On the transgranular type of tempered martensite embrittlement

A phenomenon where toughness and strength of martensitic alloy steels are reduced, when tempered at 250-400 deg C, is called tempered martensite embrittlement (TME). There are two types of TME based upon fracture mode. Transgranular type of TME has been analyzed for its impact toughness, fracture be...

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Published in	Scripta metallurgica et materialia Vol. 30; no. 9; pp. 1111 - 1115
Main Authors	Lee, Kon Bae, Yoon, Sang Hoon, Kwon, Hoon
Format	Journal Article
Language	English
Published	Seoul Elsevier B.V 01.05.1994 Oxford Pergamon Press New York, NY
Subjects	ALLOYS Applied sciences CARBIDES CARBON COMPOUNDS Cross-disciplinary physics: materials science; rheology DATA ELEMENTS EMBRITTLEMENT Exact sciences and technology EXPERIMENTAL DATA Fatigue, corrosion fatigue, embrittlement, cracking, fracture and failure Fatigue, embrittlement, and fracture FRACTURE PROPERTIES INFORMATION IRON ALLOYS IRON BASE ALLOYS MARTENSITIC STEELS MATERIALS SCIENCE MECHANICAL PROPERTIES METALLURGICAL EFFECTS METALS Metals. Metallurgy MOLYBDENUM NUMERICAL DATA Physics STEELS TRANSITION ELEMENTS 360103 > Metals & Alloys > Mechanical Properties Treatment of materials and its effects on microstructure and properties TUNGSTEN Ruptures Charpy impact test Tempering Martensitic steels Impact strength Embrittlement Hardness Experimental study Temper brittleness Microstructure Fractography Heat treatments
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ISSN	0956-716X
DOI	10.1016/0956-716X(94)90323-9

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Abstract	A phenomenon where toughness and strength of martensitic alloy steels are reduced, when tempered at 250-400 deg C, is called tempered martensite embrittlement (TME). There are two types of TME based upon fracture mode. Transgranular type of TME has been analyzed for its impact toughness, fracture behavior and microstructures on isothermal tempering. Molybdenum and MoW steels were used for experimentation because they may decrease the intrinsic toughness and produce easy transgranular brittle fracture. Impact testing was carried out and transmission electron microscope was used for studying the specimens. Results obtained were discussed. Molybdenum and MoW steels represented the quasi-cleavage fracture. The formation of coarse carbides at martensite lath boundaries results in TME which makes easy transgranular brittle fracture in the matrix of low intrinsic toughness with the tungsten and/or Mo additions.
AbstractList	Martensitic alloy steels are subject to tempering because of their low toughness in the as-quenched state. When tempered in the range of 250--400 C, however, the toughness drops in spite of the decrease in strength with increasing the tempering temperature. This phenomenon is referred to as tempered martensite embrittlement (TME). TME can be classified into two types according to the fracture mode; intergranular and transgranular TME. The transgranular type was suggested to be caused by the formation of coarse carbides at the lath boundaries following the decomposition of retained austenite. In this study, the transgranular type of TME has been analyzed in terms of impact toughness, fracture behavior and microstructure on isothermal tempering. The experimental alloy systems chosen are the Mo and MoW steels in which alloying elements, Mo and W, may decrease the intrinsic toughness and thus produce easy transgranular brittle fracture. A phenomenon where toughness and strength of martensitic alloy steels are reduced, when tempered at 250-400 deg C, is called tempered martensite embrittlement (TME). There are two types of TME based upon fracture mode. Transgranular type of TME has been analyzed for its impact toughness, fracture behavior and microstructures on isothermal tempering. Molybdenum and MoW steels were used for experimentation because they may decrease the intrinsic toughness and produce easy transgranular brittle fracture. Impact testing was carried out and transmission electron microscope was used for studying the specimens. Results obtained were discussed. Molybdenum and MoW steels represented the quasi-cleavage fracture. The formation of coarse carbides at martensite lath boundaries results in TME which makes easy transgranular brittle fracture in the matrix of low intrinsic toughness with the tungsten and/or Mo additions.
Author	Lee, Kon Bae Yoon, Sang Hoon Kwon, Hoon
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Snippet	A phenomenon where toughness and strength of martensitic alloy steels are reduced, when tempered at 250-400 deg C, is called tempered martensite embrittlement... Martensitic alloy steels are subject to tempering because of their low toughness in the as-quenched state. When tempered in the range of 250--400 C, however,...
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SubjectTerms	ALLOYS Applied sciences CARBIDES CARBON COMPOUNDS Cross-disciplinary physics: materials science; rheology DATA ELEMENTS EMBRITTLEMENT Exact sciences and technology EXPERIMENTAL DATA Fatigue, corrosion fatigue, embrittlement, cracking, fracture and failure Fatigue, embrittlement, and fracture FRACTURE PROPERTIES INFORMATION IRON ALLOYS IRON BASE ALLOYS MARTENSITIC STEELS MATERIALS SCIENCE MECHANICAL PROPERTIES METALLURGICAL EFFECTS METALS Metals. Metallurgy MOLYBDENUM NUMERICAL DATA Physics STEELS TRANSITION ELEMENTS 360103 -- Metals & Alloys-- Mechanical Properties Treatment of materials and its effects on microstructure and properties TUNGSTEN
Title	On the transgranular type of tempered martensite embrittlement
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