TH68851B - Hot rolled high carbon steel plate, which has good hardenability and unevenness along the low plane and manufacturing method. - Google Patents

Abstract

05/10/2018(OCR) Page 1 of 1 page Summary of the fabrication of a high carbon hot rolled steel plate with good hardenability and low unevenness throughout the plane, which has the specific characteristics of Composition from C:0.200.48%,Si:not more than 0.1%,Mn:not more than 0.5%,P:not more than 0.03%,S:not more than 0.01%,sol.AI:not more than 0.1%,N:not more than 0.005%,B:0.00050.0050% by% mass. The remaining mass is Fe and unavoidable foreign matter. It has a microstructure from perchite and chimentite. The average diameter of chimentite is as follows. Said to not exceed 0.1 micrometers, the absolute value of Ar does not exceed 0.1, and the production method Hot-rolled carbon steel plate with good hardenability and unevenness along the inside. A low plane that has specific characteristics of having elements from C:0.200.48%,Si:not more than 0.1%,Mn:no more than 0.5%, P: not more than 0.03%, S: not more than 0.01%, Sol.Al: not more than 1.0%, N: not more than 0.005%, B: 0.00050.0050% by% mass, the rest is Fe with things. There are foreign substances that cannot be avoided. Sector structure from ferrite to semestite. The average grain diameter of such ferrite does not exceed 0.1(Formula)mThe absolute value of(Formula)r is not more than 0.1 and production method

Claims (1)

Disclaimer (all) which will not appear on the advertisement page. : ------ 05/10/2018 ------ (OCR) Page 1 of 2 pages, Terms 1.20 - 0.48%, Si: not more than 0.1%, Mn: Not more than 0.5%, P: not more than 0.03%, R: not more than 0.01%, so 1.0005 - 0.0050% by% residual mass in Fe with inevitable foreign matter. There is a microstructure from perite to cementite. The mean diameter of the aforementioned cementation is not more than 1.0 μm. The absolute value of Ar, which is an unequal across the plane of the r value, is not more than 0.1 2. The hot-rolled steel plate of claim 1, which is supplemented by 1 add. Type is at least from Ni, Cr, Mo, total not more than 1.5% by mass 3. Hot-rolled steel plate of Clause 1 or 2, which consists of at least 1 type from RAW, total not more than 0.1%. By mass 4. Hot-rolled steel sheet of any 1 to 3 Clause 1 of which the quantity of C is 0.26 - 0.48% 5. Hot-rolled steel sheet of Clause 1 to 4, one item, the quantity of such Mn is 0.2 - 0.5%. Clause 1 to 5, any one item number 1, which the quantity of Such P is not more than 0.02%. 7. Hot-rolled steel sheet of any item 1 to 6, number 1, which the quantity of 8. Hot-rolled steel plate of Clause 1 to 7, any one item in which the quantity of, so l.AI thereof is not, more than 0.06% 9. Hot rolled steel sheet. Of Clause 1 to 8, any one item, the amount of Such N is 0.0005 - 0.005% 1 0. Method for producing hot rolled high carbon steel plates with good hardenability and unevenness. Along the low plane having microstructures from the perite to the seminal, the mean diameter of the hemispheres is not more than 1.0 μm. r not more than 0.1, where the last platform is rolled by temperature The last stand is 850 ° C or more after coarse rolling, steel with one of the Clause 1 to 9 Clause 1, after maintaining the condition at the Ar3 transition point + 30 ° C or more for a time. 5 seconds up to page 2 of the number of 2 pages to cooling with an average cooling speed of not more than 50 degrees Celsius / sec or more. Until 600 ° C after winding at the same temperature range. Annealed at annealed temperature not higher than Ac transition point 11 1. Method of pretension 10 where annealed temperature is not more than 600 ° C and not over Ac transition point, -------- ---- Edit 15/08/2016 1.20 ~ 0.48%, Si: not more than 0.1%, Mn: not more than 0.5%, P: Not more than 0.03%, S: Not more than 0.01%, so 1.0005 ~ 0.0050% by%. The remaining mass is Fe with the inevitable foreign matter. Having a microstructure from Ferrite with cementit The mean diameter of such cementation is not more than 0.1 (formula) m, the absolute value of (formula) r, which is the inequality across the r value, not more than 0.1 2. The hot-rolled steel sheet of claim 1, which consists of Add at least 1 type from Ni, Cr, Mo, total not more than 1.5% by mass% 3. Hot-rolled steel sheet of Clause 1 or 2, which consists of at least 1 type from Sb, Sn Total Not Exceeding 0.1% by mass% 4. Hot-rolled steel sheet of Clause 1 to 3 of any Clause 1, whose content of C is 0.26 ~ 0.48% 5. Hot rolled steel sheet of Clause 1 To any of the 4 clause 1, the quantity of Mn is 0.2 ~ 0.5%. 6. Hot-rolled steel sheet of Clause 1 to 5, one item of which the quantity of P is not more than 0.02% 7. Hot-rolled steel sheet of any Clause 1 to 6 of Clause 1, which the quantity of S said does not exceed 0.005%. One number 1 clause in which the quantity of, so l.Al above is not more than 0.06% 9. Hot-rolled steel sheet of B There is one right of Clause 1 to 8, where the amount of N is 0.0005 ~ 0.005% 1 0. Method for producing hot rolled high carbon steel plate with good hardenability and dissimilarity. together Along the low plane, there is a microstructure from ferrites and cementitates. Average diameter of Such cementation is not more than 0.1 (formula) m, the absolute value of (formula) r, which is unequal along the r-value, not more than 0.1, where the final mill finish by the final mill mill temperature is 850 ° C after. Coarse rolling of steel with any one of Clause 1 to 9 of Clause 9 after stabilizing at Ar3 + 30 ° C transition point for 5s or more, speed cooling. Average drainage, not more than 50 degree Celsius / s Until not exceeding 600 degrees Celsius after being kept at Same temperature range Annealed at annealed temperature not higher than Ac1 transition point 1 1. Method of claim 10 where annealed temperature does not exceed 600 ° C and does not exceed Ac1 transition point ---------- -------------------------------------------------- ---------------------------- Edit 28/09/16 1.20 ~ 0.48%, Si: not more than 0.1%, Mn: not more than 0.5%, P: not more than 0.03%, S: not more than 0.01%, so 1.0005 ~ 0.0050% by% residual mass in Fe with unavoidable foreign matter. Having a microstructure from Ferrite with cementit The mean diameter of the aforementioned cementation is not more than 0.1? M. The absolute value of? R, which is the inequality along the r value, is not more than 0.1. 2. The hot-rolled steel sheet of claim 1, which is supplemented by one type is At least from Ni, Cr, Mo total not more than 1.5% by mass% 3. Hot rolled steel plate of Clause 1 or 2, which consists of at least 1 type, from Sb, Sn total not more than 0.1% by%. Mass 4. Hot-rolled steel sheet of any Clause 1 to 3 Clause 1 of which the quantity of C is 0.26 ~ 0.48% 5. Hot rolled steel sheet of Clause 1 to 4. One item of Mn which the quantity of Mn is 0.2 ~ 0.5% 6. Hot-rolled steel sheet of Clause 1 to 5, one item of which the quantity of P is not more than 0.02% 7. Sheet Hot-rolled steel of Clause 1 to 6, any one item in which the quantity of S is not more than 0.005% 8. One item of hot-rolled steel plate of Clause 1 to 7, which The amount of, so l.Al thereof is not more than 0.06% 9. Hot-rolled steel plate of the claim. Clause 1 to 8, any number of items 1, where the amount of N is 0.0005 ~ 0.005% 1 0. Method for producing high carbon steel plate with good hardenability and unevenness. Along the low plane, where the microstructures are ferrite and cementite Average diameter of The absolute value of? R, which is the unevenness along the r value, is not more than 0.1, where the final mill mill temperature is 850 ° C after rough rolling. There is one element of Clause 1 to 9, after holding condition at Ar3 transition point +30 ° C for 5s or more. With the average heat dissipation does not exceed 50 ° C / s. Until no more than 600 ° C after winding at the same temperature range. Annealed at annealed temperature not higher than Ac1 transition point 1 1. Method of claim 10 where annealed temperature does not exceed 600 ° C and does not exceed Ac1 transition point ----------- -------------------------------------------------- ------------- 1.20 ~ 0.48%, Si: not more than 0.1%, Mn: not more than 0.5%, P: Not more than 0.03%, S: Not more than 0.01%, so 1.0005 ~ 0.0050. % By% residual mass as Fe with the inevitable foreign matter. Having a microstructure from Ferrite with cementit The mean diameter of such cementation is not more than 0.1 um, the absolute value of? R, which is the unequal across the r value, not more than 0.1 2. The hot-rolled steel sheet of Clause 1, which is supplemented by 1 type Less than 1.5% from Ni, Cr, Mo total not more than 1.5% by mass% 3. Hot-rolled steel plate of Clause 1 or 2, consisting of at least 1 type from Sb, Sn total not more than 0.1% by mass%. 4. Hot-rolled steel sheet of any Clause 1 to 3 Clause 1 of which the amount of C is 0.26 ~ 0.48% 5. Hot-rolled steel sheet of any Clause 1 to 4. Number 1, where the amount of Mn is 0.2 ~ 0.5% 6. Hot-rolled steel sheet of Clause 1 to 5, one item of which the quantity of P is not more than 0.02% 7. Steel sheet Hot-rolled steel of Clause 1 to 6, any number of items in which the quantity of S is not more than 0.005% 8. Hot-rolled steel sheet of Clause 1 to 7, any number of items, which quantity Of, so l.Al thereof is not more than 0.06% 9. Hot-rolled steel plate of the right Clause 1 to 8, any number of items 1, where the amount of N is 0.0005 ~ 0.005% 1 0. Method for producing high carbon steel plate with good hardenability and unevenness. Along the low plane, where the microstructures are ferrite and cementite Average diameter of Such cementation is not more than 0.1 um, the absolute value of? R, which is the unevenness along the r value, not more than 0.1, where the final mill fineness by the last mill mill temperature is 850 ° C after. Coarse rolling of steel with one of the 1 to 9 claim elements, after stabilizing at the Ar3 transition point +30 ° C for 5s or more, heat-cooled. Average drainage is not more than 50 ° C / s. Until not exceeding 600 degrees Celsius after being kept at Same temperature range Annealed at annealed temperature upto Ac1 transition point 1 1. Method of claim 10 in which annealed temperature does not exceed 600 ° C and does not exceed Ac1 transition point ------------------------ ---------------- 1. Hot rolled carbon steel sheet with good hardenability and unevenness along the entire line. In the low plane containing the composition C: 0.20-0.48%, Si: not more than 0.1%, Mn: not more than 0.5%, P: Not more than 0.03%, S: Not more than 0.01%, So 1.0005-0.0050%. The remaining mass% is Fe with the inevitable foreign matter. Having a microstructure from Ferrite with Cemestite The mean diameter of such cementitates is not more than 0.1 um, the absolute value of r, which is an unequal across the line of r, is not more than 0.1.