WO2023197571A1 - 360hb-450hb grade abrasion resistant steel and production method therefor - Google Patents

Abstract

Disclosed in the present invention is a 360HB-450HB grade abrasion resistant steel, comprising the following chemical components in percentage by mass: C: 0.10%-0.30%, Si: 0.20%-0.50%, Mn: 0.80%-1.60%, P≤0.020%, S≤0.005%, Ti: 0.008%-0.025%, Cr: 0.20%-1.00%, Ni≤0.60%, Mo: 0.10%-0.50%, Al: 0.025%-0.055%, B: 0.0010%-0.0030%, Mg: 0.0010%-0.0018%, N≤0.0045%, and the remainder being Fe and inevitable impurities, the Brinell hardness of the steel grade surface being 330-480 HBW. Further disclosed is a production method for the abrasion resistant steel. The present invention formulates components of the abrasion resistant steel with the steel grade of NM360-NM450 according to the national standard "GB/T 24186-2009 high strength abrasion resistant steel plates for construction machine", and the abrasion resistant steel performance index satisfying the national standard requirement is obtained.

Description

A kind of 360HB-450HB grade wear-resistant steel and its production method Technical field

The invention belongs to the field of metallurgical engineering, and specifically relates to a 360HB-450HB grade wear-resistant steel and a production method thereof.

Background technique

Wear-resistant steel is widely used in engineering machinery. Among them, 360HB level and above require surface Brinell hardness and longitudinal impact energy of -20 degrees. In order to meet the performance requirements of the product, the product uses a high alloy content and the product requires high tensile strength. In the casting billet And the steel plate cutting process will produce sudden brittle fractures, which will bring great difficulties to production and manufacturing. The production of wear-resistant steel is technically difficult in the smelting and manufacturing process.

Contents of the invention

Purpose of the invention: The first purpose of the present invention is to provide a 360HB-450HB grade wear-resistant steel, and the second purpose is to provide a production method of the above-mentioned wear-resistant steel.

Technical solution: The chemical composition and mass percentage of the 360HB-450HB grade wear-resistant steel disclosed by the present invention are as follows: C: 0.10% ~ 0.30%, Si: 0.20% ~ 0.50%, Mn: 0.80% ~ 1.60%, P ≤ 0.020 %, S≤0.005%, Ti: 0.008%～0.025%, Cr: 0.20%～1.00%, Ni: ≤0.60%, Mo: 0.10%～0.50%, Al: 0.025%～0.055%, B: 0.0010%～ 0.0030%, Mg: 0.0010% ~ 0.0018%, N ≤ 0.0045%, the balance is Fe and inevitable impurities; steel grade surface Brinell hardness 330 ~ 480HBW.

Further, the chemical composition and mass percentage of 360HB grade wear-resistant steel are as follows: C: 0.12% ~ 0.15%, Si: 0.20% ~ 0.40%, Mn: 1.20% ~ 1.50%, P ≤ 0.015%, S ≤ 0.003%, Ti: 0.008% ~ 0.020%, Cr: 0.20% ~ 0.80%, Mo: 0.15% ~ 0.30%, Al: 0.025% ~ 0.055%, B: 0.0010% ~ 0.0030%, Mg: 0.0010% ~ 0.0018%, N≤ 0.0045%, the balance is Fe and inevitable impurities; the surface Brinell hardness of steel grade is 330~390HBW.

Further, the chemical composition and mass percentage of 400HB grade wear-resistant steel are as follows: C: 0.10% ~ 0.20%, Si: 0.20% ~ 0.40%, Mn: 0.80% ~ 1.50%, P ≤ 0.020%, S ≤ 0.005%, Ti: 0.008% to 0.025%, Cr: 0.30% to 0.90%, Ni: 0.20% to 0.50%, Mo: 0.10% to 0.50%, Al: 0.025% to 0.055%, B: 0.0010% to 0.0030%, Mg: 0.0010% ~ 0.0018%, N ≤ 0.0045%, the balance is Fe and inevitable impurities; the steel grade surface Brinell hardness is 370 ~ 430HBW.

Further, the chemical composition and mass percentage of 450HB grade wear-resistant steel are as follows: C: 0.20% ~ 0.30%, Si: 0.20% ~ 0.50%, Mn: 1.00% ~ 1.60%, P ≤ 0.015%, S ≤ 0.003%, Ti: 0.008% to 0.025%, Cr: 0.30% to 1.00%, Ni: 0.20% to 0.60%, Mo: 0.20% to 0.50%, Al: 0.025% to 0.055%, B: 0.0010% to 0.0030%, Mg: 0.0010% ~ 0.0018%, N ≤ 0.0045%, the balance is Fe and inevitable impurities; the surface Brinell hardness of steel grade is 420 ~ 480HBW.

The production method of the above-mentioned 360HB-450HB grade wear-resistant steel includes the following steps:

S1. The molten iron is smelted in a desulfurized top-bottom double-blown converter using the KR method. The end temperature is 1590~1630℃, C: 0.05%~0.10%, and P≤0.013% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 15 to 20 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 10~20℃, the continuous casting speed is 0.6~1.3m/min, and full protection casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the cast slab is kept at a temperature of 150~450℃ and put into the furnace. The austenitizing temperature of the heating furnace is 1200±20℃, and is rolled using conventional rolling processes;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The primary quenching temperature is set to the heating temperature of 870~890℃, holding for 20~40min, and water cooling; the secondary quenching temperature is set to the heating temperature of 850~870℃ and holding. 25～30min, water cooling; tempering heating temperature 260～280℃, heat preservation 50～60min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 120~150℃. Use a burning gun to cut the steel plate. The starting speed is 160~200mm/min and the cutting speed is 350~380mm/min. After the cutting is completed, cover it with fire-resistant insulation. The cotton is cooled slowly to room temperature to relieve stress from cutting.

Beneficial effects: Compared with existing technology:

1. The present invention formulates the composition of steel grade NM360~NM450 wear-resistant steel according to the national "GB/T 24186-2009 High-Strength Wear-Resistant Steel Plate for Engineering Machinery" standard, and obtains wear-resistant steel performance indicators that meet the requirements of national standards.

2. The present invention uses a vacuum treatment process to obtain clean molten steel, improves the surface quality of the cast slab, avoids the occurrence of intergranular cracks, and reduces the occurrence of delayed cracking of the cast slab and the steel plate;

3. The unique furnace charging temperature of the cast slab solves the harm caused by the internal stress of the cast slab to the quality of the steel plate. The application of high-temperature austenite technology and conventional rolling technology achieves the surface and intrinsic quality requirements of high-strength steel;

4. The secondary quenching process is adopted to solve the problem of intergranular cracking of high-strength steel plates during the heat treatment process and steel plate cooling process, ensuring the quality of the product;

5. Keep in mind that the steel plate process solves the problem of high internal stress in the steel plate and ensures that the steel plate has good surface quality and internal quality.

Description of the drawings

Figure 1 is a metallographic structure diagram of Embodiment 1 of the present invention;

Figure 2 is a metallographic structure diagram of Embodiment 2 of the present invention;

Figure 3 is a metallographic structure diagram of Embodiment 3 of the present invention;

Figure 4 is a metallographic structure diagram of Embodiment 4 of the present invention;

Figure 5 is a metallographic structure diagram of Example 5 of the present invention;

Figure 6 is a metallographic structure diagram of Embodiment 6 of the present invention;

Figure 7 is a metallographic structure diagram of Embodiment 7 of the present invention;

Figure 8 is a metallographic structure diagram of Embodiment 8 of the present invention;

Figure 9 is a metallographic structure diagram of Example 9 of the present invention.

Detailed ways

The present invention will be further described below in conjunction with the accompanying drawings and examples.

Example 1

A kind of 360HB grade wear-resistant steel, its chemical composition and mass percentage are as follows: C: 0.12%, Si: 0.20%, Mn: 1.20%, P: 0.006%, S: 0.001%, Ti: 0.008%, Cr: 0.20% , Mo: 0.15%, Al: 0.025%, B: 0.0010%, Mg: 0.0010%, N: 0.0015%, the balance is Fe and inevitable impurities; the steel grade surface Brinell hardness is 330~390HBW.

The following production method is adopted, including the following steps:

S1. The molten iron is smelted in a converter with desulfurization and top-bottom blowing using the KR method. The end-point temperature is 1590°C, C: 0.05%, and P: 0.004% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 15 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 10°C, the continuous casting speed is 0.6m/min, and fully protected casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the billet is kept at a temperature of 150°C and entered into the furnace. The austenitizing temperature of the heating furnace is 1200±20°C and rolled using conventional rolling processes;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The initial quenching temperature is set to the heating temperature of 870°C, held for 20 minutes, and water-cooled; the secondary quenching temperature is set to the heating temperature of 850°C, held for 25 minutes, and water-cooled; tempered. Heating temperature 260℃, heat preservation 50min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 120°C. Use a burning gun to cut the steel plate. The starting speed is 160mm/min and the cutting speed is 350mm/min. After cutting is completed, cover it with refractory insulation cotton and slowly cool it to room temperature. to eliminate the stress caused by cutting.

The obtained metallographic structure diagram is shown in Figure 1, and its performance parameters are as follows:

Example 2

A kind of 360HB grade wear-resistant steel, its chemical composition and mass percentage are as follows: C: 0.14%, Si: 0.30%, Mn: 1.35%, P: 0.010%, S: 0.002%, Ti: 0.014%, Cr: 0.50% , Mo: 0.22%, Al: 0.040%, B: 0.0020%, Mg: 0.0014%, N: 0.0030%, the balance is Fe and inevitable impurities; the steel grade surface Brinell hardness is 330~390HBW.

The following production method is adopted, including the following steps:

S1. The molten iron is smelted in a desulfurized top-bottom double-blown converter using the KR method. The end-point temperature is 1610°C, C: 0.08%, and P: 0.008% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 18 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 15°C, the continuous casting speed is 0.8m/min, and fully protected casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the billet is kept at a temperature of 300°C and put into the furnace. The austenitizing temperature of the heating furnace is 1200±20°C and rolled using conventional rolling processes;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The primary quenching temperature is set to the heating temperature of 880°C, held for 30 minutes, and water-cooled; the secondary quenching temperature is set to the heating temperature of 860°C, held for 27 minutes, and water-cooled; tempered. Heating temperature 270℃, heat preservation 55min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 135°C. Use a burning gun to cut the steel plate. The starting speed is 180mm/min and the cutting speed is 365mm/min. After cutting is completed, cover it with refractory insulation cotton and slowly cool it to room temperature. to eliminate the stress caused by cutting.

The obtained metallographic structure diagram is shown in Figure 2, and its performance parameters are as follows:

Example 3

A kind of 360HB grade wear-resistant steel, its chemical composition and mass percentage are as follows: C: 0.15%, Si: 0.40%, Mn: 1.50%, P: 0.015%, S: 0.003%, Ti: 0.020%, Cr: 0.80% , Mo: 0.30%, Al: 0.055%, B: 0.0030%, Mg: 0.0018%, N: 0.0045%, the balance is Fe and inevitable impurities; the steel grade surface Brinell hardness is 330~390HBW.

The following production method is adopted, including the following steps:

S1. The molten iron is smelted in a desulfurized top-bottom double-blown converter using the KR method. The end-point temperature is 1630°C, C: 0.10%, and P: 0.013% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 20 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 20°C, the continuous casting speed is 1.3m/min, and fully protected casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the billet is kept at 450°C and put into the furnace. The austenitizing temperature of the heating furnace is 1200±20°C, and the conventional rolling process is used for rolling;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The initial quenching temperature is set to the heating temperature of 890°C, held for 40 minutes, and water-cooled; the secondary quenching temperature is set to the heating temperature of 870°C, held for 30 minutes, water-cooled; tempered Heating temperature 280℃, heat preservation 60min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 150°C. Use a burning gun to cut the steel plate. The starting speed is 200mm/min and the cutting speed is 380mm/min. After cutting is completed, cover it with refractory insulation cotton and slowly cool it to room temperature. to eliminate the stress caused by cutting.

The obtained metallographic structure diagram is shown in Figure 3, and its performance parameters are as follows:

Example 4

A 400HB grade wear-resistant steel with the following chemical composition and mass percentage: C: 0.10%, Si: 0.20%, Mn: 0.80%, P: 0.010%, S: 0.003%, Ti: 0.008%, Cr: 0.30% , Ni: 0.20%, Mo: 0.10%, Al: 0.025%, B: 0.0010%, Mg: 0.0010%, N: 0.0015%, the balance is Fe and inevitable impurities; steel grade surface Brinell hardness 370~430HBW .

The following production method is adopted, including the following steps:

S1. The molten iron is smelted in a converter with desulfurization and top-bottom blowing using the KR method. The end-point temperature is 1590°C, C: 0.05%, and P: 0.004% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 15 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 10°C, the continuous casting speed is 0.6m/min, and fully protected casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the billet is kept at a temperature of 150°C and entered into the furnace. The austenitizing temperature of the heating furnace is 1200±20°C and rolled using conventional rolling processes;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The initial quenching temperature is set to the heating temperature of 870°C, held for 20 minutes, and water-cooled; the secondary quenching temperature is set to the heating temperature of 850°C, held for 25 minutes, and water-cooled; tempered. Heating temperature 260℃, heat preservation 50min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 120°C. Use a burning gun to cut the steel plate. The starting speed is 160mm/min and the cutting speed is 350mm/min. After cutting is completed, cover it with refractory insulation cotton and slowly cool it to room temperature. to eliminate the stress caused by cutting.

The obtained metallographic structure diagram is shown in Figure 4, and its performance parameters are as follows:

Example 5

A 400HB grade wear-resistant steel with the following chemical composition and mass percentage: C: 0.15%, Si: 0.30%, Mn: 1.10%, P: 0.015%, S: 0.004%, Ti: 0.015%, Cr: 0.60% , Ni: 0.35%, Mo: 0.35%, Al: 0.040%, B: 0.0020%, Mg: 0.0014%, N: 0.0030%, the balance is Fe and inevitable impurities; steel grade surface Brinell hardness 370~430HBW .

The following production method is adopted, including the following steps:

S1. The molten iron is smelted in a desulfurized top-bottom double-blown converter using the KR method. The end-point temperature is 1610°C, C: 0.08%, and P: 0.008% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 18 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 15°C, the continuous casting speed is 0.8m/min, and fully protected casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the billet is kept at a temperature of 300°C and put into the furnace. The austenitizing temperature of the heating furnace is 1200±20°C and rolled using conventional rolling processes;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The primary quenching temperature is set to the heating temperature of 880°C, held for 30 minutes, and water-cooled; the secondary quenching temperature is set to the heating temperature of 860°C, held for 27 minutes, and water-cooled; tempered. Heating temperature 270℃, heat preservation 55min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 135°C. Use a burning gun to cut the steel plate. The starting speed is 180mm/min and the cutting speed is 365mm/min. After cutting is completed, cover it with refractory insulation cotton and slowly cool it to room temperature. to eliminate the stress caused by cutting.

The obtained metallographic structure diagram is shown in Figure 5, and its performance parameters are as follows:

Example 6

A 400HB grade wear-resistant steel with the following chemical composition and mass percentage: C: 0.20%, Si: 0.40%, Mn: 1.50%, P: 0.020%, S: 0.005%, Ti: 0.025%, Cr: 0.90% , Ni: 0.50%, Mo: 0.50%, Al: 0.055%, B: 0.0030%, Mg: 0.0018%, N: 0.0045%, the balance is Fe and inevitable impurities; steel grade surface Brinell hardness 370~430HBW .

The following production method is adopted, including the following steps:

S1. The molten iron is smelted in a desulfurized top-bottom double-blown converter using the KR method. The end temperature is 1630°C, C: 0.10%, and P: 0.013% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 20 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 20°C, the continuous casting speed is 1.3m/min, and fully protected casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the billet is kept at a temperature of 450°C and entered into the furnace. The austenitizing temperature of the heating furnace is 1200±20°C and rolled using conventional rolling processes;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The initial quenching temperature is set to the heating temperature of 890°C, held for 40 minutes, and water-cooled; the secondary quenching temperature is set to the heating temperature of 870°C, held for 30 minutes, water-cooled; tempered Heating temperature 280℃, heat preservation 60min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 150°C. Use a burning gun to cut the steel plate. The starting speed is 200mm/min and the cutting speed is 380mm/min. After cutting is completed, cover it with refractory insulation cotton and slowly cool it to room temperature. to eliminate the stress caused by cutting.

The obtained metallographic structure diagram is shown in Figure 6, and its performance parameters are as follows:

Example 7

A 450HB grade wear-resistant steel with the following chemical composition and mass percentage: C: 0.20%, Si: 0.20%, Mn: 1.00%, P: 0.005%, S: 0.001%, Ti: 0.008%, Cr: 0.30% , Ni: 0.20%, Mo: 0.20%, Al: 0.025%, B: 0.0010%, Mg: 0.0010%, N: 0.0015%, the balance is Fe and inevitable impurities; steel grade surface Brinell hardness 420~480HBW .

The following production method is adopted, including the following steps:

S1. The molten iron is smelted in a converter with desulfurization and top-bottom blowing using the KR method. The end-point temperature is 1590°C, C: 0.05%, and P: 0.004% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 15 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 10°C, the continuous casting speed is 0.6m/min, and fully protected casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the billet is kept at a temperature of 150°C and entered into the furnace. The austenitizing temperature of the heating furnace is 1200±20°C and rolled using conventional rolling processes;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The initial quenching temperature is set to the heating temperature of 870°C, held for 20 minutes, and water-cooled; the secondary quenching temperature is set to the heating temperature of 850°C, held for 25 minutes, and water-cooled; tempered. Heating temperature 260℃, heat preservation 50min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 120°C. Use a burning gun to cut the steel plate. The starting speed is 160mm/min and the cutting speed is 350mm/min. After cutting is completed, cover it with refractory insulation cotton and slowly cool it to room temperature. to eliminate the stress caused by cutting.

The obtained metallographic structure diagram is shown in Figure 7, and its performance parameters are as follows:

Example 8

A 450HB grade wear-resistant steel with the following chemical composition and mass percentage: C: 0.25%, Si: 0.35%, Mn: 1.30%, P: 0.010%, S: 0.002%, Ti: 0.015%, Cr: 0.70% , Ni: 0.40%, Mo: 0.35%, Al: 0.040%, B: 0.0020%, Mg: 0.0014%, N: 0.0030%, the balance is Fe and inevitable impurities; steel grade surface Brinell hardness 420~480HBW .

The following production method is adopted, including the following steps:

S1. The molten iron is smelted in a desulfurized top-bottom double-blown converter using the KR method. The end-point temperature is 1610°C, C: 0.08%, and P: 0.008% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 18 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 15°C, the continuous casting speed is 0.8m/min, and fully protected casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the billet is kept at a temperature of 300°C and put into the furnace. The austenitizing temperature of the heating furnace is 1200±20°C, and the rolling process is carried out using conventional rolling processes;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The primary quenching temperature is set to the heating temperature of 880°C, held for 30 minutes, and water-cooled; the secondary quenching temperature is set to the heating temperature of 860°C, held for 27 minutes, and water-cooled; tempered. Heating temperature 270℃, heat preservation 55min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 135°C. Use a burning gun to cut the steel plate. The starting speed is 180mm/min and the cutting speed is 365mm/min. After cutting is completed, cover it with refractory insulation cotton and slowly cool it to room temperature. to eliminate the stress caused by cutting.

The obtained metallographic structure diagram is shown in Figure 8, and its performance parameters are as follows:

Example 9

A 450HB grade wear-resistant steel with the following chemical composition and mass percentage: C: 0.30%, Si: 0.50%, Mn: 1.60%, P: 0.015%, S: 0.003%, Ti: 0.025%, Cr: 1.00% , Ni: 0.60%, Mo: 0.50%, Al: 0.055%, B: 0.0030%, Mg: 0.0018%, N: 0.0045%, the balance is Fe and inevitable impurities; steel grade surface Brinell hardness 420~480HBW .

The following production method is adopted, including the following steps:

S1. The molten iron is smelted in a desulfurized top-bottom double-blown converter using the KR method. The end-point temperature is 1630°C, C: 0.10%, and P: 0.013% before tapping;

S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 20 minutes;

S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 20°C, the continuous casting speed is 1.3m/min, and fully protected casting is used to avoid secondary oxidation of the molten steel;

S4. After the thermal inspection, the billet is kept at a temperature of 450°C and entered into the furnace. The austenitizing temperature of the heating furnace is 1200±20°C and rolled using conventional rolling processes;

S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The initial quenching temperature is set to the heating temperature of 890°C, held for 40 minutes, and water-cooled; the secondary quenching temperature is set to the heating temperature of 870°C, held for 30 minutes, water-cooled; tempered Heating temperature 280℃, heat preservation 60min, air cooling;

S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 150°C. Use a burning gun to cut the steel plate. The starting speed is 200mm/min and the cutting speed is 380mm/min. After cutting is completed, cover it with refractory insulation cotton and slowly cool it to room temperature. to eliminate the stress caused by cutting.

The obtained metallographic structure diagram is shown in Figure 9, and its performance parameters are as follows:

Claims (5)

A 360HB-450HB grade wear-resistant steel, characterized in that its chemical composition and mass percentage are as follows: C: 0.10% ~ 0.30%, Si: 0.20% ~ 0.50%, Mn: 0.80% ~ 1.60%, P ≤ 0.020% , S≤0.005%, Ti: 0.008%～0.025%, Cr: 0.20%～1.00%, Ni: ≤0.60%, Mo: 0.10%～0.50%, Al: 0.025%～0.055%, B: 0.0010%～0.0030 %, Mg: 0.0010% ~ 0.0018%, N ≤ 0.0045%, the balance is Fe and inevitable impurities; the surface Brinell hardness of steel grade is 330 ~ 480HBW. The 360HB-450HB grade wear-resistant steel according to claim 1, characterized in that: the chemical composition and mass percentage of 360HB grade wear-resistant steel are as follows: C: 0.12% ~ 0.15%, Si: 0.20% ~ 0.40%, Mn: 1.20%～1.50%, P≤0.015%, S≤0.003%, Ti: 0.008%～0.020%, Cr: 0.20%～0.80%, Mo: 0.15%～0.30%, Al: 0.025%～0.055%, B: 0.0010% ~ 0.0030%, Mg: 0.0010% ~ 0.0018%, N ≤ 0.0045%, the balance is Fe and inevitable impurities; steel grade surface Brinell hardness 330 ~ 390HBW. The 360HB-450HB grade wear-resistant steel according to claim 1, characterized in that: the chemical composition and mass percentage of 400HB grade wear-resistant steel are as follows: C: 0.10% ~ 0.20%, Si: 0.20% ~ 0.40%, Mn: 0.80%～1.50%, P≤0.020%, S≤0.005%, Ti: 0.008%～0.025%, Cr: 0.30%～0.90%, Ni: 0.20%～0.50%, Mo: 0.10%～0.50%, Al: 0.025% ~ 0.055%, B: 0.0010% ~ 0.0030%, Mg: 0.0010% ~ 0.0018%, N ≤ 0.0045%, the balance is Fe and inevitable impurities; the steel grade surface Brinell hardness is 370 ~ 430HBW. The 360HB-450HB grade wear-resistant steel according to claim 1, characterized in that: the chemical composition and mass percentage of 450HB grade wear-resistant steel are as follows: C: 0.20% ~ 0.30%, Si: 0.20% ~ 0.50%, Mn: 1.00%～1.60%, P≤0.015%, S≤0.003%, Ti: 0.008%～0.025%, Cr: 0.30%～1.00%, Ni: 0.20%～0.60%, Mo: 0.20%～0.50%, Al: 0.025% ~ 0.055%, B: 0.0010% ~ 0.0030%, Mg: 0.0010% ~ 0.0018%, N ≤ 0.0045%, the balance is Fe and inevitable impurities; the steel grade surface Brinell hardness is 420 ~ 480HBW. The production method of 360HB-450HB grade wear-resistant steel according to claim 1, characterized in that it includes the following steps: S1. The molten iron is smelted in a desulfurized top-bottom double-blown converter using the KR method. The end temperature is 1590~1630℃, C: 0.05%~0.10%, and P≤0.013% before tapping; S2. After smelting in the converter, it is sent to LF for deoxidation and alloying. The components meet the requirements and undergo RH vacuum treatment. The vacuum degree is ≤3.0mbar. After meeting the vacuum degree requirements, the vacuum treatment time is 15 to 20 minutes; S3. After the molten steel is transferred, it is sent to the continuous casting table for casting. The superheat of the middle package is 10~20℃, the continuous casting speed is 0.6~1.3m/min, and full protection casting is used to avoid secondary oxidation of the molten steel; S4. After the thermal inspection, the cast slab is kept at a temperature of 150~450℃ and put into the furnace. The austenitizing temperature of the heating furnace is 1200±20℃ and rolled using conventional rolling processes; S5. The rolled steel plate is sent to heat treatment for quenching and tempering. The primary quenching temperature is set to the heating temperature of 870~890℃, holding for 20~40min, and water cooling; the secondary quenching temperature is set to the heating temperature of 850~870℃ and holding. 25～30min, water cooling; tempering heating temperature 260～280℃, heat preservation 50～60min, air cooling; S6. After quenching and tempering, use an electronic heating pad to heat the steel plate to 120~150℃. Use a burning gun to cut the steel plate. The starting speed is 160~200mm/min and the cutting speed is 350~380mm/min. After the cutting is completed, cover it with fire-resistant insulation. The cotton is slowly cooled to room temperature to relieve stress from cutting.

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