1965
DOI: 10.2320/jinstmet1952.29.7_728
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Direct Observation of the Microstructure Changes of Vanadium Steels During Tempering

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Cited by 9 publications
(6 citation statements)
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“…On the other hand, it is widely known that the addition of substitutional alloying elements retards recovery and recrystallization, 16) while the associated strain aging was also systematically studied in ferritic steels. 17) These results suggest the occurrence of solute clustering and segregation in the vicinity of dislocation during tempering of martensite, 13) which was recently confirmed by experiments. 18) Namely, the addition of strong carbide-forming elements contributes to resistance to temper softening, possibly through the alloying effects on recovery of dislocation as well.…”
Section: Resistance To Temper Softening Of Low Carbon Martensitic Steels By Microalloying Of V Nb and Tisupporting
confidence: 52%
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“…On the other hand, it is widely known that the addition of substitutional alloying elements retards recovery and recrystallization, 16) while the associated strain aging was also systematically studied in ferritic steels. 17) These results suggest the occurrence of solute clustering and segregation in the vicinity of dislocation during tempering of martensite, 13) which was recently confirmed by experiments. 18) Namely, the addition of strong carbide-forming elements contributes to resistance to temper softening, possibly through the alloying effects on recovery of dislocation as well.…”
Section: Resistance To Temper Softening Of Low Carbon Martensitic Steels By Microalloying Of V Nb and Tisupporting
confidence: 52%
“…12) By using transmission electron microscopy (TEM), the precipitation behaviors in tempering of steels containing strong carbide-forming element (M; M = V, Nb, Ti) were widely investigated in the past. Nishida and Tanino 13) studied the V-added steels and reported the nano-precipitation of B1-structured MC-type alloy carbide holding Baker-Nutting orientation relationship ((001)α//(001) MC , [100]α//[110] MC ) with martensitic matrix. The same phenomenon was also observed in Nb-added 14) and Ti-added 15) steels, respectively.…”
Section: Resistance To Temper Softening Of Low Carbon Martensitic Steels By Microalloying Of V Nb and Timentioning
confidence: 99%
“…[49][50][51] Similar modes of precipitation were also found in vanadium containing 52) and plain carbon steels, 16,53) and the concept of interphase precipitation has been developed. 52) …”
Section: Interphase Precipitationmentioning
confidence: 92%
“…[49][50][51][52]17,[57][58][59][60][61] Originally, Morrison 49) observed parallel rows of niobium carbide particles within a ferrite grain in as-rolled Nb-bearing steels. Similar mode of V 4 C 3 precipitation was also recognised by Nishida and Tanino 50) and the orientation relationship between V 4 C 3 and ferrite was determined as:…”
Section: Interphase Precipitation Of Alloy Carbidesmentioning
confidence: 99%
“…(4) The analysis of the diffraction pattern indicates that the niobium carbide particles formed in contact with the ferrite during the interphase precipitation. (5) In tempered martensite, the niobium carbide particles formed preferentially at the martensite lath boundaries and on the dislocation lines. (6) The strength ening in the iso thermally transformed specimens is thought to arise mainly from the friction stress for the dislocation to c ut the precipitates, a lthough there exists some evidences for the Orowan mechanism as well being operative.…”
Section: Discussionmentioning
confidence: 99%