阅读说明：本技术 一种6~8mm TMCP在线淬火低屈强比高强耐磨钢NM400卷板及其生产方法 (6-8 mm TMCP (thermal mechanical control processing) on-line quenching low-yield-ratio high-strength wear-resistant steel NM400 coiled plate and production method thereof ) 是由 王少炳 宿成 李钊 袁晓鸣 武利平 卢晓禹 黄利 于 2020-04-16 设计创作，主要内容包括：本发明公开了一种6～8mm TMCP在线淬火低屈强比高强耐磨钢NM400卷板及其生产方法,该卷板的化学成分按质量百分比计为C：0.18-0.22％、Si：0.30-0.50％、Mn：1.30-1.45％、P：≤0.012％、S：≤0.003％、Nb：0.015-0.025％、Ti：0.010-0.025％、Cr：0.25-0.40％、B：0.0005-0.0020、Ca：0.0010-0.0030％、Al：0.020-0.050％、H：≤2ppm,O：≤30ppm,N：≤50ppm,余量为Fe和不可避免的杂质。提供的卷板具有优异的力学性能,金相组织为铁素体+马氏体两相组织,应用前景广阔。(The invention discloses a 6-8 mm TMCP (thermal mechanical control processing) online quenching low-yield-ratio high-strength wear-resistant steel NM400 rolled plate and a production method thereof, wherein the rolled plate comprises the following chemical components in percentage by mass: 0.18-0.22%, Si: 0.30-0.50%, Mn: 1.30-1.45%, P: less than or equal to 0.012%, S: less than or equal to 0.003 percent, Nb: 0.015 to 0.025%, Ti: 0.010-0.025%, Cr: 0.25-0.40%, B: 0.0005-0.0020, Ca: 0.0010-0.0030%, Al: 0.020-0.050%, H: 2ppm or less, O: less than or equal to 30ppm, N: less than or equal to 50ppm, and the balance of Fe and inevitable impurities. The provided coiled plate has excellent mechanical property, the metallographic structure is a ferrite and martensite two-phase structure, and the application prospect is wide.)

1. A6-8 mm TMCP on-line quenching low-yield-ratio high-strength wear-resistant steel NM400 rolled plate is characterized in that the rolled plate comprises the following chemical components in percentage by mass: 0.18-0.22%, Si: 0.30-0.50%, Mn: 1.30-1.45%, P: less than or equal to 0.012%, S: less than or equal to 0.003 percent, Nb: 0.015 to 0.025%, Ti: 0.010-0.025%, Cr: 0.25-0.40%, B: 0.0005-0.0020, Ca: 0.0010-0.0030%, Al: 0.020-0.050%, H: 2ppm or less, O: less than or equal to 30ppm, N: less than or equal to 50ppm, and the balance of Fe and inevitable impurities.

2. The rolled sheet of claim 1, wherein the rolled sheet has mechanical properties that satisfy: the yield strength is more than or equal to 1000MPa, the tensile strength is more than or equal to 1450MPa, the yield ratio is less than or equal to 0.70, the elongation is more than or equal to 11.0 percent, the impact energy at minus 20 ℃ is more than or equal to 56J, and the metallographic structure is a ferrite and martensite two-phase structure.

3. The production method of the rolled sheet according to claim 1 or 2, comprising the steps of molten iron pretreatment, converter top-bottom combined blown smelting, L F external refining, RH vacuum treatment, continuous slab casting, stacking slow cooling, slab heating, high pressure water descaling, rough rolling, flying shear, high pressure water descaling, finish rolling, cooling, coiling, marking and warehousing, wherein:

the molten iron pretreatment process adopts a KR method to desulfurize molten iron, and ensures that the element S of the molten iron fed into the converter is less than or equal to 0.003 percent;

the tapping temperature in the converter top-bottom combined blowing smelting process is more than or equal to 1620 ℃;

in the L F external refining process, large amount of slag is adopted for slagging and desulfurizing, S is ensured to be less than or equal to 0.003 percent, and ferrochrome and ferrocolumbium are added in the refining process;

in the RH vacuum treatment process, the RH vacuum treatment time is more than 20min, and ferrotitanium and ferroboron are added in the vacuum treatment process; carrying out calcium treatment on the molten steel after vacuum treatment, wherein the content of Ca is 0.0010-0.0030 percent, and the argon soft blowing time is more than 120 min;

the whole process of the slab continuous casting process is used for protecting pouring, the superheat degree is controlled to be 15-25 ℃, the drawing speed is 0.90-1.10m/min, and a dynamic soft reduction technology is adopted to reduce the center segregation of a continuous casting slab, wherein the center segregation of the casting slab is not more than C3.0 level, and the center porosity is not more than 2.0 level;

the slab heating procedure adopts a stepping heating furnace, the heating temperature is 1190-1230 ℃, and the heating time is more than or equal to 120 min;

in the rough rolling process, an R1 two-roller horizontal reversible rolling mill and an R2 four-roller horizontal reversible rolling mill are adopted for carrying out 3+ 5-pass rolling, and the thickness of an intermediate billet is 40-50 mm;

the finish rolling process adopts a seven-rack four-roller finish rolling unit for rolling, the rolling speed is constant, the finish rolling start temperature is 980-1040 ℃, and the finish rolling temperature is 840-880 ℃;

the cooling process adopts a two-stage cooling mode, the front section adopts encrypted rapid cooling to the temperature of 600-.

Technical Field

The invention belongs to the technical field of wear-resistant steel, and particularly relates to a 6-8 mm TMCP (thermal mechanical control processing) online quenching low-yield-ratio high-strength wear-resistant steel NM400 coiled plate and a production method thereof.

Background

Along with the trend of light weight development, steel used for a muck dumper tank body, a tank truck, a transport vehicle tank body, a wear-resistant lining plate and the like is turned into thin wear-resistant steel, the high-strength steel can effectively reduce the thickness of a material while improving the strength, and the weight of the dumper body is reduced by more than 30%, so that the dynamic property of an automobile is improved, the fuel consumption is reduced, the exhaust pollution is reduced, obvious environmental protection, economic and social benefits are achieved, and the market demand is greatly increased. The wear-resistant steel is required to have high strength and hardness and good toughness, and meanwhile, excellent welding performance and cold-bending forming performance are required.

At present, the production of the thin-specification high-strength wear-resistant steel mainly adopts an off-line heat treatment (quenching and tempering) process, the matrix structure of the thin-specification high-strength wear-resistant steel is lath martensite, high strength and hardness are obtained, and the wear resistance is ensured, but the martensite has the characteristic of high brittleness, so that the formability of a steel plate is poorer, the process is long in flow, the requirement on post-rolling heat treatment equipment is high, the cost is high, the production efficiency is low, the yield cannot meet the market demand, and a plurality of obstacles are added for the popularization and application of the thin-specification high-strength wear-resistant steel. The wear-resistant steel needs to be greatly strengthened, a low-alloy steel material needs to be developed, and the application of a short-flow online quenching technology in wear-resistant steel production needs to be researched. By adopting the controlled rolling and cooling online quenching technology, a ferrite and metastable austenite composite soft phase structure is introduced into a harder martensite matrix, so that the toughness, plasticity and formability are improved, and the wear-resistant hot-rolled coil with low cost, high performance, good plate shape and excellent machinability is produced, thereby being an important alloy design and production process research and development direction.

Patent document CN107574370A discloses NM400 wear-resistant steel with the thickness of 2-10 mm and a production method thereof, wherein the steel comprises the following chemical components: 0.10-0.25%, Si: 0.10 to 0.50%, Mn: 0.40-1.40%, P: less than or equal to 0.012 percent, S: less than or equal to 0.005 percent, Cr: 0.20-0.60%, Nb: 0.010-0.060%, Ni: less than or equal to 0.50 percent, Ti: less than or equal to 0.050%, Al: 0.015 to 0.045%, B: 0.0006-0.0025%. The wear-resistant steel produced by the components and the online quenching process disclosed by the document meets the requirements in performance. However, the composition disclosed in the document is alloyed with Ni, so that the alloy cost is high and the provided composition range is wide; the ultra-fast cooling final cooling temperature and the layer cooling start cooling temperature are not provided in the cooling process.

Patent document CN106987760A discloses a method for producing thin-gauge high-Ti wear-resistant steel NM400 by on-line quenching, which comprises the following chemical components: 0.12-0.20%, Si: 0.20-0.40%, Mn: 1.2-1.8%, Mo: 0.15-0.30%, Cr: 0.20-0.50%, Nb: 0.030 to 0.060%, Ti: 0.10-0.15%, Al: 0.015 to 0.045%, B: 0.0006-0.0015%, P: less than or equal to 0.015 percent, S: less than or equal to 0.010 percent, and the steel strip is produced into the wear-resistant steel by adopting the processes of thin slab continuous casting and rolling and ultra-fast cooling quenching. The document adds precious Mo element, Ti element content is high, and alloy cost is high.

Disclosure of Invention

Aiming at one or more problems in the prior art, the invention provides a 6-8 mm TMCP on-line quenching low-yield-ratio high-strength wear-resistant steel NM400 coiled plate, which comprises the following chemical components in percentage by mass: 0.18-0.22%, Si: 0.30-0.50%, Mn: 1.30-1.45%, P: less than or equal to 0.012%, S: less than or equal to 0.003 percent, Nb: 0.015 to 0.025%, Ti: 0.010-0.025%, Cr: 0.25-0.40%, B: 0.0005-0.0020, Ca: 0.0010-0.0030%, Al: 0.020-0.050%, H: 2ppm or less, O: less than or equal to 30ppm, N: less than or equal to 50ppm, and the balance of Fe and inevitable impurities.

The mechanical properties of the coiled plate meet the following requirements: the yield strength is more than or equal to 1000MPa, the tensile strength is more than or equal to 1450MPa, the yield ratio is less than or equal to 0.70, the elongation is more than or equal to 11.0 percent, the impact energy at minus 20 ℃ is more than or equal to 56J, and the metallographic structure is a ferrite and martensite two-phase structure.

The invention also provides a production method of the coiled plate, which comprises the following steps of molten iron pretreatment, converter top and bottom combined blowing smelting, L F external refining, RH vacuum treatment, continuous slab casting, stacking slow cooling, slab heating, high-pressure water descaling, rough rolling, flying shear, high-pressure water descaling, finish rolling, cooling, coiling, marking and warehousing, wherein:

in the hot metal pretreatment process, molten iron and high-quality scrap steel are desulfurized by a KR method, and the element S of the molten iron fed into the converter is ensured to be less than or equal to 0.003 percent;

the tapping temperature in the converter top-bottom combined blowing smelting process is more than or equal to 1620 ℃;

in the L F external refining process, large amount of slag is adopted for slagging and desulfurizing, S is ensured to be less than or equal to 0.003 percent, and ferrochrome and ferrocolumbium are added in the refining process;

in the RH vacuum treatment process, the RH vacuum treatment time is more than 20min, and ferrotitanium and ferroboron are added in the vacuum treatment process; carrying out calcium treatment on the molten steel after vacuum treatment, wherein the content of Ca is 0.0010-0.0030 percent, and the argon soft blowing time is more than 120 min;

the whole process of the slab continuous casting process is used for protecting pouring, the superheat degree is controlled to be 15-25 ℃, the drawing speed is 0.90-1.10m/min, and a dynamic soft reduction technology is adopted to reduce the center segregation of a continuous casting slab, wherein the center segregation of the casting slab is not more than C3.0 level, and the center porosity is not more than 2.0 level;

the slab heating procedure adopts a stepping heating furnace, the heating temperature is 1190-1230 ℃, and the heating time is more than or equal to 120 min;

in the rough rolling process, an R1 two-roller horizontal reversible rolling mill and an R2 four-roller horizontal reversible rolling mill are adopted for carrying out 3+ 5-pass rolling, and the thickness of an intermediate billet is 40-50 mm;

the finish rolling process adopts a seven-rack four-roller finish rolling unit for rolling, the rolling speed is constant, the finish rolling start temperature is 980-1040 ℃, and the finish rolling temperature is 840-880 ℃;

the cooling process adopts a two-stage cooling mode, the front section adopts encrypted rapid cooling to the temperature of 600-.

The 6-8 mm TMCP on-line quenching low-yield-ratio high-strength wear-resistant steel NM400 coiled plate provided by the technical scheme is designed by low-cost components, and is produced by combining a two-section type cooling process to obtain the thin-specification wear-resistant steel coiled plate, wherein the thickness of the coiled plate is 6-8 mm, and the thin-specification wear-resistant steel coiled plate has the advantages of low yield-ratio, short manufacturing process, green and environment-friendly process and the like. The provided method is based on an online quenching process of a new generation TMCP process technology, can break through the technical difficulty of obdurability matching under high hardness, realizes accurate regulation and control of an online complex phase structure of a thin-specification steel strip, obtains a low-cost, low-yield-ratio, high-hardness, high-strength, thin-specification wear-resistant steel hot-rolled coil, has good plate shape after the steel coil is flattened and straightened, has the steel plate straightness reaching 5mm/1m, has good steel plate formability and weldability, and realizes industrial application. The problems of long production process flow, high requirement on heat treatment equipment, high production cost and low efficiency of the thin-specification wear-resistant steel are effectively solved, and a larger space is created for the low-cost high-benefit production of the thin-specification wear-resistant steel.

Drawings

FIG. 1 is a metallographic structure photograph of a rolled sheet obtained in example 1;

FIG. 2 is a metallographic structure photograph of a rolled sheet obtained in example 2;

FIG. 3 is a metallographic structure photograph of a rolled sheet obtained in example 3.

Detailed Description

The invention aims to provide a 6-8 mm TMCP (thermal mechanical control processing) online quenching low-yield-ratio high-strength wear-resistant steel NM400 coiled plate and a production method thereof.

The production method of the 6-8 mm TMCP on-line quenching low-yield-ratio high-strength wear-resistant steel NM400 coiled plate comprises the following processes:

smelting, namely molten iron pretreatment, converter top and bottom combined blowing smelting, L F external refining, RH vacuum treatment, slab continuous casting and stacking slow cooling;

rolling: heating a plate blank, descaling by high-pressure water, rough rolling by E1R1, rough rolling by E2R2, flying shear, descaling by high-pressure water, and finish rolling by F1-F7;

and (3) cooling: encryption type laminar cooling-coiling-marking-warehousing;

1. smelting

The method comprises the steps of desulfurizing molten iron and high-quality scrap steel by a KR method in a smelting process, ensuring that the element S in the molten iron entering a converter is less than or equal to 0.003 percent, adopting self-produced low-sulfur scrap steel in the converter smelting process, refining at the tapping temperature of more than or equal to 1620 ℃ and L F by using large slag quantity for slagging and desulfurization, ensuring that the element S is less than or equal to 0.003 percent, adding ferrochromium and ferrocolumbium in the refining process, carrying out RH vacuum treatment for more than 20min, adding ferrotitanium and ferroboron in the vacuum treatment process, carrying out calcium treatment on the molten steel after the vacuum treatment, ensuring that the Ca content is 0.0010-0.0030 percent, ensuring that the S is less than or equal to 0.003 percent, ensuring that the RH vacuum treatment time is more than or equal to 20min, fully denaturalizing and floating impurities, carrying out protective pouring in the whole process of slab continuous casting, controlling the superheat degree at 15-25 ℃, the pulling speed at 0..

2. Heating and rolling

The slab heating adopts a stepping heating furnace, the heating temperature is 1190-. The rolling process is controlled to be carried out in two stages of hot rolling, all the stages are longitudinal rolling, the first stage is austenite recrystallization zone rolling, namely a rough rolling stage, the rough rolling is carried out by using an R1 two-roller horizontal reversible rolling mill and an R2 four-roller horizontal reversible rolling mill for 3+5 passes of rolling, and the thickness of an intermediate blank is 40-50 mm; the second stage is rolling in an austenite non-recrystallization region, namely a finish rolling stage, wherein the finish rolling is performed by adopting a seven-stand four-roller finish rolling unit, the rolling speed is constant, the finish rolling start temperature is 980-.

3. Cooling down

And after the rolling is controlled to be finished, the steel strip enters a dense laminar cooling area, the cooling mode is two-stage cooling, the front section is encrypted and rapidly cooled, the cooling temperature is 600-640 ℃, then air cooling is carried out, the air cooling time is 8-10s, and the steel strip is rapidly cooled to 100-200 ℃ after air cooling for coiling, so that a ferrite and martensite two-phase structure is finally obtained, the grain structure is uniformly distributed, and no mixed crystal and segregation appear.

The present invention will be described in detail below by way of examples, which are merely illustrative of the best mode for carrying out the present invention and do not limit the present invention in any way.