Isao Kozasu scite author profile

The effect of hot rolling condition and chemistry of steels on the onset temperature of r-a transformation after hot rolling was investigated using a thermal analyzer developed for the measurement of Ar3 temperature after hot rolling. The changes of Ar3 temperature and austenitic microstructure in connection with reheating temperature, rolling temperature and reduction rate were investigated in a Si-Mn and a Nb-bearing steels. The results were analyzed based on the changes of the effective interfacial area per unit volume (Sv) that included both of the recrystallized and unrecrystallized grain boundaries and deformation band as nucleation sites for ferrite. Although the Sv value increased with the refinement of recrystallized r grain or the increase of rolling reduction below recrystallization temperature of austenite, the latter resulted in a much greater change of Ar3 temperature in the Nb steel. This was considered to be due to a reduced amount of dissolved Nb atoms around the grain boundary or deformation band through the strain induced precipitation of Nb(CN). The effect of chemistry and plate thickness on the Ar3 temperature after controlled rolling was studied in a large number of steels with different chemistry, and the relation between the Ar3 and chemistry was quantitatively established based on the multiple regression analysis.

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Influence of Crystallographic Texture on the Strength and Toughness of the Controlled Rolled High Tensile Strength Steel

Inagaki

Kurihara

Kozasu

1975

Tetsu-to-Hagane

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Effects of Sulfide Inclusions on Ductility and Toughness of Structural Steels

Kozasu

1975

Tetsu-to-Hagane

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Influence of Crystallographic Texture on the Strength and Toughness of Control-rolled High Tensile Strength Steel

1977

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SynopsisThe effect of crystallographic texture on the anisotropies of strength and toughness of the control-rolled high tensile steels was quantitatively investigated . The effect of the textures on the anisotro.bies of yield and tensile strees could be accurately evaluated with H osford and B ackofen's method, if fine de tails of textures were properly taken in to account. The anisotropies of toughness were found to be qualitatively related with the dis tribution of { 100} cleavage plane. 1 t was f urther fo und that among the main components of the textures of tlzese steels, {3 1J }<01J > orientations not only enhanced the difference in stmlgth between L (OO) and C(900) directions, bu t also reduced the toughness at 45° direction, whereas {332}< 113 > orientations gave rise to a weak anisotropy and better average strength and toughness . T hus, f urther im/Jrovemen t in strength and toughness might be eX/Jected,ij /Jreferential development of {332}< 113 > orientations was to be achieved .

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The Effect of Hot Rolling Conditions and Chemical Compositions on the Onset Temperature of γ-α Transformation after Hot Rolling

Ouchi

Sampei

Kozasu³

1981

Tetsu-to-Hagane

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Isao Kozasu

The Effect of Hot Rolling Condition and Chemical Composition on the Onset Temperature of γ-α Transformation after Hot Rolling

Influence of Crystallographic Texture on the Strength and Toughness of the Controlled Rolled High Tensile Strength Steel

Effects of Sulfide Inclusions on Ductility and Toughness of Structural Steels

Influence of Crystallographic Texture on the Strength and Toughness of Control-rolled High Tensile Strength Steel

The Effect of Hot Rolling Conditions and Chemical Compositions on the Onset Temperature of γ-α Transformation after Hot Rolling

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Isao Kozasu

The Effect of Hot Rolling Condition and Chemical Composition on the Onset Temperature of γ-α Transformation after Hot Rolling

Influence of Crystallographic Texture on the Strength and Toughness of the Controlled Rolled High Tensile Strength Steel

Effects of Sulfide Inclusions on Ductility and Toughness of Structural Steels

Influence of Crystallographic Texture on the Strength and Toughness of Control-rolled High Tensile Strength Steel

The Effect of Hot Rolling Conditions and Chemical Compositions on the Onset Temperature of &gamma;-&alpha; Transformation after Hot Rolling

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The Effect of Hot Rolling Conditions and Chemical Compositions on the Onset Temperature of γ-α Transformation after Hot Rolling