Auxiliary supporting device and heat treatment method of aluminum alloy member

文档序号:796746 发布日期:2021-04-13 浏览:26次 中文

阅读说明:本技术 辅助支撑装置以及铝合金构件的热处理方法 (Auxiliary supporting device and heat treatment method of aluminum alloy member ) 是由 贺晓军 张珊珊 尤逢海 张�浩 于 2020-12-14 设计创作,主要内容包括:本发明公开了一种辅助支撑装置以及铝合金构件的热处理方法,所述装置用于对进行热处理的铝合金构件提供支撑,所述构件具有U型结构,所述装置包括:支撑框架,用于支撑固定所述构件;侧壁压紧结构,设置于所述支撑框架上,且设置于所述构件的外部,压紧于所述构件的侧壁;以及内支撑结构,设置于所述构件的内部,支撑所述构件的侧壁。所述铝合金构件的热处理方法,包括:将所述的辅助支撑装置与所述构件装配在一起;对完成装配的构件进行热处理。基于该辅助支撑装置以及铝合金构件的热处理方法,可以有效控制铝合金构件的热处理变形。(The invention discloses an auxiliary supporting device and a heat treatment method of an aluminum alloy member, wherein the auxiliary supporting device is used for providing support for the aluminum alloy member subjected to heat treatment, the member has a U-shaped structure, and the auxiliary supporting device comprises: a support frame for supporting and fixing the member; the side wall pressing structure is arranged on the supporting frame, arranged outside the component and pressed on the side wall of the component; and an internal support structure provided inside the member, supporting the side wall of the member. The method for heat treating an aluminum alloy member includes: assembling said auxiliary support means with said member; and carrying out heat treatment on the assembled components. Based on the auxiliary supporting device and the heat treatment method of the aluminum alloy member, the heat treatment deformation of the aluminum alloy member can be effectively controlled.)

1. An auxiliary support device for providing support to a member for thermal treatment, the member having a U-shaped configuration, the device comprising:

a support frame for supporting and fixing the member;

the side wall pressing structure is arranged on the supporting frame, arranged outside the component and pressed on the side wall of the component; and

an inner support structure disposed within the member, supporting the side walls of the member.

2. The auxiliary supporting device as claimed in claim 1, wherein the side wall pressing structure comprises a pressing block and a side wall pressing bolt, one end of the pressing block is connected to the supporting frame through the side wall pressing bolt, and the other end of the pressing block is pressed against the side wall of the member.

3. An auxiliary support means as claimed in claim 2, wherein said means includes a pair of side wall compression formations symmetrically distributed about said member.

4. The auxiliary supporting device as claimed in claim 1, wherein the inner supporting structure comprises a pair of top blocks and an inner supporting bolt, the pair of top blocks are respectively disposed at two ends of the inner supporting bolt, and the pair of top blocks abut against the side wall of the member.

5. The auxiliary support device of claim 1 wherein said member has a lateral extension projecting laterally with respect to said U-shaped structure; the support frame includes a lower support frame having a support portion for supporting the lateral extension of the member, and a top compression structure for compressing the lateral extension of the member against the support portion.

6. A method of heat treating an aluminum alloy member, comprising:

assembling the auxiliary supporting device as claimed in any one of claims 1 to 5 with the member;

and carrying out heat treatment on the assembled components.

7. The method for heat-treating an aluminum alloy member as recited in claim 6, wherein said fitting together the auxiliary support device as recited in any one of claims 1 to 5 with the member comprises:

assembling the support frame, the side wall compression structure and the inner support structure with the member, wherein adjusting the side wall compression structure causes the side wall compression structure to compress against the side wall of the member at a first pressure, and adjusting the inner support structure causes the inner support structure to provide support to the side wall of the member at a first support force;

the heat treatment of the assembled components comprises:

and in the process of carrying out heat treatment on the assembled component, adjusting the side wall pressing structure again between two links of the heat treatment to enable the side wall pressing structure to be pressed on the side wall of the component at a second pressure, and adjusting the inner support structure to enable the inner support structure to provide support for the side wall of the component at a second support force.

8. A method of heat treating an aluminium alloy member according to claim 7, wherein the two stages of the heat treatment are solution treatment and ageing treatment.

9. The method of heat treating an aluminum alloy member as recited in claim 8, wherein adjusting the side wall press structure and the inner support structure is completed within 30 minutes after the solution treatment.

10. The method for heat-treating an aluminum alloy structural member as recited in claim 9,

the heat treatment of the assembled components further comprises:

a temperature-raising operation comprising: setting the initial temperature to be 150-300 ℃, then increasing the temperature to 510-520 ℃ at a speed of 80-100 ℃/h, preserving the temperature for 0.4-0.8 h, and increasing the temperature to 530-545 ℃ at a speed of 0.5 ℃/min;

the solution treatment comprises the following steps: preserving the heat at 530-545 ℃ for 10-20h, transferring the mixture into water for solid solution, and rapidly introducing the mixture into the water at a transfer speed of not more than 12s, wherein the water temperature is controlled at 40-70 ℃;

the aging treatment comprises the following steps: naturally aging in the air for 8-12h, then artificially aging for 150-170 ℃, preserving heat for 6-9h, and then cooling in the air.

Technical Field

The invention belongs to the technical field of metal material processing, and particularly relates to an auxiliary supporting device for heat treatment of an aluminum alloy member and a heat treatment method of the aluminum alloy member.

Background

The aluminum alloy casting has the advantages of being capable of forming complex components and low in cost, and is widely applied to the fields of aerospace, rail transit and high-end automobiles. With higher and higher requirements on the use environment, the structural form of the aluminum alloy casting is more and more complex, however, when the aluminum alloy casting is subjected to heat treatment by adopting the traditional solid solution aging process, the casting can generate larger deformation, and the subsequent processing and final use are influenced. Particularly, the casting with the thin-wall door-shaped structure has more complex structure, weaker integral rigidity and larger deformation in the heat treatment process.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the defects of the prior art are overcome, and the auxiliary supporting device and the heat treatment method of the aluminum alloy member are provided, so that the heat treatment deformation of the aluminum alloy member can be effectively controlled.

The technical solution of the invention is as follows:

in one aspect, the present invention provides an auxiliary support apparatus for providing support to a member to be heat-treated, the member having a U-shaped configuration, the apparatus comprising:

a support frame for supporting and fixing the member;

the side wall pressing structure is arranged on the supporting frame, arranged outside the component and pressed on the side wall of the component; and

an inner support structure disposed within the member, supporting the side walls of the member.

Preferably, in the auxiliary supporting device, the side wall pressing structure includes a pressing block and a side wall pressing bolt, one end of the pressing block is connected to the supporting frame through the side wall pressing bolt, and the other end of the pressing block is pressed against the side wall of the member.

Preferably, in the auxiliary support device, the device comprises a pair of side wall compression structures, and the pair of side wall compression structures are symmetrically distributed relative to the member.

Preferably, in the auxiliary supporting device, the inner supporting structure includes a pair of top blocks and an inner supporting bolt, the pair of top blocks are respectively disposed at two ends of the inner supporting bolt, and the pair of top blocks abuts against the side wall of the member.

Preferably, in the auxiliary supporting device, the member has a lateral extension portion protruding outward with respect to the U-shaped structure; the support frame includes a lower support frame having a support portion for supporting the lateral extension of the member, and a top compression structure for compressing the lateral extension of the member against the support portion.

In another aspect, the present invention provides a method of heat treating an aluminum alloy member, comprising:

assembling said auxiliary support means with said member;

and carrying out heat treatment on the assembled components.

Preferably, in the method for heat-treating an aluminum alloy member, the assembling the auxiliary supporting device with the member includes:

assembling the support frame, the side wall compression structure and the inner support structure with the member, wherein adjusting the side wall compression structure causes the side wall compression structure to compress against the side wall of the member at a first pressure, and adjusting the inner support structure causes the inner support structure to provide support to the side wall of the member at a first support force;

the heat treatment of the assembled components comprises:

and in the process of carrying out heat treatment on the assembled component, adjusting the side wall pressing structure again between two links of the heat treatment to enable the side wall pressing structure to be pressed on the side wall of the component at a second pressure, and adjusting the inner support structure to enable the inner support structure to provide support for the side wall of the component at a second support force.

Preferably, in the method for heat treating an aluminum alloy member, the two stages of heat treatment are solution treatment and aging treatment.

Preferably, in the method of heat-treating an aluminum alloy member, the adjustment of the side wall press structure and the inner support structure is completed within 30 minutes after the solution treatment.

Preferably, in the method for heat-treating an aluminum alloy member,

the heat treatment of the assembled components further comprises:

a temperature-raising operation comprising: setting the initial temperature to be 150-300 ℃, then increasing the temperature to 510-520 ℃ at a speed of 80-100 ℃/h, preserving the temperature for 0.4-0.8 h, and increasing the temperature to 530-545 ℃ at a speed of 0.5 ℃/min;

the solution treatment comprises the following steps: preserving the heat at 530-545 ℃ for 10-20h, transferring the mixture into water for solid solution, and rapidly introducing the mixture into the water at a transfer speed of not more than 12s, wherein the water temperature is controlled at 40-70 ℃;

the aging treatment comprises the following steps: naturally aging in the air for 8-12h, then artificially aging for 150-170 ℃, preserving heat for 6-9h, and then cooling in the air.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides an auxiliary supporting device for supporting a member for heat treatment, wherein the member has a U-shaped structure, and the device comprises: a support frame for supporting and fixing the member; the side wall pressing structure is arranged on the supporting frame, arranged outside the component and pressed on the side wall of the component; and an internal support structure provided inside the member, supporting the side wall of the member. Meanwhile, the invention provides a heat treatment method of the aluminum alloy member, which comprises the following steps: assembling said auxiliary support means with said member; and carrying out heat treatment on the assembled components. In the heat treatment process, the side wall of the member is pressed from the outer side of the member by the side wall pressing structure of the auxiliary supporting device, so that the member can be prevented from expanding outwards, the side wall of the member is supported from the inner side of the member by the inner supporting structure, and the member can be prevented from closing up, thereby achieving the purpose of controlling the deformation of the aluminum alloy member in the heat treatment process.

Drawings

Fig. 1 is a schematic structural diagram of an auxiliary supporting device according to an embodiment of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1, the present invention provides an auxiliary supporting device for supporting a member to be heat-treated, the member 9 having a U-shaped structure, the device comprising: a support frame 10 for supporting and fixing the member 9; a side wall pressing structure 11, which is arranged on the supporting frame 10, arranged outside the member 9 and pressed against the side wall of the member 9; and an internal support structure 12, provided inside the member 9, supporting the side walls of the member 9.

The auxiliary supporting means provided in the present embodiment is previously assembled with the aluminum alloy member 9 before the aluminum alloy member is heat-treated. In the heat treatment process, the supporting frame 10 is used for supporting and fixing the member, the side wall compression structure 11 is compressed on the side wall of the member from the outer side of the member to prevent the member from expanding outwards, and the inner support structure 12 supports the side wall of the member from the inner side of the member to prevent the member from closing up, so that the purpose of controlling the deformation of the aluminum alloy member in the heat treatment process is achieved, the aluminum alloy member after heat treatment meets the requirement of subsequent machining, and the performance meets the design requirement.

In some embodiments, the auxiliary supporting device, the side wall pressing structure 11 includes a pressing block 4 and a side wall pressing bolt 3, one end of the pressing block 4 is connected to the supporting frame 10 through the side wall pressing bolt 3, and the other end presses against the side wall of the member 9.

Specifically, a screw hole through which the side wall pressing bolt 3 passes is formed in the lower support frame 13 of the support frame 10, and the pressing block 4 is pressed against the side wall of the member 9 by rotating the side wall pressing bolt 3. The adjustment of the pressure applied to the side wall of the component by the side wall compression structure can be realized by adjusting the pre-tightening force of the side wall compression bolt 3. That is, the side wall compression bolt can be adjusted to a proper pre-tightening force during assembly according to the degree of deformation of the aluminum alloy member in the heat treatment process, so that the side wall compression structure can apply a proper pressure to the side wall of the member. It should be noted that the pre-tightening force of the sidewall compression bolt may be a theoretically calculated value, or may be a pre-tightening force formed by gradually tightening the sidewall compression bolt to an appropriate degree according to experience during manual assembly.

In some embodiments, the auxiliary support means comprises a pair of lateral wall compacting structures 11, said pair of lateral wall compacting structures 11 being symmetrically distributed with respect to the structure 9.

The aluminium alloy member 9 has a U-shaped structure comprising two vertical parts and a transverse bottom. In order to sufficiently control the heat treatment deformation of the side wall of the member, it is preferable to provide a pair of side wall pressing structures 11 at two vertical portions of the member, and in order to ensure that the pair of side wall pressing structures 11 apply uniform pressure to the side wall of the member 9, the pair of side wall pressing structures 11 are symmetrically distributed with respect to the member 9. Specifically, each side wall compression structure 11 includes a respective side wall compression bolt 3 and a compression block 4, and the pre-tightening force of the respective side wall compression bolt 3 is adjusted, that is, the adjustment of the pressure applied to the side wall of the component by the corresponding side wall compression structure 11 can be realized.

In some embodiments, the auxiliary supporting device includes an inner supporting structure 12 including a pair of top blocks 6 and an inner supporting bolt 5, the pair of top blocks 6 are respectively disposed at two ends of the inner supporting bolt 5, and the pair of top blocks 6 abut against the side wall of the member 9.

Specifically, a pair of top blocks 6 are pressed against two vertical parts of the member 9 under the action of the inner supporting bolts 5, so that the side walls of the member 9 are supported. The inner supporting structure 12 can adjust the supporting force applied to the side wall of the component 9 by adjusting the pretightening force of the inner supporting bolt 5. That is, the support bolts 5 can be adjusted to a suitable pre-tightening force during assembly according to the extent to which the aluminum alloy member may be deformed during the heat treatment process, so that the inner support structure 12 can apply a suitable supporting force to the side wall of the member 9. It should be noted that the pre-tightening force of the supporting bolt may be a specific value calculated theoretically, and may be a pre-tightening force formed by gradually tightening the supporting bolt to an appropriate degree according to experience during manual assembly.

It should be noted that the pressure exerted by the sidewall compression structure and the support force exerted by the inner support structure may be different, and both are determined according to the deformation characteristics of the members.

In some embodiments, in said auxiliary support means, said member 9 has a lateral extension 1 projecting towards the outside with respect to said U-shaped structure; the support frame 10 comprises a lower support frame 13 having a support portion 2 for supporting the lateral extension of the member, and a top hold-down structure 14 for holding down the lateral extension 1 of the member to the support portion 2.

The aluminium alloy member 9 also has a lateral extension 1 projecting towards the outside with respect to the U-shaped structure. Specifically, the lateral extension 1 may be formed by turning out from the open end of the U-shaped structure. The lateral extension 1 of the member can be further prevented from buckling deformation during heat treatment by supporting the lateral extension 1 with the support portion 2 of the lower support frame 13 and pressing the lateral extension against the support portion 2 with the top pressing structure 14.

Further, when the aluminum alloy member has a pair of lateral extensions 1 protruding outward from the U-shaped structure, the top hold-down structure 14 may include a top hold-down frame 8 and a top hold-down bolt 7, and both ends of the top hold-down frame 8 are fixed to both support portions 2 of the lower support frame 13 by the top hold-down bolt 7, respectively, to hold down the pair of lateral extensions 1 at the same time.

Further, the present invention provides a heat treatment method of an aluminum alloy member, comprising: assembling said auxiliary support means with said member; and carrying out heat treatment on the assembled components.

The auxiliary supporting means provided in the present embodiment is previously assembled with the aluminum alloy member before the aluminum alloy member is heat-treated. In the heat treatment process, the supporting frame 10 is used for supporting and fixing the member 9, the side wall pressing structure 11 is pressed on the side wall of the member from the outer side of the member 9 to prevent the member from expanding outwards, and the inner supporting structure 12 is used for supporting the side wall of the member from the inner side of the member 9 to prevent the member from contracting, so that the purpose of controlling the deformation of the aluminum alloy member in the heat treatment process is achieved, the aluminum alloy member after heat treatment meets the requirement of subsequent machining, and the performance meets the design requirement.

In some embodiments, the method for heat-treating an aluminum alloy member, wherein the assembling the auxiliary supporting device with the member, comprises: assembling the support frame 10, the side wall hold-down structure 11 and the inner support structure 12 with the member 9, wherein adjusting the side wall hold-down structure 11 causes the side wall hold-down structure 11 to hold down against the side wall of the member 9 at a first pressure, adjusting the inner support structure 12 causes the inner support structure 12 to provide support to the side wall of the member 9 at a first support force; the heat treatment of the assembled components comprises: during the heat treatment of the completely assembled component, between two stages of the heat treatment, the side wall pressing structure 11 is adjusted again, so that the side wall pressing structure 11 presses the side wall of the component 9 at a second pressure, and the inner support structure 12 is adjusted, so that the inner support structure 12 provides support for the side wall of the component 9 at a second support force.

As the heat treatment process progresses, the side wall pressing structure 11 and the inner support structure 12 are also deformed to some extent, which results in a change in the pressure applied by the side wall pressing structure 12 to the side wall of the component 9 and the supporting force applied by the inner support structure 12 to the component, for example, the pressure applied by the side wall pressing structure 11 to the side wall of the component 9 or the supporting force applied by the inner support structure 12 to the side wall of the component 9 is reduced, so that the deformation of the component cannot be continued to be suppressed well by the side wall pressing structure 11 and the inner support structure 12 in the subsequent heat treatment process. Based on this situation, the side wall pressing structure 11 and the inner supporting structure 12 are adjusted between two heat treatment links, so that the side wall pressing structure 11 can always provide enough pressure to the side wall of the component, and the inner supporting structure 12 can always provide enough supporting force to the side wall of the component, so as to prevent the component from deforming in the subsequent heat treatment links.

Here, the second pressure adjusted between the two heat treatment steps may be the same as the first pressure adjusted during assembly, or may be re-determined according to the extent of possible deformation of the member in the subsequent heat treatment step. Similarly, the second supporting force adjusted between the two heat treatment links may be the same as the first supporting force adjusted during assembly, or may be re-determined based on the extent to which the member may be deformed during the subsequent heat treatment links.

Specifically, the adjustment of the first pressure or the second pressure applied by the side wall pressing structure 11 to the side wall of the component 9 can be realized by adjusting the pretightening force of the side wall pressing bolt 3 of the side wall pressing structure 11. Likewise, the first supporting force or the second supporting force exerted by the inner supporting structure 12 on the side wall of the component 9 can be adjusted by adjusting the pretightening force of the inner supporting bolt 5 of the inner supporting structure 12.

In some embodiments, in the method for heat treating an aluminum alloy member, the two heat treatment steps are solution treatment and aging treatment. Namely, the side wall compression structure and the inner support structure are adjusted between the solution treatment and the aging treatment so as to achieve the purpose of controlling the heat treatment deformation of the component. Specifically, the side wall compression structure and the inner support structure are adjusted before the solid solution treatment, so that the rigidity of the member during the solid solution treatment can be increased, and the deformation of the member in the solid solution treatment process is reduced; and after the solution treatment, the pretightening force is continuously applied to keep the constraint on the component.

In some embodiments, in the method of heat treating an aluminum alloy member, the adjustment of the side wall press structure 11 and the inner support structure 12 is completed within 30 minutes after the solution treatment.

If the adjustment of the sidewall compression structure 11 and the inner support structure 12 cannot be completed in time, the member 9 may be deformed during this period. To avoid this, the adjustment of the pair of side wall press structures 11 and the inner support structure 12 must be completed within 30 minutes after the solution treatment. The adjusted sidewall compression structure 11 can provide a suitable second compression force to the sidewall of the component 9, and the inner support structure 12 can provide a suitable support force to avoid deformation of the component during aging and later processes.

In some embodiments, the method of heat-treating an aluminum alloy member, wherein the heat-treating the completely assembled member, further comprises: a temperature-raising operation comprising: setting the initial temperature at 150-; the solution treatment comprises the following steps: preserving the heat at 530-545 ℃ for 10-20h, transferring the mixture into water for solid solution, rapidly introducing the mixture into the water at a transfer speed of not more than 12s, and controlling the water temperature at 40-70 ℃; the aging treatment comprises the following steps: naturally aging in air for 8-12h, then artificially aging for 150-170 ℃, preserving heat for 6-9h, and then cooling in air.

The conditions of the heat treatment affect the properties of the component. Optimizing the heat treatment conditions helps to optimize the performance of the component and to minimize the deformation of the component. In particular, the temperature rise operation adopts a stage temperature rise mode, and the thermal stress in the component during heating is reduced. Optimizing the conditions of solution treatment and aging treatment, such as temperature and time, also helps to optimize the performance of the component and to minimize the deformation of the component.

In summary, before the aluminum alloy member is subjected to heat treatment, the auxiliary supporting device provided by the present invention is assembled with the aluminum alloy member in advance. And then, in the heat treatment process, the supporting frame is utilized to support and fix the member, the side wall compression structure is compressed on the side wall of the member from the outer side of the member to prevent the member from expanding outwards, and the inner support structure supports the side wall of the member from the inner side of the member to prevent the member from closing up, so that the purpose of controlling the deformation of the aluminum alloy member in the heat treatment process is achieved, the aluminum alloy member after heat treatment meets the requirement of subsequent machining, and the performance meets the design requirement. The auxiliary supporting device and the heat treatment method provided by the invention are particularly suitable for solving the problem of heat treatment deformation of the thin-wall ribbed U-shaped aluminum alloy casting.

Specific examples are provided below to further illustrate the auxiliary supporting device and the heat treatment method of the aluminum alloy member provided by the present invention.

Example one

This embodiment carries out heat treatment to thin wall area muscle U type structure aluminum alloy casting. The material of the casting is ZL114A, the total length of the casting is 1600mm, the section width is 600mm, the height is 500mm, and the thickness of the thin-wall area is about 10 mm. After heat treatment, the opening or closing of the casting is required to be not more than 3 mm. The performance of the cast test rod meets the requirements that sigma b is more than or equal to 320MPa and delta 5 is more than or equal to 8 percent.

The first step is as follows: installing an auxiliary supporting device, and placing a casting 9 on the lower supporting frame 2; the external adjusting compression block 4 is pressed against the outer side of the casting 9, the side wall compression bolt 3 is adjusted, and the casting 9 is compressed; the jacking block 6 jacks the inner side of the casting 9, and the inner supporting bolt 5 is screwed tightly; the top pressing frame 8 presses two sides of the casting 9, and the top pressing bolt 7 fixes the top pressing frame 8 and the lower supporting frame 13.

The second step is that: the casting is vertically placed.

The third step: and (3) heating operation: selecting 250 deg.C, charging into furnace, heating to 520 deg.C at a speed of 80 deg.C/h, maintaining for 0.4h, and heating to 540 deg.C at 0.5 deg.C/min.

The fourth step: solution treatment: the casting is kept at 540 ℃ for 14h, then is transferred into water for solid solution, and rapidly enters the water at a transfer speed of not more than 10s, wherein the water temperature is required to be 55 ℃;

the fifth step: adjusting the auxiliary supporting device: after the solution treatment, the sidewall press bolts 3 and the inner stay bolts 5 are tightened again, and are required to be completed within 30 minutes after the solution treatment.

And a sixth step: aging treatment: naturally aging the casting in the air for 8h, then artificially aging at 155 ℃, preserving heat for 7.5h, discharging and air cooling.

And (3) dismantling the tool, measuring the deformation of the U-shaped structure of the casting after heat treatment to be 2.5mm, and meeting the requirements of the dimension between the working procedures and the design performance index, wherein the performance of the test bar of the casting is 345MPa and the performance of the test bar of the casting is 10 percent.

Example two

The present embodiment corresponds to the following steps.

The third step: and (3) heating operation: charging into a furnace at 150 deg.C, heating to 510 deg.C at 80 deg.C/h, maintaining for 0.8h, and heating to 530 deg.C at 0.5 deg.C/min.

The fourth step: solution treatment: keeping the temperature of the casting at 530 ℃ for 10h, then transferring the casting into water for solid solution, and rapidly introducing the casting into the water at a transfer speed of not more than 12s, wherein the water temperature is required to be 70 ℃;

and a sixth step: aging treatment: and naturally aging the casting in the air for 8h, then carrying out artificial aging at 150 ℃, preserving heat for 6h, discharging and air cooling.

And (3) dismantling the tool, measuring the deformation of the U-shaped structure of the casting after heat treatment to be not more than 3mm, and meeting the requirements of the dimension between the working procedures and the design performance index, wherein the performance sigma b of the test rod of the casting is not less than 320MPa, and the delta 5 of the test rod of the casting is not less than 8%.

EXAMPLE III

The present embodiment corresponds to the following steps.

The third step: and (3) heating operation: charging into a furnace at 300 deg.C, heating to 510 deg.C at 100 deg.C/h, maintaining for 0.8h, and heating to 545 deg.C at 0.5 deg.C/min.

The fourth step: solution treatment: the casting is kept at 545 ℃ for 20h, then is transferred into water for solid solution, and rapidly enters the water at a transfer speed of not more than 12s, wherein the water temperature is required to be 40 ℃;

and a sixth step: aging treatment: naturally aging the casting in the air for 12h, then artificially aging at 170 ℃, preserving heat for 9h, discharging and air cooling.

And (3) dismantling the tool, measuring the deformation of the U-shaped structure of the casting after heat treatment to be not more than 3mm, and meeting the requirements of the dimension between the working procedures and the design performance index, wherein the performance sigma b of the test rod of the casting is not less than 320MPa, and the delta 5 of the test rod of the casting is not less than 8%.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention, and those skilled in the art can make variations and modifications without departing from the spirit and scope of the present invention.

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