CN109731981A - Plastic deformation equipment for materials - Google Patents

Abstract

The invention discloses a kind of plastic deformation equipment of material, to solve the technical issues of improving material microstructure.The plastic deformation equipment of material, comprising: mold, includes corner extrusion channel and drive material component, and the corner extrusion channel has the stop bits for configuring the initial bit of material to be operated and for configuring the material operated；With percussion mechanism, for changing the material to be formed and operated to drive material component release impact energy to excite the drive material component that the material to be operated in the initial bit is pushed to reach stop bits by corner extrusion channel.When making material with fast speed (" fast " herein is for the routinely speed of driving mechanical driven material) by the corner extrusion channel, it will be helpful to form deformation twin in the material, huge deformation twin even can be formed under certain condition, to improve material property.

Description

The plastic deformation equipment of material

Technical field

The present invention relates to the severe Plastic Deformation Methods of material (referring mainly to metal, including alloy, similarly hereinafter), in particular to material Plastic deformation method, material plastic deformation equipment and aluminum or aluminum alloy and their manufacturing method.

Background technique

The severe Plastic Deformation Methods means of material mainly include forging, rolling, high pressure torsion deformation and equal channel angular It squeezes (Equal Channel Angular Pressing, abbreviation ECAP) etc., their generally effect is to carry out crystalline substance to material Grain refinement promotes material property so as to improve material microstructure.Wherein, existing Equal-channel Angular Pressing method is specifically one Kind passes through the conventional driving initial bit of the mechanical driven material from the corner extrusion channel of equal channel angular extrusion die such as hydraulic press It is moved to stop bits and so that material is generated intensive shear strain and material cross-section is kept to be basically unchanged in the stop bits The large plastometric set method of super fine crystal material is obtained, this method is generally considered as the important aspect for preparing super fine crystal material.

Summary of the invention

The purpose of the present invention is to provide the plastic deformation equipment of a kind of plastic deformation method of material and material, to solve The technical issues of improving material microstructure.

To achieve the goals above, according to an aspect of the invention, there is provided a kind of plastic deformation method of material, is somebody's turn to do Method includes that material to be operated is made to be pushed the initial bit from mold corner extrusion channel with >=10³·s^-1Or 10⁴·s^-1Or 10⁵·s^-1Or 10⁶·s^-1Strain rate reach the stop bits in the corner extrusion channel and change to form the material operated Process.

It is further that the above method specifically includes: material to be operated is made to be in the initial of the corner extrusion channel Position；Percussion mechanism is set to discharge impact energy to the drive material component of the mold；And the knot in the corner extrusion channel Beam position obtains by the promotion of the drive material component for the energy excitation that is hit and changes the behaviour formed by corner extrusion channel The material of work.

Be further, the percussion mechanism be it is a kind of using gas-powered in inflated and accelerate in thorax and in gun muzzle The bullet of required speed is obtained to hit the gas big gun of drive material component.

It is further that the gas big gun uses one-stage light-gas gun；Then gun muzzle bullet of the one-stage light-gas gun goes out speed >=100m/ S or 200m/s or 300m/s or 400m/s or 500m/s.

Be further, the bullet include based on bullet rear portion and be arranged on bullet rear portion for direct The bullet front of drive material component is hit, the density and hardness of the material at bullet rear portion is respectively less than the close of the material of bullet front Degree and hardness.

It is further that the drive material component includes the drive material component rear portion for directly receiving projectile impact And it is arranged on drive material component rear portion for the initial channel where with the initial bit on mold corner extrusion channel The cross-sectional area of the drive material member anterior of adaptation, drive material component rear portion is greater than drive material member anterior Cross-sectional area.

It is further that the L shape that the corner extrusion channel is preferably a T shape channel or interior angle Φ is 60 ° -160 ° is logical Road.The mold is preferably an equal channel angular extrusion die.

It is further under conditions of lubricating the material between the material and corner extrusion channel there are contact surface Stop bits is reached from the initial bit.

To achieve the goals above, according to another aspect of the present invention, a kind of plastic deformation equipment of material is provided, Include: mold, include corner extrusion channel and drive material component, the corner extrusion channel has to be operated for configuring The initial bit of material and stop bits for configuring the material operated；With percussion mechanism, for being released to drive material component Impact energy is put to excite the drive material component that the material to be operated in the initial bit is pushed to squeeze by corner Pressure passageway reaches stop bits and changes the material to be formed and operated.

Be further, the percussion mechanism be it is a kind of can make the material to be operated in the initial bit with >= 10³·s^-1Or 10⁴·s^-1Or 10⁵·s^-1Or 10⁶·s^-1Strain rate reach the percussion mechanism of the stop bits.

Be further, the percussion mechanism be it is a kind of using gas-powered in inflated and accelerate in thorax and in gun muzzle The bullet of required speed is obtained to hit the gas big gun of drive material component.

Be further, the gas big gun using gun muzzle bullet go out speed >=100m/s or 200m/s or 300m/s or 400m/s or The one-stage light-gas gun of 500m/s.

Be further, the bullet include based on bullet rear portion and be arranged on bullet rear portion for direct The bullet front of drive material component is hit, the density and hardness of the material at bullet rear portion is respectively less than the close of the material of bullet front Degree and hardness.

It is further that the bullet rear portion is a plastic cylinder, the bullet front is a sheet metal, should Sheet metal is mounted on the end face of plastic cylinder.The plastic cylinder is preferably made of PC plastic, the sheet metal It is preferred that being made of stainless steel.

It is further that the drive material component includes the drive material component rear portion for directly receiving projectile impact And it is arranged on drive material component rear portion for the initial channel where with the initial bit on mold corner extrusion channel The cross-sectional area of the drive material member anterior of adaptation, drive material component rear portion is greater than drive material member anterior Cross-sectional area.

It is further that drive material component rear portion and drive material member anterior are coaxially disposed, in the mold With the stepped hole for installing the drive material component, the macropore of the stepped hole be adapted with drive material component rear portion and Aperture is adapted with drive material member anterior and forms the initial channel on corner extrusion channel where the initial bit.It is described The cross-sectional area at drive material component rear portion is preferably 5-15 times of the cross-sectional area of drive material member anterior.

It is further that the L shape that the corner extrusion channel is preferably a T shape channel or interior angle Φ is 60 ° -160 ° is logical Road.The mold is preferably an equal channel angular extrusion die.

According to a further aspect of the invention, a kind of aluminum or aluminum alloy is provided, containing micron-grade deformation twin, The micron-grade deformation twin length is 1-1000 microns and width is 0.1-100 microns.The aluminum or aluminum alloy can be with It is prepared using the plastic deformation equipment of the plastic deformation method of above-mentioned material, above-mentioned material.

Make material that large plastometric set occur so as to improve the technology of materials microstructure by the corner extrusion channel of mold Involved by the Equal-channel Angular Pressing method that design has been referred in " background technique " herein.But surprisingly, when making material Material is with 10³·s^-1Above strain rate makes by the corner extrusion channel or finally material with fast speed using percussion mechanism When (" fast " herein is for the routinely speed of driving mechanical driven material) is by the corner extrusion channel, it will help In forming deformation twin in the material, or even huge deformation twin can be formed under certain condition, to improve material property.

The present invention is described further with reference to the accompanying drawings and detailed description.The additional aspect of the present invention and excellent Point will be set forth in part in the description, and partially will become apparent from the description below, or practice through the invention It solves.

Detailed description of the invention

The attached drawing for constituting a part of the invention is used to assist the understanding of the present invention, content provided in attached drawing and its Related explanation can be used for explaining the present invention in the present invention, but not constitute an undue limitation on the present invention.In the accompanying drawings:

Fig. 1 is the structural schematic diagram of one embodiment of the plastic deformation equipment of material of the present invention.

Fig. 2 is the structural schematic diagram of one embodiment of the plastic deformation equipment of material of the present invention.

Fig. 3 is aluminum single crystal electron backscatter diffraction (EBSD) obtained by plastic deformation method one embodiment of material of the present invention Photo.

Fig. 4 is aluminum single crystal electron backscatter diffraction (EBSD) obtained by plastic deformation method one embodiment of material of the present invention Photo.

Fig. 5 is aluminium alloy electron backscatter diffraction (EBSD) obtained by plastic deformation method one embodiment of material of the present invention Photo.

Fig. 6 is the transmission electron microscope photo of the aluminum single crystal of one comparative example of plastic deformation method of material of the present invention.

Fig. 7 is the transmission electron microscope photo of the aluminium alloy of one comparative example of plastic deformation method of material of the present invention.

Specific embodiment

Clear, complete explanation is carried out to the present invention with reference to the accompanying drawing.Those of ordinary skill in the art are being based on these It can be realized the present invention in the case where explanation.Before in conjunction with attached drawing, the present invention will be described, of particular note is that:

The technical solution provided in each section including following the description, technical characteristic in the present invention are not being rushed In the case where prominent, these technical solutions, technical characteristic be can be combined with each other.

In addition, the embodiment of the present invention being related in following the description be generally only a part of the embodiments of the present invention without It is whole embodiments, therefore, based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work Under the premise of every other embodiment obtained, should fall within the scope of the present invention.

Description and claims of this specification and the terms "include", "comprise" in related part, " having " with And their any deformation, it is intended that cover and non-exclusive include.

The meaning and unit root of term " strain rate " in description and claims of this specification and related part According to being generally understood for this field.

Unit " m/s " tool of term " bullet goes out speed " in description and claims of this specification and related part Body refers to " meter per second ".

Fig. 1 is the structural schematic diagram of one embodiment of the plastic deformation equipment of material of the present invention.Fig. 2 is material of the present invention Plastic deformation equipment another embodiment structural schematic diagram.In Fig. 1 and Fig. 2, emphasis illustrates the structure of mold.According to Shown in Fig. 1, Fig. 2, the plastic deformation equipment of material of the invention includes percussion mechanism 100 and mold 200.

Wherein, as shown in Figure 1 and Figure 2, mold 200 include drive material component 210 and corner extrusion channel 220, described turn To the end of angle squeezing passage 220 has for configuring the initial bit of the material wait operate and for configuring the material operated Position.

The percussion mechanism 100 is used to discharge impact energy to drive material component 210 to excite the drive material To be operated material of the promotion of component 210 in initial bit changes to be formed by corner extrusion channel arrival stop bits have been operated Material.

Above-mentioned percussion mechanism 100 is different from " conventional driving is mechanical " referred in " background technique " herein.Firstly, the impact Device 100 is using the technology for discharging impact energy to drive material component 210 to excite the drive material component 210 to move Means realize the movement of object, and routine drives the mechanical technological means realization object for generally using hydraulic press or similar hydraulic press Movement.

Secondly, can finally make material with fast speed by corner extrusion channel using percussion mechanism from effect 220, that is, it is generally possible to make the material to be operated of the initial bit with high strain-rate or strain rate more higher than high strain-rate (such as Under High Strain rate) stop bits is reached, and it is horizontal generally to can only achieve low strain dynamic rate by conventional driving machinery.It may be noted that Described " high strain-rate " and " Under High Strain rate " has common meaning in this field in this section, should understand according to common meaning.

In the embodiment of the plastic deformation equipment of material of the invention, the percussion mechanism 100 is that one kind can make to locate In the initial bit material to be operated with >=10³·s^-1Or 10⁴·s^-1Or 10⁵·s^-1Or 10⁶·s^-1Strain rate reach The percussion mechanism of the stop bits.That is, the percussion mechanism 100 in related embodiment can be made in described initial The material to be operated of position is at least with 10³·s^-1Above strain rate reaches the percussion mechanism of the stop bits.

Percussion mechanism 100 in these embodiments can be used corresponding utilize and be inflated middle gas-powered and accelerate in thorax And the bullet 110 of required speed is obtained in gun muzzle to hit the gas big gun of drive material component 210.

The gas big gun specifically can be one-stage light-gas gun.One-stage light-gas gun has common meaning in the art, mainly Quality and gun muzzle bullet to bullet 110 go out speed and have carried out certain requirement.

In the present invention, gun muzzle bullet of the one-stage light-gas gun as percussion mechanism 100 goes out speed can be with >=100m/s or 200m/ S or 300m/s or 400m/s or 500m/s.

In the preferred embodiment of the plastic deformation equipment of material of the invention, 10 are set as to the strain rate⁴·s^-1 To 10⁵·s^-1；Correspondingly, going out speed to gun muzzle bullet of one-stage light-gas gun is selected as 200m/s to 400m/s.

As shown in Figure 1 and Figure 2, in the embodiment of the plastic deformation equipment of material of the present invention, the bullet 110 includes to make Based on bullet rear portion 111 and be arranged on bullet rear portion 111 for directly hit drive material component 210 bullet before Portion 112, the density and hardness of the material at the bullet rear portion 111 are respectively less than the density and hardness of the material of bullet front 112.

Specifically, in these embodiments, the bullet rear portion 111 is that a plastic cylinder (can specifically be moulded by PC Material is made, i.e., is made of polycarbonate plastic), the bullet front 112 is that a sheet metal (specifically can be by stainless steel At), which is mounted on the end face of plastic cylinder.

Since bullet 110 contains bullet rear portion 111 and the part of bullet front 112 two, and the material at bullet rear portion 111 The density and hardness of the density and hardness material that is respectively less than bullet front 112 therefore can be by bullet by bullet rear portion 111 110 whole quality control in lesser range, to make bullet 110 obtain higher speed under certain thrust, together When, bullet front 112 can avoid generating excessive deformation with drive material component 210 and energy-absorbing when colliding, to make bullet Ball 110 can more fully transfer energy to drive material component 210.

As shown in Figure 1 and Figure 2, in the embodiment of the plastic deformation equipment of material of the present invention, the drive material component 210 also comprising for directly receiving the drive material component rear portion 211 and be arranged in drive material component that bullet 110 is hit Material on 211 rear portions for being adapted to the initial channel where the initial bit on mold corner extrusion channel 220 pushes away Dynamic component front 212, the cross-sectional area at drive material component rear portion 211 are greater than the cross of drive material member anterior 212 Area of section.

Wherein, the cross-sectional area at drive material component rear portion 211 typically drive material member anterior 212 5-15 times of cross-sectional area.

Since drive material member anterior 212 need to be with the initial channel where the initial bit on corner extrusion channel 220 Adaptation, therefore, the cross-sectional area of drive material member anterior 212 is smaller, if 110 direct collision drive material portion of bullet at this time The rear end face of part front 212, if the axis of the axis of bullet 110 and drive material member anterior 212 there are certain deviation, It is easy to cause 212 fragmentation of drive material member anterior；And drive material component 210 includes drive material component rear portion 211 and material After expecting pushing mechanism front 212, since the cross-sectional area at drive material component rear portion 211 is greater than drive material member anterior 212 cross-sectional area, even if there are certain deviations for the axis of bullet 110 and the axis at drive material component rear portion 211, also not Easily lead to 212 fragmentation of drive material component rear portion 211 and drive material member anterior.

As shown in Figure 1 and Figure 2, in the embodiment of the plastic deformation equipment of material of the invention, the drive material component Rear portion 211 and drive material member anterior 212 are coaxially disposed；Have in the mold for installing the drive material component The macropore of stepped hole, the stepped hole is adapted and aperture and 212 phase of drive material member anterior with drive material component rear portion 211 It is adapted to and forms the initial channel on corner extrusion channel where the initial bit.

Drive material component rear portion 211 and drive material member anterior 212 are led respectively by way of stepped hole To, further ensure drive material member anterior 212 operation stability, more effectively avoid drive material member anterior 212 fragmentations in high-speed motion.

When the material wait operate is located at the initial bit in corner extrusion channel 220, drive material component rear portion 211 can be whole Body is located inside the macropore of stepped hole, can also partially stretch out on the outside of the macropore of stepped hole.

In above-described embodiment of the plastic deformation equipment of material of the invention, when material to be operated is located at corner extrusion 211 part of drive material component rear portion is stretched out on the outside of the macropore of stepped hole when the initial bit in channel 220, in this way, can either utilize The macropore of stepped hole is oriented to drive material component rear portion 211, and can reduce drive material component rear portion 211 and step Frictional force between the macropore in hole.

Preferably, the drive material component rear portion 211 when the material wait operate is located at the initial bit in corner extrusion channel 220 The length stretched out on the outside of stepped hole macropore accounts for 2/3 or so and drive material part rear portion of 211 total length of drive material part rear portion 211 stretch out ratio≤5 of the length and 211 cross section equivalent diameter of drive material part rear portion on the outside of stepped hole macropore.

As shown in Figure 1, Figure 2, the plastic deformation method of material of the present invention, specifically including pushes material to be operated From the initial bit in 200 corner extrusion channel 220 of mold with >=10³·s^-1Or 10⁴·s^-1Or 10⁵·s^-1Or 10⁶·s^-1Strain Rate reaches the stop bits in the corner extrusion channel 220 and changes the process to form the material operated.

The method can specifically include: material to be operated being made to be in the initial bit in the corner extrusion channel 220；Make Percussion mechanism 100 discharges impact energy to the drive material component 210 of the mold 200；And in the corner extrusion channel 220 stop bits obtains by the promotion of the drive material component 210 for the energy excitation that is hit and passes through 220 turns of corner extrusion channel The material operated being deformed into.

Wherein, preferably make condition of the material between the material and corner extrusion channel 220 there are contact surface lubrication Under from the initial bit reach stop bits, to reduce the friction between material and corner extrusion channel 220.

The plastic deformation method of above-mentioned material, the plastic deformation equipment of material are carried out into one below with reference to related embodiment Walk explanation.

Embodiment 1

A. the plastic deformation equipment of material

As shown in Figure 1, the plastic deformation equipment of material includes percussion mechanism 100 and mold 200；Wherein, percussion mechanism 100 Using one-stage light-gas gun, bullet 110 includes bullet rear portion 111 and bullet front 112, and bullet rear portion 111 is a PC plastic Manufactured plastic cylinder (length 20mm, diameter 13.95mm), bullet front 112 is sheet metal made of a stainless steel (thickness 4mm, diameter 10mm), which is bonded on the end face of plastic cylinder, the center of sheet metal and plastics The center of cylindrical body is aligned.

Mold 200 is made of an equal channel angular extrusion die (by stainless steel steel), and corner extrusion channel 220 is T Shape channel (diameter 3mm), drive material component 210 include drive material component rear portion 211 (length 30mm, diameter 9.8mm) and drive material member anterior 212 (length 28mm, diameter 2.9mm), drive material component rear portion 211 and drive material Member anterior 212 is coaxially disposed and is integrally machined by bearing steel (i.e. high-carbon chromium steel), has in mold 200 for installing material Expect the stepped hole of pushing mechanism 210, the macropore of the stepped hole is adapted with drive material component rear portion 211 and aperture is pushed away with material Dynamic component front 212 is adapted and the interconnection (as shown in Figure 1) in the at T-shaped channel of shape, is also machined in mold 200 and step The through-hole of the vertical simultaneously vertical passage in the at T-shaped channel of shape of the aperture in hole.

B. the plastic deformation method of material

The aluminum single crystal bar of casting and forming is cut into the cylinder bar that diameter is 3mm, length is 14mm along axial direction, surface applies Smear MoS₂It is placed in after lubricant in the interconnection in T shape channel, drive material component 210 is then installed on mold 200 again On, so that drive material member anterior 212 is inserted into the interconnection in T shape channel；Bullet 110 is accelerated using nitrogen (3MPa), warp It is 230m/s, the high-speed extrusion cylinder after the shock of bullet 110 of drive material component 210 that magnetic survey speed variator, which measures gun muzzle bullet to go out speed, When by T shape channel dynamic severe plastic deformation occurs for bar, cylinder bar, finally in the vertical passage in T shape channel To deformed sample 300.

It takes out and passes through 1 passage sample after extruding, electron backscatter diffraction (EBSD) characterization is carried out (referring to Fig. 3 to sample It is shown).As shown in figure 3, discovery generates numerous strips symmetrically new crystal grain (deformation twin) in the sample.The above method is in fine aluminium In micron-grade deformation twin is made, the micron-grade deformation twin length is generally to be greater than 50 microns and width Generally it is greater than 1 micron.

Embodiment 2

A. the plastic deformation equipment of material

As shown in Fig. 2, the plastic deformation equipment of material includes percussion mechanism 100 and mold 200；Wherein, percussion mechanism 100 Using one-stage light-gas gun, bullet 110 includes bullet rear portion 111 and bullet front 112, and bullet rear portion 111 is a PC plastic Manufactured plastic cylinder (length 20mm, diameter 13.95mm), bullet front 112 is sheet metal made of a stainless steel (thickness 4mm, diameter 10mm), which is bonded on the end face of plastic cylinder, the center of sheet metal and plastics The center of cylindrical body is aligned.

Mold 200 is made of an equal channel angular extrusion die (by stainless steel steel), and corner extrusion channel 220 is L Shape channel (diameter 3mm), interior angle Φ are 90 °, and drive material component 210 includes 211 (length of drive material component rear portion 30mm, diameter 9.8mm) and drive material member anterior 212 (length 28mm, diameter 2.9mm), drive material component rear portion 211 It is coaxially disposed with drive material member anterior 212 and is integrally machined by bearing steel (i.e. high-carbon chromium steel), had in mold 200 For the stepped hole of mounting material pushing mechanism 210, the macropore of the stepped hole is adapted and small with drive material component rear portion 211 Hole is adapted with drive material member anterior 212 and the interconnection (as shown in Figure 2) in the at L-shaped channel of shape, also adds in mold 200 Work has the through-hole of vertical with the aperture of stepped hole and the at L-shaped channel of shape vertical passage.

B. the plastic deformation method of material

The aluminum single crystal bar of casting and forming is cut into the cylinder bar that diameter is 3mm, length is 14mm along axial direction, surface applies Smear MoS₂It is placed in after lubricant in the interconnection in L shape channel, drive material component 210 is then installed on mold 200 again On, so that drive material member anterior 212 is inserted into the interconnection in L shape channel；Bullet 110 is accelerated using nitrogen (5MPa), warp It is 315m/s, the high-speed extrusion cylinder after the shock of bullet 110 of drive material component 210 that magnetic survey speed variator, which measures gun muzzle bullet to go out speed, When by L shape channel dynamic severe plastic deformation occurs for bar, cylinder bar, finally in the vertical passage in L shape channel To deformed sample 300.

It takes out and passes through 1 passage sample after extruding, electron backscatter diffraction (EBSD) characterization is carried out (referring to fig. 4 to sample It is shown).Micron-grade deformation twin is made in the above method in fine aluminium, and the micron-grade deformation twin length is Generally be greater than 50 microns and width is generally greater than 5 microns.

Deformation twin can effectively eliminate stress raisers as a kind of important deformation mechanism of flow of metal, reduce Micro-crack forming core dot density, improves the breakdown strength of metal material；In addition, deformation twin circle can also be used as dislocation motion forming core Point improves the plastic deformation ability of metal material.

Comparative example 1

Aluminum single crystal sample smears MoS having a size of 8mm × 8mm × 20mm, surface₂After lubricant, pass through right angle at room temperature Monocrystalline is squeezed out primary, rate of extrusion 5mm/min by ECAP die head.After ECAP, seen by using transmission electron microscope Examining obtained twin is nanoscale, as shown in Figure 6.

Embodiment 3

A. the plastic deformation equipment of material

As shown in Figure 1, the plastic deformation equipment of material includes percussion mechanism 100 and mold 200；Wherein, percussion mechanism 100 Using one-stage light-gas gun, bullet 110 includes bullet rear portion 111 and bullet front 112, and bullet rear portion 111 is a PC plastic Manufactured plastic cylinder (length 20mm, diameter 13.95mm), bullet front 112 is sheet metal made of a stainless steel (thickness 4mm, diameter 10mm), which is bonded on the end face of plastic cylinder, the center of sheet metal and plastics The center of cylindrical body is aligned.

Mold 200 is made of an equal channel angular extrusion die (by stainless steel steel), and corner extrusion channel 220 is T Shape channel (diameter 3mm), drive material component 210 include drive material component rear portion 211 (length 30mm, diameter 9.8mm) and drive material member anterior 212 (length 28mm, diameter 2.9mm), drive material component rear portion 211 and drive material Member anterior 212 is coaxially disposed and is integrally machined by bearing steel (i.e. high-carbon chromium steel), has in mold 200 for installing material Expect the stepped hole of pushing mechanism 210, the macropore of the stepped hole is adapted with drive material component rear portion 211 and aperture is pushed away with material Dynamic component front 212 is adapted and the interconnection (as shown in Figure 1) in the at T-shaped channel of shape, is also machined in mold 200 and step The through-hole of the vertical simultaneously vertical passage in the at T-shaped channel of shape of the aperture in hole.

B. the plastic deformation method of material

From 6061 aluminum alloy plate materials of roll forming, the cylindrical rod of diameter 3mm, length 14mm are cut out along rolling direction MoS is smeared on material, surface₂It is placed in after lubricant in the interconnection in T shape channel, then drive material component 210 is installed again In the interconnection on mold 200, making drive material member anterior 212 be inserted into T shape channel；Using nitrogen (3MPa) to bullet 110 accelerate, and measuring gun muzzle bullet to go out speed through magnetic survey speed variator is 230m/s, and drive material component 210 is high after the shock of bullet 110 Speed squeezes cylinder bar, and when by T shape channel dynamic severe plastic deformation occurs for cylinder bar, finally in the vertical of T shape channel Deformed sample 300 is obtained into channel.

It takes out and passes through 1 passage sample after extruding, electron backscatter diffraction (EBSD) characterization is carried out (referring to Fig. 5 to sample It is shown).Micron order deformation twin is made in the above method in aluminium alloy, and the length of the micron order deformation twin is generally to be greater than 10 microns and width is generally greater than 1 micron.

Comparative example 2

6061 aluminum alloy samples are that diameter 12mm, thickness 4.76mm disk use the light gas of level-one under conditions of -180 DEG C Big gun carries out Impulsive load with the pressure of 13GPa.After Impulsive load, twin is made by using transmission electron microscope observation For sub-micron, as shown in Figure 7.

Related content of the invention is illustrated above.Those of ordinary skill in the art are in the feelings illustrated based on these The present invention will be realized under condition.Based on above content of the invention, those of ordinary skill in the art are not making creativeness Every other preferred embodiment and embodiment obtained, should fall within the scope of the present invention under the premise of labour.

Claims (10)

1. Equipment for plastic deformation of materials, characterized in that it comprises: a die including a corner extrusion channel having an initial position for disposing the material to be manipulated and an ending position for disposing the manipulated material and a material pushing member; and The impact device is used for releasing impact energy to the material pushing member so as to excite the material pushing member to push the material to be manipulated in the initial position through the corner extrusion channel to the end position to transform into the manipulated material. 2. The device for plastic deformation of materials according to claim 1, characterized in that: the impact device is a kind of material capable of making the material to be manipulated in the initial position to be ≥10 ³ ·s ^-1 or 10 ⁴ · The impact device reaches the end position with a strain rate of s ⁻¹ or 10 ⁵ ·s ⁻¹ or 10 ⁶ ·s ⁻¹ . 3. The device for plastic deformation of materials according to claim 1 or 2, wherein the impact device is a kind of projectile driven by the expanding gas and accelerated in the chamber to obtain the required speed at the muzzle. A gas cannon where the impact material pushes the part. 4. The plastic deformation equipment of the material according to claim 3, characterized in that: the air gun adopts a muzzle projectile velocity ≥ 100m/s or 200m/s or 300m/s or 400m/s or 500m/s First class light air gun. 5. The device for plastic deformation of materials according to claim 3, characterized in that: the projectile comprises a projectile rear part as a base and a projectile front part arranged on the projectile rear part for directly hitting the material pushing member, the projectile The density and hardness of the material at the rear of the projectile are both less than the density and hardness of the material at the front of the projectile. 6. The material plastic deformation device according to claim 5, wherein the rear part of the projectile is a plastic cylinder, and the front part of the projectile is a metal sheet, and the metal sheet is installed on the end face of the plastic cylinder superior. 7. The material plastic deformation device according to claim 3, wherein the material pushing part comprises a rear part of the material pushing part for directly receiving the impact of the projectile and a rear part of the material pushing part arranged on the rear part for interacting with the material pushing part. The front part of the material pushing part is adapted to the initial channel where the initial position is located on the die corner extrusion channel, and the cross-sectional area of the rear part of the material pushing part is larger than the cross-sectional area of the front part of the material pushing part. 8. The material plastic deformation equipment according to claim 7, wherein: the rear part of the material pushing part is coaxially arranged with the front part of the material pushing part; A stepped hole, the large hole of the stepped hole is adapted to the rear of the material pushing part and the small hole is adapted to the front of the material pushing part and forms the initial channel where the initial position on the corner extrusion channel is located; when the to-be-operated When the material is in the initial position of the corner extrusion channel, the rear part of the material pushes the component to protrude out of the large hole of the step hole. 9. The device for plastic deformation of materials according to any one of claims 1 to 8, wherein the corner extrusion channel is a T-shaped channel or an L-shaped channel with an inner angle Φ of 60°-160° aisle. 10. The device for plastic deformation of materials according to any one of claims 1 to 8, wherein the die is an equal channel corner extrusion die.