS SCIENCE Phase transformation Steels Surface hardening Tribology Wear
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creator	Lorenzo-Martin, Cinta Ajayi, Oyelayo O.
description	Tribological performance of steel materials can be substantially enhanced by various thermal surface hardening processes. For relatively low-carbon steel alloys, case carburization is often used to improve surface performance and durability. If the carbon content of steel is high enough (>0.4%), thermal treatments such as induction, flame, laser, etc. can produce adequate surface hardening without the need for surface compositional change. This paper presents an experimental study of the use of friction stir processing (FSP) as a means to hardened surface layer in AISI 4140 steel. The impacts of this surface hardening process on the friction and wear performance were evaluated under both dry and lubricated contact conditions in reciprocating sliding. FSP produced the same level of hardening and superior tribological performance when compared to conventional thermal treatment, using only 10% of the energy and without the need for quenching treatments. With FSP surface hardness of about 7.8GPa (62 Rc) was achieved while water quenching conventional heat treatment produced about 7.5GPa (61 Rc) hardness. Microstructural analysis showed that both FSP and conventional heat treatment produced martensite. Although the friction behavior for FSP treated surfaces and the conventional heat treatment were about the same, the wear in FSP processed surfaces was reduced by almost 2× that of conventional heat treated surfaces. The superior performance is attributed to the observed grain refinement accompanying the FSP treatment in addition to the formation of martensite. As it relates to tribological performance, this study shows FSP to be an effective, highly energy efficient, and environmental friendly (green) alternative to conventional heat treatment for steel. •4140 Steel surface hardened comparable to thermal treatment.•FSP produced martensite and grain refinement.•Superior friction and wear performance with FSP treatment.
doi_str_mv	10.1016/j.wear.2015.01.052
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FSP produced the same level of hardening and superior tribological performance when compared to conventional thermal treatment, using only 10% of the energy and without the need for quenching treatments. With FSP surface hardness of about 7.8GPa (62 Rc) was achieved while water quenching conventional heat treatment produced about 7.5GPa (61 Rc) hardness. Microstructural analysis showed that both FSP and conventional heat treatment produced martensite. Although the friction behavior for FSP treated surfaces and the conventional heat treatment were about the same, the wear in FSP processed surfaces was reduced by almost 2× that of conventional heat treated surfaces. The superior performance is attributed to the observed grain refinement accompanying the FSP treatment in addition to the formation of martensite. 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(ANL), Argonne, IL (United States)</creatorcontrib><title>Rapid surface hardening and enhanced tribological performance of 4140 steel by friction stir processing</title><title>Wear</title><description>Tribological performance of steel materials can be substantially enhanced by various thermal surface hardening processes. For relatively low-carbon steel alloys, case carburization is often used to improve surface performance and durability. If the carbon content of steel is high enough (>0.4%), thermal treatments such as induction, flame, laser, etc. can produce adequate surface hardening without the need for surface compositional change. This paper presents an experimental study of the use of friction stir processing (FSP) as a means to hardened surface layer in AISI 4140 steel. The impacts of this surface hardening process on the friction and wear performance were evaluated under both dry and lubricated contact conditions in reciprocating sliding. FSP produced the same level of hardening and superior tribological performance when compared to conventional thermal treatment, using only 10% of the energy and without the need for quenching treatments. With FSP surface hardness of about 7.8GPa (62 Rc) was achieved while water quenching conventional heat treatment produced about 7.5GPa (61 Rc) hardness. Microstructural analysis showed that both FSP and conventional heat treatment produced martensite. Although the friction behavior for FSP treated surfaces and the conventional heat treatment were about the same, the wear in FSP processed surfaces was reduced by almost 2× that of conventional heat treated surfaces. The superior performance is attributed to the observed grain refinement accompanying the FSP treatment in addition to the formation of martensite. 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source	ScienceDirect Journals (5 years ago - present)
subjects	Carburizing Chromium molybdenum steels Friction Friction stir processing FSP Grain refinement Heat treatment High strength steels MATERIALS SCIENCE Phase transformation Steels Surface hardening Tribology Wear
title	Rapid surface hardening and enhanced tribological performance of 4140 steel by friction stir processing
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