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Pneumatic hot forming-quenching method and device for ultrahigh-strength steel complex component

An ultra-high-strength steel and ultra-high-strength technology, applied in quenching devices, forming tools, heat treatment furnaces, etc., can solve the problems of high design cost of cooling system, high cost of cooling pipeline design, and large thermal shock damage of molds, etc., to achieve Reduce the difficulty of forming technology and manufacturing cost, the effect of low technical implementation difficulty and high mold cost

Active Publication Date: 2018-01-19
NANJING INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0005] However, the traditional hot stamping technology has the following defects: (1) Including the patents mentioned above, the stamping process is carried out through the direct contact of the concave-convex die combination die with the plate, the die suffers large thermal shock damage, the die life is short, and the cost is high ; (2) A hot forming method for components with complex shapes of martensitic steel plates (CN201611217511.4) can realize the forming of stamped negative angle components, but the cooling pipeline design cost is high by using the traditional in-mold cooling method, and the high pressure cavity The low thermal conductivity of the gas in the quenching process will easily lead to uneven heating of the surface and cracking; (3) The traditional rigid contact stamping dies involved in the current patent (CN201610778308.8, CN200810249740.3, CN201110109510.9, CN201410529046. 2, etc.), the thickness direction is uneven, the cooling system needs to be set according to different mold shapes, and the design cost of the cooling system is high and the technology is difficult
Not only that, the surface quality of hot stamping products is poor after quenching, and there is also surface oxidation, which requires subsequent shot peening operations to remove the surface oxide layer and surface relief, resulting in redundant operations

Method used

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  • Pneumatic hot forming-quenching method and device for ultrahigh-strength steel complex component

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Effect test

Embodiment 1

[0033] Embodiment one: with reference to attached figure 1 , 2 , As shown in 3, a pneumatically controlled ultra-high-strength steel hot stamping forming method includes the following steps:

[0034] 1) Punching: Select 2mm thick 22MnB5 uncoated ultra-high strength steel plate, and punch it to 1500mmⅹ500mm;

[0035] 2) Austenitization: Under the high-pressure nitrogen protective atmosphere, the sheet is heated to 920°C by electric heating, and kept for 180s to make the sheet completely austenitized;

[0036] 3) High-pressure gas forming: The fully austenitized 22MnB5 sheet is quickly transferred to a high-pressure atomized gas forming device, and the transfer time is controlled within 20 s. Slowly increase the mold clamping force to 300 kN after closing the mold, and control the slab not to feed during the stamping process;

[0037] Place the fully austenitized steel plate in the high-pressure gas forming device through the rapid transfer device, open the air inlet 2 and the ...

Embodiment 2

[0044] Embodiment two: with reference to attached figure 1 , 2 , 4, a pneumatically controlled ultra-high strength steel hot stamping forming method, comprising the following steps:

[0045] 1) Punching: Select 1.2mm thick 30CrNi3MoV ultra-high-strength steel sheet with aluminum-silicon coating, and punch it to 1100mmⅹ800mm;

[0046] 2) Austenitization: Under the protective atmosphere of high-pressure nitrogen / helium gas mixture (volume ratio 3:1), the sheet is heated to 930°C by electric heating, and the sheet is completely austenitized by holding it for 180s;

[0047] 3) High-pressure gas forming: The fully austenitized 30CrNi3MoV sheet is quickly transferred to the high-pressure atomized gas forming device, and the transfer time is controlled within 15s. Slowly increase the mold clamping force to 300kN after closing the mold, and control the feeding of the slab during the stamping process;

[0048] When the temperature of the slab is not lower than 800°C, the upper half ...

Embodiment 3

[0051] Embodiment three: with reference to attached figure 1 , 2 , 5, a pneumatically controlled ultra-high strength steel hot stamping forming method, comprising the following steps:

[0052] 1) Punching: Select 1.5mm thick 43CrNiSiMoV ultra-high strength steel plate with pure zinc coating, and punch it to 1300mm×500mm;

[0053] 2) Austenitization: use electric heating to heat the sheet to 940°C under a high-pressure helium protective atmosphere, and keep it warm for 160s to completely austenitize the sheet;

[0054] 3) High-pressure gas forming: The fully austenitized 43CrNiSiMoV sheet is quickly transferred to the high-pressure atomized gas forming device, and the transfer time is controlled within 17s. Slowly increase the mold clamping force to 300kN after closing the mold, and control the feeding of the slab during the stamping process;

[0055] Control the slab to fill the upper half of the cavity with high-pressure helium when the temperature is not lower than 800°C....

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Abstract

The invention discloses a pneumatic hot forming-atomization quenching method and device for an ultrahigh-strength steel complex component, and belongs to the technical fields of advanced metal manufacturing and plastic forming. The method comprises the steps that firstly, a punched plate is heated until austenization is complete; secondly, the punched plate is placed in a pneumatic forming device,a mold is closed, the plate and a female mold body are completely attached by gradually increasing the air pressure, and pressure maintaining is conducted for a period of time; thirdly, high-pressureatomized gas flowing at a high speed is formed in stamping equipment by atomizing supercooled liquid drops with circulating protection gas in a matched mode through a gas circulating control system,quick and uniform quenching is conducted on the ultrahigh-strength steel plate, and the complete Martensite structure is obtained; and lastly, cutting operation, punching operation and the like are conducted. According to the method, the non-uniform quenching phenomenon generated in the ultrahigh-strength steel cooling process can be effectively solved, the service life of the mold can be prolonged, the processes can be reduced, and the product surface quality can be improved; the forming efficiency of ultrahigh-strength steel can be improved, the cost can be reduced, and the high engineeringapplication value is achieved.

Description

technical field [0001] The invention belongs to the technical field of metal plastic forming, and in particular relates to a rapid mixing atomization gas quenching forming method for ultra-high-strength steel plates. Background technique [0002] Technological innovation in the automobile manufacturing industry is of great significance to promote my country's economic development and industrial modernization. Among them, strengthening the passive safety of automobiles through the improvement of the structural strength of key safety components is the core element of the development of the automobile manufacturing industry. At the same time, the development of automobile lightweight technology is an important theme in the current automobile manufacturing industry and an important way to solve the global energy crisis and environmental problems. "National Medium and Long-Term Science and Technology Development Plan (2006-2020)" and "Made in China 2025" clearly set the research...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B21D35/00B21D37/16C21D1/18C21D1/667C21D9/00
Inventor 王章忠费炜杰李华冠巴志新张保森毛向阳
Owner NANJING INST OF TECH
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