TH42484B - Hot-rolled high-strength steel plates that are excellent in shape-retaining conditions and methods of manufacturing them. - Google Patents

Abstract

DC60 (17/08/47) Hot-rolled steel plate with excellent high strength in the formability of ferrite and Benite as the cycle with the highest percentage by volume which corresponds to all of the following, at least 1/2 of the sheet thickness, median random intensity ratio. of the X-rays of the orientation components of {100}<011> to {223}<110> to the X-ray random diffraction intensity ratio is at least 2.5 ; The median of the random intensity ratios of X-rays in the alignment components in three crystal clusters of {554}<225>, {111}<112> , and {111}<110> to the intensities ratio from The random diffraction of X-rays is 3.5 or less ; The X-ray intensity ratio to the X-ray random diffraction intensity ratio at {100}<011> is at least the x-ray intensity ratio. The random intensity of the X-ray continues. Turning intensity ratio random deflection of x-rays at {211}<011>; and the X-ray random intensity ratio to the diffraction intensity ratio of the random intensity ratio of X-rays. X-rays at {100}<011> are at least 2.5 with at least one r-value. of the rolling direction and the r-value of the direction perpendicular to the direction for rolling is not more than 0.7 with anisotropy TriangleuE1 of a uniform elongation of not more than 4%; which has anisotropy TriangleLE1 of local elongation is at least 2% and for which triangle uE1 is not greater than triangle LE1 Excellent high-strength hot-rolled steel sheet in a stable state. which ferrite and Benite as the cycle with the highest percentage by volume which corresponds to all of the following, at least 1/2 of the sheet thickness, median random intensity ratio. of the X-rays of the alignment component group of {100} <011> to {223} <110> to the X-ray random diffraction intensity ratio is at least 2.5; The median of the random intensity ratios of the X-rays in the alignment components in three crystal clusters of {554} <225> , {111} <112> , and {111} <110> to the intensity ratios of the X-rays. random diffraction of X-rays is, 3.5 or more; The X-ray intensity ratio to the X-ray random diffraction intensity ratio at {100} <011> is at least the x-ray intensity ratio. The random intensity of the X-ray continues. Turning intensity ratio Group deflection of X-rays at {211} <011>; and the X-ray random intensity ratio to the diffraction intensity ratio of the random intensity ratio of X-rays. X-rays at {100} <011> are at least 2.5 with at least one r-value. of the rolling direction and the r-value of the direction perpendicular to the direction for rolling is not more than 0.7, which has an isotropy deltauEI of uniform elongation not more than 4%; which has the anisotropy delta LEI of local elongation. is at least 2% and which has a delta uEI not greater than a delta LE1

Claims (7)

1. Hot-rolled steel plate of excellent high strength in dimensional stability, where ferrite or benite is a cycle. Maximum as a percentage of volume which corresponds all of the following at least at 1/2 the plate thickness (1) the mean of the random intensity ratio of the X-rays if the group of placement {100} <011>to {223}<110> is 2.5 or more (2) the mean of the X-ray random intensity ratio. The three orientations of {554}<225> , {111}<112> , {111}<110> are 3.5 or more (3) random X-ray intensity ratio of {100}<011>. greater than that of {211} <011> (4). The X-ray random intensity ratio of {100}<011> is 2.5 or greater, which has at least one term r-value in the direction of rolling and r-value. in the direction perpendicular to the direction of rolling is 0.7 or less, which has a uniform elongation anisotropy of delta uE1 of 4% or less, which has a delta-specific elongation anisotropy. LE1 is 2% or more and which has a delta uEI which is a deltaLEI or less where delta uEI={|uEI(L)-uE1(45 º) |+{|uEI(C)- uEI (45 °)|}/2| deta uEI={|LEI(L)-LE1(45 °) |+{|LEI(C)-LEI (45 °)|}/2| uEI (L) : uniform elongation in the rolling direction uEl (C) : uniform elongation in the transverse direction uEI (45 °) : uniform elongation in the 45 ° direction C LEL (L) : local elongation In the rolling direction LEI (C) : local elongation in the transverse direction LEI (45 °) : local elongation in the 45 °C direction 2. Excellent high strength hot-rolled steel plate in Shape stabilization, in accordance with Claim 1, characterized by the occupancy rate of iron-carbide, the diameter of the foregoing is 0.2 mu m or more, 0.3% or less than 3. Excellent high strength hot rolled steel plate in The shape can be maintained according to Conforms to claim 1, characterized that the AI aging index is 8 MPa or more, 1.01% or less, and O:0.01% or less, and Fe is the residual and impurity that is not. can be avoided. 5. Excellent high strength hot rolled steel plate in The shape can be maintained according to Consistent with Claim 4, which is characterized by addition of elements such as At least one or more elements are chosen from Nb, Ti and V with a total of 0.001 to 0.8% as weight, % 1.0001 to 0.05%, 1. or less, and Fe is the residue and impurities. cannot be avoided and which has a multi-cycle structure where ferrite or benite is the highest cycle in the form of volume percentage and volume percentage of martensite is 1 to 25%. maintains its shape in accordance with Claim 7, which is characterized by the composition In terms of weight %, at least one or more elements are selected from Nb, Ti with a total of 0.001 to 0.8% 1.001 to 0.02% 1.0. Excellent high strength hot rolled steel plate in The shape can be maintained according to Conforms to claim 4 or 5 where the plantain is plated 1 1. Excellent high strength hot rolled steel plate in The shape can be maintained according to Conforms to claim 7 or 8 where the steel plate is coated 1 2. Methods for producing hot-rolled steel plates with Excellent high strength in condition can maintain its shape, which consists of steps the following episode Hot-rolled die-casting slabs having a composition conforming to Claims 4 or 5 as a single cooled die. Then it was heated again. also has a temperature range of 1000-1300 oC with a total reduction rate of 25% or more at Ar3 to (Ar3+150) oC, final hot rolling start temperature TFS, and end rolling temperature. The final heating, TFE, conforms to the following equations (1) to (4) at the same time, and then the hot-rolled steel strip is cooled to a temperature below the critical temperature TD determined by the chemical composition. The steel sheet is shown in the following Equation (5) and the temperature is 400 to 700 °C TFE>or= Ar3 (1) TFE>or= 800 °C (1\') TFE<or= Ar3 ( 2) 20 °C<or=TFS-TFE<or=120 °C (4) TD=-650.4x{C%/(1.82xC%-0.001}+B (5) where B is found from the steel composition. expressed by weight % B=-50.6xMneq+894.3 Mneq=Mn%+0.24Ni%+0.13xSi%+0.38Mo%+0.55Cr%+0.16xCu%-0.50AI% -0.45xCo%+0.90xV% Ar3 =901-325xC%+33xSi%+287xP%+40xA1%-92x (Mn%+Mo%+Cu%) -46x(Cr%+Ni%) 1 3. Methods of producing hardened hot rolled steel plates Excellent high strength in a stable form, conforming to Claim 12, is characterized by additionally controlled coefficient of friction not more than 0.2 in at least once in hot-rolling Temperature range is Ar3 to (Ar3+150) °C 1 4. Methods of producing hardened hot rolled steel plates Excellent high strength in static condition The shape was characterized by Applying a surface rolling of 0.1 to 5% to the rolled steel plate. The heat has been produced by the method of producing rolled steel plates. Heat with excellent strength in The shape can be maintained according to Consistent with claim 12 1. 5. Methods of producing hardened hot rolled steel plates Excellent high strength in static condition Formability consists of the following steps: hot-rolling die casting slabs with conforming elements. with claims 7 or 8 as a single cooled cast then heated further to a temperature range of 1000-1300 oC with a total reduction rate of 25% or more at Ar3 to (Ar3+150) oC final hot rolling start temperature TFS, and end temperature of Final hot rolling, TFE, and residual stress are calculated. delta efsilon In order to align the following relationships (1) to (4) at the same time and The cooling of hot-rolled steel plates is then coiled at temperatures below the critical temperature To determined by the chemical composition. of the steel plate shown in the following relation (5) and the temperature is not more than 400 °C TFE>or=Ar3 (1) TFS<or=1100 °C (2) Deutaefsilon>or =(TFS-TRE)/375 (3) 20 °C<or=TFS-TFE<or=120 °C (4) To=-650.4x{C%/(1.82xC%-0.001}+B (5) where B is found from the steel composition expressed by weight % B = -50.6xMneq+894.3 Mneq = Mn%+0.24Ni%+0.13xSi%+0.38Mo%+0.55Cr%+0.16xCu%-0.50A1%. -0.45xCo%+0.90xV% Ar3=901-325xC%+33xSi%+287xP%+40xA1%-92x(Mn%+Mo%+Cu%) -46x(Cr%+Ni%) delta fc wave was found to be equivalence stress. A delta efsiloni (i to 1 to n) is assigned at each stationary state of the n phase of the final rolling, for the rolling time ti (sec) (i=1 to n-1). During the stationary state, the time tn (sec) from the final stationary state to the initial stationary state of cooling Ironing temperature Ti (K) (j=1 to n) with each stationary condition and constant R=1.987 efsilon = delta efsilon1+..+delta efci. Lon, where the delta efsilon i=delta efsilon ix exp{-(ti*/town)2/3} taui = 8.46x10-9x exp{43800/R/Ti} ti* = townx (ti / taui+ t(i+1)/Tow(i+1)+....+tn/Town} 1 6. Methods of producing hardened hot rolled steel plates Excellent high strength in static condition The shape is consistent with Claim 15, which is characterized by additional control. coefficient of friction not more than 0.2 in at least once in hot-rolling Temperature range is Ar3 to (Ar3+150) °C 1 7. Methods of producing hardened hot rolled steel plates Excellent high strength in static condition The shape was characterized by Applying a surface rolling of 0.1 to 5% to the rolled steel plate. The heat has been produced by the method of producing rolled steel plates. Heat with excellent strength in The shape can be maintained according to Consistent with Claim 15