CN109355575B

CN109355575B - Preparation method of 800 MPa-level heat-treated wheel

Info

Publication number: CN109355575B
Application number: CN201811529313.0A
Authority: CN
Inventors: 衣江华; 孙琪; 郭吉喆
Original assignee: Liaoning Hengye High Tech New Material Co ltd
Current assignee: Liaoning Hengye High Tech New Material Co ltd
Priority date: 2018-12-14
Filing date: 2018-12-14
Publication date: 2022-04-01
Anticipated expiration: 2038-12-14
Also published as: CN109355575A

Abstract

The invention belongs to the field of machine manufacturing, and particularly relates to a preparation method of an 800 MPa-level heat treatment wheel. The technical scheme is as follows: step 1), selecting steel, wherein the steel comprises 0.15-0.20 mass percent of C, 0.7-1.17 mass percent of Si, 1.2-2.2 mass percent of Mn, 0.02-0.06 mass percent of Al, 0.015-0.02 mass percent of P, and the balance of Fe and inevitable impurities; step 2) manufacturing wheel spokes and wheel rims with qualified sizes by using the selected steel materials and adopting a conventional production process; synthesizing the wheel spoke and the wheel rim into a wheel with qualified size by adopting a conventional production process; step 3) carrying out heat treatment on the wheel, wherein the heat treatment process comprises the following steps: firstly, the wheel is heated to 890-910 ℃, taken out of the furnace, cooled to 780-786 ℃ in air, put into salt bath for cooling and quenching to 265-275 ℃, heated to 400-420 ℃ again, cooled to below 100 ℃ in air and washed with hot water. The external dimension of the wheel manufactured by the invention meets the standard requirement, and the overall physical property is optimized.

Description

Preparation method of 800 MPa-level heat-treated wheel

Technical Field

The invention belongs to the field of machine manufacturing, and particularly relates to a preparation method of an 800 MPa-level heat treatment wheel.

Background

When a steel wheel is manufactured, the conventional production process of the wheel spoke comprises the following steps: blanking, punching a central hole and a bolt hole, spinning, punching an air hole, expanding the bolt hole and turning; the conventional production process of the wheel rim comprises the following steps: rolling, flash butt welding, rolling, end cutting, rounding, flaring, rolling, expanding and shaping, and inflating a valve hole; the wheel spoke and the wheel rim are manufactured into the wheel through a composite welding process.

At present, high-strength materials used in the traditional manufacturing process of the steel wheel generally adopt materials with the tensile strength of about 400MPa, and the highest material is only about 700 MPa. The main reasons are as follows: firstly, the processing capacity of the equipment is not enough, and secondly, the welding performance of the high-strength material is not good.

The heat treatment is a method for improving the comprehensive mechanical property of the material, if the conventional production and the reheating treatment of the wheel are carried out, the problems of insufficient processing capability of equipment, poor welding performance, concentrated cold processing stress and the like can be solved, but the deformation control difficulty of the heat treatment of the whole wheel is high, the cost of the material suitable for the heat treatment is high, and the heat treatment process specially designed for the wheel production is blank, so the method is not adopted by wheel manufacturers.

It is well known that the dimensional and shape changes of steel during quenching are one of the most difficult problems faced by heat treatment. Compared with the common wheel, the lightweight wheel has thinner wall thickness and relatively weaker deformation resistance. The phase change stress is the main reason of heat treatment deformation, and the thermal stress generated by the difference of the inner layer cooling speed and the outer layer cooling speed during quenching is reasonably utilized, so that the deformation caused by the phase change stress can be counteracted to the maximum extent, and the optimal combination of a group of process parameters such as quenching temperature, cooling speed, cooling amplitude and the like needs to be found. In addition, solving the problems of uneven heating and cooling, selecting a proper cooling medium and improving the conventional wheel production process are all new problems in the wheel heat treatment production process.

Disclosure of Invention

The invention provides a preparation method of a 800 MPa-level heat treatment wheel, the external dimension of the prepared wheel meets the standard requirement, the overall physical performance is optimized, the tensile strength reaches 750-900MPa, the yield strength reaches 500-600MPa, the elongation reaches 30-35%, the yield ratio is 60%, and the product of strength and elongation is 27000 MPa.

The technical scheme of the invention is as follows:

a preparation method of an 800 MPa-grade heat-treated wheel comprises the following steps:

step 1), selecting steel, wherein the steel comprises 0.15-0.20 mass percent of C, 0.7-1.17 mass percent of Si, 1.2-2.2 mass percent of Mn, 0.02-0.06 mass percent of Al, 0.015-0.02 mass percent of P, and the balance of Fe and inevitable impurities;

step 2) manufacturing wheel spokes and wheel rims with qualified sizes by using the selected steel materials and adopting a conventional production process; synthesizing the wheel spoke and the wheel rim into a wheel with qualified size by adopting a conventional production process;

step 3) carrying out heat treatment on the wheel, wherein the heat treatment process comprises the following steps: firstly, the wheel is heated to 890-910 ℃, taken out of the furnace, cooled to 780-786 ℃ in air, put into salt bath for cooling and quenching to 265-275 ℃, heated to 400-420 ℃ again, cooled to below 100 ℃ in air and washed with hot water.

The preferable scheme of the preparation method of the 800 MPa-level heat treatment wheel is that in the step 2), the wall thickness of the wind hole of the wheel spoke is increased by 0.5-1.0mm compared with the wall thickness of the wind hole of the common wheel with the same specification.

The preferable scheme of the preparation method of the 800 MPa-level heat treatment wheel is that in the step 2), the wheel rim is subjected to annealing treatment on the welding line after the flash butt welding process.

The preparation method of the 800 MPa-level heat treatment wheel has the preferable scheme that in the step 2), the expansion amount of the expansion shaping process is not less than 1.4% of the blanking size.

The preparation method of the 800 MPa-grade heat-treated wheel has the preferable scheme that in the step 2), in the synthetic welding process, the welding wire comprises the following components: 0.15 to 0.20% of C, 0.7 to 1.17% of Si, and 1.2 to 2.2% of Mn.

The preferable scheme of the preparation method of the 800 MPa-level heat treatment wheel is that in the step 3), the heating furnace is an oxygen-free stepping heating furnace, the distance between the wheel and the distance between the wheel and the furnace wall are more than or equal to 200mm, and the heating and heat preservation time is 20-30 min.

The preferable scheme of the preparation method of the 800 MPa-level heat treatment wheel is that in the step 3), the wheel is conveyed to the position above a 265-275 ℃ salt bath quenching machine, is 20-30 mm away from the quenching liquid level, is placed horizontally with the spoke bottom downward, and is started to enable the quenching liquid pump to rise when the temperature of the rim of the wheel rim is reduced to 780-786 ℃ in the air, so that the liquid level of the quenching salt rises at a speed of 30mm/s, the wheel is completely immersed in the quenching salt to a position 100mm below the liquid level, the wheel rotates around the central axis thereof at a speed of 10-15 r/min, and the quenching time is 1-2 min.

The preferable scheme of the preparation method of the 800 MPa-level heat treatment wheel is that in the step 3), the wheel is quickly transferred to a high-temperature salt bath furnace for heating after being quenched, and the heat preservation time is 30-45 min.

The heat treatment process comprises a quenching stage, a distribution stage and a final cooling stage, wherein after austenitizing, the steel is quenched and cooled to a quenching temperature (between Ms and Mf), and part of the steel is transformed into martensite; then heating to the partitioning temperature, wherein C atoms are diffused to untransformed austenite from the supersaturated martensite through partitioning, so that the martensite transformation temperature Ms point is reduced, and the C atoms become retained austenite after being cooled to room temperature; through the quenching and partitioning process, the steel structure comprises certain residual austenite, so that the steel can keep high tensile strength and high elongation in the stretching process.

The invention has the beneficial effects that:

1. the material selected by the invention is different from the second generation high-strength material, has no rare alloy component, has low cost and is particularly suitable for QP process.

2. In the steel, Si is 0.07-1.17, Al is 0.02-0.06, P is 0.015-0.02, Al element can inhibit the precipitation of cementite, the stability of residual austenite is improved, the improvement of mechanical property is facilitated, and Al is used as a solid solution strengthening element and can improve the strength of steel; the solid solution strengthening effect of Si and P elements can improve the strength of steel.

3. The physical properties of all parts are consistent, the tissue is uniform, the content of residual austenite is 18-23%, the performance of a welding affected area in the conventional process is improved, the problem of poor local performance caused by work hardening is solved, the tensile strength can reach 750-900MPa, the yield strength can reach 500-600MPa, the elongation can reach 30-35%, the yield ratio is about 60%, and the product of strength and elongation at weak points is increased from 5700MPa to 27000 MPa.

4. The weight of a single wheel of the wheel manufactured by the invention is reduced by 30-50%, the material consumption and the energy consumption are saved, and the carrying capacity is improved; through fatigue detection, the service life of the wheel can reach more than 150% of the national standard under the test condition that the specified parameters are 150%.

5. The heat treatment step in the present invention: heating the wheel to austenitizing temperature, discharging, slowly cooling the rim of the wheel rim in air to 780-786 ℃, homogenizing the internal structure of the wheel, refining grains, quenching in a salt bath, and uniformly forming lath martensite along the circumference of the wheel due to reduced temperature difference in the quenching process, so that the deformation of the part is avoided, and the final size of the part is ensured to be qualified. The temperature range of 780-786 ℃ must be ensured, and when the temperature is higher than 786 ℃, the martensite structure is generated too violently, so that the part is deformed, and the final size of the part is out of tolerance; under 780 ℃, the martensite structure is generated too little, the strength of the part does not reach the standard, and meanwhile, the temperature difference between the rim and the spoke is increased, the oxidation is aggravated, the quenching uniformity is worsened and the deformation is aggravated due to the overlong detention time in the air.

6. The wall thickness of the wind hole of the wheel spoke is increased by 0.5-1.0mm compared with the wall thickness of the wind hole of the common wheel with the same specification, so that the integral supporting capacity of the wheel is ensured, the rigidity of the wheel is enhanced, and deformation during heat treatment can be prevented; the expansion amount of the expansion shaping process is not less than 1.4% of the blanking size, the elastic deformation coefficient of the material can be reduced, the internal organization structure of the material is strengthened, and the deformation of the wheel during heat treatment is reduced.

7. The phase change stress is the main reason of heat treatment deformation, and the heat stress generated by the difference of the inner layer cooling speed and the outer layer cooling speed during quenching is reasonably utilized, so that the deformation caused by the phase change stress can be counteracted to the maximum extent. According to the invention, through the optimal combination of technological parameters such as quenching temperature, cooling speed, cooling amplitude and the like, a proper cooling medium is selected, the problem of uneven heating and cooling is solved, and the requirements of the wheel heat treatment process are met.

Drawings

FIG. 1 is a cross-sectional view of a wheel rim;

FIG. 2 is a front view of a wheel spoke;

FIG. 3 is a side view of a wheel spoke;

FIG. 4 is a view of the wheel structure;

FIG. 5 is a metallographic structure micrograph of the product according to the example;

FIG. 6 is a scanning electron microscope photograph of the metallographic structure of the product in the example;

FIG. 7 is a detailed structural view of a product in the example.

Detailed Description

step 1), selecting steel, wherein the steel comprises 0.19 mass percent of C, 1.13 mass percent of Si, 1.76 mass percent of Mn, 0.04 mass percent of Al, 0.018 mass percent of P, and the balance of Fe and inevitable impurities; the tensile strength of the steel is 670MPa, and the yield strength is 450 MPa;

step 2) as shown in the figures 1-4, a wheel spoke 3 with qualified size is manufactured by steel through a conventional production process, the thickness of a spoke plate is 9mm, the thickness of a processed air hole 4 is 5.5mm, a wheel rim 1 with qualified size is manufactured by steel through the conventional production process, a welding seam is annealed after a flash butt welding process, and the expansion amount of an expansion process is 25 mm; the wheel spoke 3 and the wheel rim 1 are manufactured into wheels with qualified sizes by adopting a synthesis welding process, and the welding wire comprises the following components: c0.18, Si 1.14, Mn 1.74;

step 3) carrying out heat treatment on the wheel, and heating the wheel at 900 ℃ in an oxygen-free stepping heating furnace; preserving the temperature for 20 minutes; the wheel is conveyed to the position above a 270 ℃ salt bath quenching machine, the wheel is clamped in place, so that the wheel to be quenched is 20mm away from the quenching liquid level, the spoke bottom is downward, the wheel is horizontally placed, the wheel is waited for the temperature of a wheel rim 2 in the air to be reduced to 783 ℃, a quenching salt liquid pump is started at the same time, so that the liquid level rises at the speed of 30mm/s, the wheel is completely immersed in quenching salt to the position 100mm below the liquid level, a clamping device drives the wheel to rotate around the central axis of the wheel, the rotating speed is 10r/min, and the quenching time is 2 min; quickly transferring the quenched wheels to a high-temperature salt bath furnace for tempering treatment at 410 ℃, carrying out heating and heat preservation for 30 minutes, then carrying out air cooling to 90 ℃, and cleaning with hot water.

The tensile strength of the prepared wheel reaches 810MPa, the yield strength reaches 525MPa, the actual dynamic balance and the size of a key part completely meet the technical requirements, and the circumferential run-out is improved before heat treatment; the internal structure is shown in figures 5-7, and is martensite and retained austenite, and the content of the retained austenite is 20%; the lath martensite and the film austenite structure ensure the high strength and the high toughness of the steel; through the whole dissection and comprehensive inspection, the physical properties of all parts are consistent, no welding heat affected zone exists, and the problems of too low elongation rate and the like caused by work hardening do not exist; through fatigue detection, the service life of the wheel still reaches over 150 percent of the national standard under the test condition of adopting the specified parameter of 150 percent, but the weight of the wheel is only equal to 70 percent of that of a common wheel with the same specification.

Claims

1. The preparation method of the 800 MPa-grade heat-treated wheel is characterized by comprising the following steps of:

step 2) manufacturing wheel spokes and wheel rims with qualified sizes by using the selected steel materials and adopting a conventional production process; synthesizing the wheel spoke and the wheel rim into a wheel with qualified size by adopting a conventional production process; the expansion amount of the expansion shaping process is not less than 1.4% of the blanking size;

step 3) carrying out heat treatment on the wheel, wherein the heat treatment process comprises the following steps: firstly, heating the wheel to 890-910 ℃, discharging, cooling to 780-786 ℃ in air, cooling in salt bath to 265-275 ℃, heating to 400-420 ℃, air cooling to below 100 ℃ and hot water washing; the heating furnace is an oxygen-free stepping heating furnace, the distance between wheels and the furnace wall is more than or equal to 200mm, and the heating and heat preservation time is 20-30 min; the wheel is conveyed to the position above a salt bath quenching machine at 265-275 ℃, is 20-30 mm away from the quenching liquid level, is horizontally placed with the spoke bottom downward, and is started to enable the quenching liquid level to rise at the speed of 30mm/s when the temperature of a wheel rim in the air is reduced to 780-786 ℃, so that the wheel is completely immersed in the quenching salt to the position 100mm below the liquid level, the wheel rotates around the central axis of the wheel, the rotating speed is 10-15 r/min, and the quenching time is 1-2 min; and transferring the quenched wheels to a high-temperature salt bath furnace for heating, wherein the heat preservation time is 30-45 min.

2. The method for preparing the 800MPa grade heat-treated wheel according to claim 1, wherein in the step 2), the wheel rim is annealed to the welding line after the flash butt welding process.

3. The method for preparing the 800MPa grade heat-treated wheel according to claim 1, wherein in the step 2), in the composite welding process, the welding wire comprises the following components: 0.15 to 0.20% of C, 0.7 to 1.17% of Si, and 1.2 to 2.2% of Mn.