CN103111559B - Method for rolling and forming GH536 high-temperature alloy complicated irregular cross section annular part - Google Patents

Method for rolling and forming GH536 high-temperature alloy complicated irregular cross section annular part Download PDF

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CN103111559B
CN103111559B CN201210531788.XA CN201210531788A CN103111559B CN 103111559 B CN103111559 B CN 103111559B CN 201210531788 A CN201210531788 A CN 201210531788A CN 103111559 B CN103111559 B CN 103111559B
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advance
roll
ring
finish
gauge
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CN103111559A (en
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刘朝辉
陈学洪
刘伟楠
项春花
孙传华
张园园
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GUIZHOU AVIATION TECHNICAL DEVELOPMENT Co Ltd
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GUIZHOU AVIATION TECHNICAL DEVELOPMENT Co Ltd
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Abstract

The invention discloses a method for rolling and forming a GH536 high-temperature alloy complicated irregular cross section annular part and aims at providing complicated irregular cross section annular parts which are complete in appearance, high in dimensional accuracy and excellent in texture and performance and are distributed along the part appearances. The technical scheme is that the method comprises the steps of heating a high-temperature alloy rod blanked according to specification and performing upsetting, punching and twice annular rolling to form a rectangular pre-rolling blank; heating the rectangular pre-rolling blank and using a pre-rolling inner shape module and a pre-rolling outer shape module to roll the rectangular pre-rolling blank in a pre-rolling irregular hole to form an irregular pre-rolling blank with a structural shape inverse to a structural shape of a final rolling irregular cross section annular part; and heating the irregular pre-rolling blank and using a final rolling inner shape module and a final rolling outer shape module to roll the irregular pre-rolling blank in a final rolling irregular hole to form an irregular cross section annular part, wherein metal inside the irregular pre-rolling blank in the final rolling irregular hole flows from most to least according to preset volume flows when widened along the radial direction in rolling. The annular part is mainly used as a rotary body part for cylindrical casings and the like in the fields of aerospace and the like.

Description

The method for rolling and shaping of GH536 high temperature alloy Complex Different Shape cross sectional annular part
Technical field
The present invention relates to a kind of roll-forming method of annular element, particularly relate to the method for rolling and shaping of GH536 high temperature alloy Complex Different Shape cross sectional annular part.
Background technology
Along with the news speed development of the industries such as Aeronautics and Astronautics, boats and ships, nuclear energy, gas turbine, wind-power electricity generation, higher requirement be it is also proposed to the forming dimension precision of annular element, Microstructure and properties, annular element rolling technique is also thereupon towards near-net-shape future development, its cross sectional shape of the annular element of roll forming becomes increasingly complex, roll forming difficulty is increasing, and the annular element how obtained along External Shape distribution is the prerequisite realizing precision rolling shaping.
Disclosed in 8 days October in 2008, Chinese invention patent description CN 101279346A discloses a kind of method for rolling and shaping of nickel-based high-temperature alloy special-shaped ring forging, the method the high temperature alloy bar by specification blanking through jumping-up, punching, roll ring for twice and produce the different strip plate of rectangle, again different for rectangle strip plate being put into rolling and shaping in machine for rolling ring roll off mould is forging special-shape ring, by at the double deflection rolling mode and the precise control in each processing step taking small deformation amount to be shaped in ring base process, roll out the forging special-shape ring that structure and properties is good.The method becomes Special-shaped annular part owing to adopting the pre-strip plate of rectangle direct roll off, generally can only the odd-shaped cross section annular element of rolling and shaping simple shape, when also having a Complex Different Shape cross section GH536 superalloy annular part of boss face according to existing groove surface on the odd-shaped cross section annular element such as cross section of the method roll off complicated shape, because the metal flow of the pre-strip plate of rectangle in roll off process in rolling groove is complicated, activated interface situation between the pre-strip plate of rectangle and rolling groove is complicated, roll off process has significantly non-linear, in time, becomes, Unsteady characteristics, the easy production cross section profile of the odd-shaped cross section annular element of rolling and shaping is caused to be not fully filled, outer surface has folding, end face has the defects such as fish scale-shaped, thus affect dimensional accuracy and the structure property of finish to gauge annular element, annular element also can be caused time serious to scrap, be unfavorable for the accurate rolling and shaping realizing odd-shaped cross section annular element.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of pre-strip plate of abnormity by predetermined flow reversal deformation to realize the method for rolling and shaping of GH536 high temperature alloy Complex Different Shape cross sectional annular part, and employing the method can roll out the GH536 high temperature alloy Complex Different Shape cross sectional annular part that profile is complete, dimensional accuracy is high, structure and properties is excellent and distribute along External Shape.
For solving the problems of the technologies described above, the method for rolling and shaping of GH536 high temperature alloy Complex Different Shape cross sectional annular part of the present invention, its processing step is as follows:
GH536 high temperature alloy bar by specification blanking to be heated to after the deformation temperature of 900 DEG C ~ 1140 DEG C through jumping-up, punching and twice orthogonal pre-strip plate of small deformation amount looping mill rolling:
That puts into after heating the pre-strip plate of described rectangle to above-mentioned deformation temperature that machine for rolling ring makes its longitudinal cross-section be in roll off mould rolls in section groove in advance, and the described section groove that rolls in advance is surrounded by roll in advance the external form module and upper end cover and bottom end cover of rolling inner mold module in advance, having fovea superior groove face and recessed groove face with groove surface;
Start machine for rolling ring and make core roller and home roll with the roll-force of 1000KN ~ 1850KN rolling the pre-strip plate of roll off rectangle in section groove in advance, the pre-strip plate of rectangle with the speed of 9mm/s ~ 15mm/s radially broadening, and roll in advance inner mold module and roll external form module in advance roll off under be deformed into the pre-strip plate of abnormity along the direction contrary with finish to gauge odd-shaped cross section annular element planform by predetermined volume flow; The pre-strip plate of described abnormity rolls straight-flanked ring, second in advance by first and rolls special-shaped ring, the 3rd in advance and roll straight-flanked ring, the 4th in advance and roll special-shaped ring and the 5th in advance and roll straight-flanked ring in advance and superpose successively and form; The inner ring surface of the pre-strip plate of abnormity has and rolls convex table top in advance, its outer ring surface has and rolls epirelief table top in advance and roll lower convex platform face in advance, the described epirelief table top that rolls in advance is in the outer peripheral face that second rolls special-shaped ring in advance, and described lower convex platform face of rolling in advance is in the outer peripheral face that the 4th rolls special-shaped ring in advance; Roll special-shaped ring and the 4th in advance second to roll in advance to have between special-shaped ring and roll groove surface in advance, and described first rolls straight-flanked ring and the 5th in advance and rolls rectangular loop shape identical with size, described second in advance and roll special-shaped ring and the 4th in advance to roll special-shaped ring shape and size in advance identical;
Be finish to gauge inner mold module the inner mold module replacing that rolls in advance of machine for rolling ring core roller die, the outer peripheral face of described finish to gauge inner mold module has evagination table top; The external form module of rolling in advance of home roll mould is replaced by finish to gauge external form module, the outer peripheral face of described finish to gauge external form module has epirelief table top and lower convex platform face; The outer peripheral face of described finish to gauge inner mold module, the outer peripheral face of finish to gauge external form module and described upper end cover, bottom end cover surround finish to gauge section groove;
Putting into machine for rolling ring after pre-for abnormity strip plate being heated in forge furnace the deformation temperature of 900 DEG C ~ 1140 DEG C makes its longitudinal cross-section be in finish to gauge section groove, make the evagination table top of finish to gauge inner mold module and the pre-strip plate of abnormity to roll convex table top in advance corresponding, the epirelief table top of finish to gauge external form module and the pre-strip plate of abnormity to roll epirelief table top in advance corresponding, the lower convex platform face of finish to gauge external form module is corresponding with the lower convex platform face of rolling in advance of the pre-strip plate of abnormity;
Start machine for rolling ring to be rolled the pre-strip plate of abnormity with the roll-force of 585KN ~ 985KN, the pre-strip plate of described abnormity is in finish to gauge section groove, convex table top and outer ring surface thereof roll epirelief table top to rolling in advance on its inner ring surface in advance, roll the epirelief table top that lower convex platform kept man of a noblewoman is first subject to evagination table top from finish to gauge inner mold module and finish to gauge external form module in advance, the rolling in lower convex platform face, the pre-strip plate of abnormity in finish to gauge section groove with the speed of 1mm/s ~ 8mm/s radially broadening, in it metal flow from second roll in advance special-shaped ring to first roll in advance straight-flanked ring and the 3rd roll in advance straight-flanked ring flowing, simultaneously roll special-shaped ring in advance from the 4th to roll straight-flanked ring and the 5th in advance to the 3rd and roll the flowing of straight-flanked ring direction in advance, straight-flanked ring is rolled in advance and the 3rd metal volume of rolling in advance in straight-flanked ring is respectively predetermined flow volume V when the second metal rolled in advance in special-shaped ring flows to first 0, and roll straight-flanked ring in advance and the 5th metal volume of rolling in advance in straight-flanked ring is respectively predetermined flow volume V when the 4th metal rolled in advance in special-shaped ring flows to the 3rd 0time, the pre-strip plate of abnormity is become complicated odd-shaped cross section annular element by roll off in finish to gauge section groove, described odd-shaped cross section annular element is by the first finish to gauge special-shaped ring, second finish to gauge straight-flanked ring, 3rd finish to gauge special-shaped ring, 4th finish to gauge straight-flanked ring and the 5th finish to gauge special-shaped ring superpose composition successively, the outer ring surface of described 3rd finish to gauge special-shaped ring has finish to gauge evagination table top, between described first finish to gauge special-shaped ring and the 3rd finish to gauge special-shaped ring, there is finish to gauge fovea superior groove face, between described 3rd finish to gauge special-shaped ring and the 5th finish to gauge special-shaped ring, there is the recessed groove face of finish to gauge, the inner ring surface of described odd-shaped cross section annular element has finish to gauge inner groove faces, and described first finish to gauge special-shaped ring is identical with the shape and size of the 5th finish to gauge special-shaped ring, described second finish to gauge straight-flanked ring is identical with the shape and size of the 4th finish to gauge straight-flanked ring.
Volume relationship between the pre-strip plate of described abnormity and described odd-shaped cross section annular element is by following formulae discovery:
V 01=V 1-V 0;V 02=V 2+2V 0;V 03=V 3-2V 0;V 04=V 4+2V 0;V 05=V 5-V 0
In formula:
V 01---first rolls annular volume corresponding to straight-flanked ring in advance;
V 02---second rolls annular volume corresponding to special-shaped ring in advance;
V 03---the 3rd rolls annular volume corresponding to straight-flanked ring in advance;
V 04---the 4th rolls annular volume corresponding to special-shaped ring in advance;
V 05---the 5th rolls annular volume corresponding to straight-flanked ring in advance;
V 1---the annular volume that the first finish to gauge special-shaped ring is corresponding;
V 2---the annular volume that the second finish to gauge straight-flanked ring is corresponding;
V 3---the annular volume that the 3rd finish to gauge special-shaped ring is corresponding;
V 4---the annular volume that the 4th finish to gauge straight-flanked ring is corresponding;
V 5---the annular volume that the 5th finish to gauge special-shaped ring is corresponding;
V 0---roll in advance in special-shaped ring from second and flow to first and roll predetermined metal flow volume in straight-flanked ring in advance; Equal to roll in advance in special-shaped ring from second to flow to the 3rd and roll predetermined metal flow volume in straight-flanked ring in advance; Equal to roll in advance in special-shaped ring from the 4th to flow to the 3rd and roll predetermined metal flow volume in straight-flanked ring in advance; Equal to roll in advance in special-shaped ring from the 4th to flow to the 5th and roll predetermined metal flow volume in straight-flanked ring in advance.
Compared with prior art, beneficial effect of the present invention is as follows:
The present invention first the pre-strip plate of GH536 high temperature alloy rectangle produced rolling in advance by rolling inner mold module and the pre-strip plate of abnormity rolling external form module roll off in advance and become contrary with finish to gauge odd-shaped cross section annular element planform in advance in section groove, more pre-for abnormity strip plate is become odd-shaped cross section annular element by finish to gauge inner mold module with finish to gauge external form module roll off in finish to gauge section groove, during roll off, the pre-strip plate of described abnormity is in finish to gauge section groove, its inner ring surface rolls rolling in advance on convex table top and outer ring surface thereof in advance, lower convex platform kept man of a noblewoman is first subject to from the evagination table top of finish to gauge inner mold module and the upper of finish to gauge external form module, the rolling in lower convex platform face, the pre-strip plate of abnormity radially its interior metal of broadening flows from more place to less place, by the accurate control of designing and calculating and machine for rolling ring, make pre-strip plate second metal rolled in advance in special-shaped ring of abnormity flow to first and roll straight-flanked ring in advance and the 3rd metal volume of rolling in advance in straight-flanked ring is respectively predetermined flow volume, 4th metal rolled in advance in special-shaped ring flows to the 3rd and rolls straight-flanked ring in advance and the 5th metal volume of rolling in advance in straight-flanked ring is respectively predetermined flow volume, because when the pre-strip plate of abnormity roll off in section groove becomes odd-shaped cross section annular element, its volume is constant, flowed to by guide wire and simplify the pre-activated interface relation between strip plate and rolling groove of abnormity, add the stability of roll off process, obtaining along External Shape is the Complex Different Shape cross sectional annular part of complete streamline distribution, overcome in roll off process easily occur that cross section profile is not fully filled, outer surface has folding, end face to have the defects such as fish scale-shaped, achieves the accurate rolling and shaping of GH536 high temperature alloy Complex Different Shape cross sectional annular part.
The present invention adopts larger roll-force and higher broadening speed when making special-shaped pre-strip plate, be conducive to the pre-strip plate Quick-forming of rectangle for the pre-strip plate of abnormity, enhance productivity, and any impact can not be produced on the dimensional accuracy of finish to gauge odd-shaped cross section annular element and structure property; Less roll-force and lower broadening speed is adopted when rolling and shaping odd-shaped cross section annular element, be conducive to controlling the metal flow rates in the pre-strip plate of abnormity and flow direction, the profile of odd-shaped cross section annular element is full of, avoids the defects such as generation is folding, fish scale-shaped, and obtain even, fine and close interior tissue.
The dimensional accuracy of this high-temperature alloy special-shaped cross sectional annular part after testing, reaches 3 ‰ (3/1000ths) of corresponding size.
The room temperature tensile properties of this high-temperature alloy special-shaped cross sectional annular part after testing, its tensile strength is 705MPa (being greater than the 690MPa of instructions for use), yield strength when its percentage elongation is 0.2% is 320MPa (being greater than the 275MPa of instructions for use), elongation after fracture was 50% (being greater than 30% of instructions for use), Brinell hardness was 185 (being less than 241 of instructions for use, note: require to be less than 241); This high-temperature alloy special-shaped cross sectional annular part is at the tensile property of 815 DEG C after testing, and its tensile strength is 105MPa (meeting instructions for use), and its elongation after fracture was 144% (being greater than 10% of instructions for use); The drawing by high temperature enduring quality of this high-temperature alloy special-shaped cross sectional annular part after testing, test temperature be 815 DEG C, proof stress after being 105MPa, 24h every 8h load 35MPa, until break.
The metallographic macrostructure of this high-temperature alloy special-shaped cross sectional annular part after testing, does not find the defects such as shrinkage cavity, loose, cavity, pin hole, crackle, layering and foreing impuritys.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.
Fig. 1 is the blank-making technology flow chart of the pre-strip plate of GH536 high temperature alloy rectangle.
Fig. 2 is the structure chart that the pre-strip plate of GH536 high temperature alloy rectangle puts into roll off mould.
Fig. 3 be the rectangle pre-strip plate roll off technical process shown in Fig. 2 overlook direction schematic diagram.
Fig. 4 is the profilograph of the high-temperature alloy special-shaped pre-strip plate of the GH536 of rolling and shaping along its center line.
Fig. 5 is the profilograph of GH536 high temperature alloy Complex Different Shape cross sectional annular part along its center line of rolling and shaping.
Fig. 6 is the pre-strip plate of abnormity shown in Fig. 4 and the Complex Different Shape cross sectional annular part shown in Fig. 5 vertical section comparison diagram along its center line.
Fig. 7 is the structure chart that the longitudinal cross-section of the high-temperature alloy special-shaped pre-strip plate of GH536 puts in finish to gauge section groove.
Fig. 8 be the longitudinal cross-section of the high-temperature alloy special-shaped pre-strip plate of GH536 in finish to gauge section groove by metal flow direction schematic diagram during roll off.
Detailed description of the invention
The method for rolling and shaping implementing GH536 high temperature alloy Complex Different Shape cross sectional annular part of the present invention needs to provide the equipment such as forge furnace, forcing press, machine for rolling ring, manipulator.Detailed description of the invention the following detailed description of the method:
The main chemical elements content (percentage by weight) of the GH536 high temperature alloy provided in prior art is: C content 0.05% ~ 0.15%, containing Cr amount 20.5% ~ 23.0%, containing W amount 0.2% ~ 1.0%, containing Mo amount 8% ~ 10%, containing Al amount≤0.50%, containing Ti amount 0.15%, containing Fe amount 17% ~ 20%, < 0.50% is measured containing Cu, < 0.010% is measured containing B, < 1.00% is measured containing Mn, containing Co amount 0.50% ~ 2.50%, < 0.015% is measured containing S, si content < 1.0%, P content < 0.025%, surplus is Ni.
This high temperature alloy is as follows to the processing step producing qualified Complex Different Shape cross sectional annular part from bar:
Step 1: the base of the pre-strip plate of rectangle.
The base of the pre-strip plate of the rectangle provided in prior art as shown in Figure 1, GH536 high temperature alloy bar 1 by specification blanking is heated in forge furnace the deformation temperature of 900 DEG C ~ 1140 DEG C, through jumping-up, punching and twice orthogonal pre-strip plate 10 of small deformation amount looping mill rolling.
Step 2: the base of the pre-strip plate of abnormity.
The machine for rolling ring with home roll mould and core roller die provided in prior art as shown in Figure 2, described core roller die by rolling inner mold module 16 in advance, core retainer plate 21, pressure ring 22 be fixed on core roller 12 by nut 23 and core roller key 24; Described home roll mould by bottom end cover 19, in advance roll external form module 17, upper end cover 18 by home roll overlap 20 and home roll key 25 be fixed on home roll 13, described roll inner mold module 16 in advance and roll the outer peripheral face of external form module 17 and described upper and lower end cap 18 and 19 in advance surround and roll section groove 11 in advance.The outer peripheral face rolling inner mold module 16 described in the present invention in advance has groove surface 16 0, the described outer peripheral face rolling external form module 17 in advance has fovea superior groove face 17 1with recessed groove face 17 2.
During base, the roll off mould be made up of home roll mould and core roller die is put into after first pre-for rectangle strip plate 10 being heated to the deformation temperature of 900 DEG C ~ 1140 DEG C in forge furnace, as shown in Figure 2, pre-for this rectangle strip plate 10 is put into core roller die with manipulator cover make it surround to roll inner mold module 16 in advance and lie in (not shown) on the chassis of machine for rolling ring; Starting machine for rolling ring makes its home roll 13 rotate by direction shown in Fig. 2, and then make core roller 12 core roller die and home roll mould matched moulds after the close home roll 13 of home roll 13 direction translation, the longitudinal cross-section of the pre-strip plate 10 of rectangle is in rolls in section groove 11 in advance; Simultaneously drive upper and lower cone roller 14 and 15 to rotate by direction shown in Fig. 2 by machine for rolling ring and prepare to clamp the upper and lower end face of the pre-strip plate of rectangle 10, making two of machine for rolling ring armfuls of rollers 26 (as shown in Figure 3) help the outer shroud side face of the pre-strip plate 10 of rectangle;
Home roll 13 drives the pre-strip plate 10 of rectangle, core roller 12 and two armfuls of rollers 26 to rotate by the direction shown in Fig. 2 and Fig. 3, and the upper and lower end face that the upper and lower cone roller 14 and 15 at this moment rotated clamps the pre-strip plate of rectangle 10 of rotation therewith rotates; Core roller 12 radially makes core roller 12 and home roll 13 roll the pre-strip plate 10 of roll off rectangle in section groove 11 with the roll-force of 1000KN ~ 1850KN in advance at it towards home roll 13 direction do feed motion, the pre-strip plate 10 of rectangle with the speed of 9mm/s ~ 15mm/s radially broadening, and has groove surface 16 0roll inner mold module 16 in advance and there is fovea superior groove face 17 1, recessed groove face 17 2roll in advance under the roll off of external form module 17 along the Direction distortion contrary with finish to gauge odd-shaped cross section annular element planform.Its wall thickness reduces gradually, and upper and lower cone roller 14 and 15 and two armfuls of rollers 26 move outward along with the radial broadening of the pre-strip plate of rectangle 10;
The pre-strip plate 10 of rectangle roll in advance in section groove 11 by roll off produce continuous local plastic be out of shape, the pre-strip plate of last rectangle 10 roll in advance in section groove 11 by predetermined volume flow distortion after become and the pre-strip plate 30 of the antipodal abnormity of finish to gauge odd-shaped cross section annular element 40 (as shown in Figure 5) planform, all rotatable parts remove home roll 13 after stopping, cone 14 and 15, two, roller embraces roller 26 and be pressed in the machine for rolling ring cantilever at core roller 12 top, take out the pre-strip plate 30 of abnormity from core roller top.
As shown in Figure 4, the pre-strip plate 30 of described abnormity rolls straight-flanked ring S by first to the vertical sectional shape of the pre-strip plate 30 of abnormity of roll forming in advance 01, second roll special-shaped ring S in advance 02, the 3rd roll straight-flanked ring S in advance 03, the 4th roll special-shaped ring S in advance 04and the 5th rolls straight-flanked ring S in advance 05superpose composition successively; The inner ring surface of the pre-strip plate 30 of abnormity has and rolls convex table top 30 in advance 0, its outer ring surface has and rolls epirelief table top 30 in advance 1roll lower convex platform face 30 in advance 2, describedly roll epirelief table top 30 in advance 1be in second and roll special-shaped ring S in advance 02outer peripheral face, describedly roll lower convex platform face 30 in advance 2be in the 4th and roll special-shaped ring S in advance 04outer peripheral face; Special-shaped ring S is rolled in advance second 02special-shaped ring S is rolled in advance with the 4th 04between have and roll groove surface 30 in advance 3, and described first rolls straight-flanked ring S in advance 01straight-flanked ring S is rolled in advance with the 5th 05shape and size identical, described second roll special-shaped ring S in advance 02special-shaped ring S is rolled in advance with the 4th 04shape and size are identical, for clarity sake, and above-mentioned ring S 01, S 02, S 03, S 04and S 05between separate with double dot dash line 101,102,103 and 104.
Fig. 5 shows the longitudinal section cross-section structure of the odd-shaped cross section annular element 40 finally needing rolling and shaping, and described odd-shaped cross section annular element 40 is by the first finish to gauge special-shaped ring S 1, the second finish to gauge straight-flanked ring S 2, the 3rd finish to gauge special-shaped ring S 3, the 4th finish to gauge straight-flanked ring S 4and the 5th finish to gauge special-shaped ring S 5superpose composition successively, described 3rd finish to gauge special-shaped ring S 3outer ring surface there is finish to gauge evagination table top 40 3, at described first finish to gauge special-shaped ring S 1with the 3rd finish to gauge special-shaped ring S 3between there is finish to gauge fovea superior groove face 40 1, at described 3rd finish to gauge special-shaped ring S 3with the 5th finish to gauge special-shaped ring S 5between there is the recessed groove face 40 of finish to gauge 2, the inner ring surface of odd-shaped cross section annular element 40 has finish to gauge inner groove faces 40 0, and described first finish to gauge special-shaped ring S 1with the 5th finish to gauge special-shaped ring S 5identical, the described second finish to gauge straight-flanked ring S of shape and size 2with the 4th finish to gauge straight-flanked ring S 4shape and size identical.For clarity sake, above-mentioned ring S 1, S 2, S 3, S 4and S 5between also separate with double dot dash line 101,102,103 and 104.
Fig. 6 shows the longitudinal section comparison diagram of the pre-strip plate 30 of abnormity and odd-shaped cross section annular element 40, as can be seen from Figure 6, and the ring S of the pre-strip plate 30 of above-mentioned abnormity 01, S 02, S 03, S 04, S 05and the ring S of odd-shaped cross section annular element 40 1, S 2, S 3, S 4, S 5can separate with double dot dash line 101,102,103,104 simultaneously.The pre-volume relationship between strip plate 30 and each ring of odd-shaped cross section annular element 40 of abnormity is by following formulae discovery:
V 01=V 1-V 0;V 02=V 2+2V 0;V 03=V 3-2V 0;V 04=V 4+2V 0;V 05=V 5-V 0
In formula:
V 01---first rolls straight-flanked ring S in advance 01corresponding annular volume;
V 02---second rolls special-shaped ring S in advance 02corresponding annular volume;
V 03---the 3rd rolls straight-flanked ring S in advance 03corresponding annular volume;
V 04---the 4th rolls special-shaped ring S in advance 04corresponding annular volume;
V 05---the 5th rolls straight-flanked ring S in advance 05corresponding annular volume;
V 1---the first finish to gauge special-shaped ring S 1corresponding annular volume;
V 2---the second finish to gauge straight-flanked ring S 2corresponding annular volume;
V 3---the 3rd finish to gauge special-shaped ring S 3corresponding annular volume;
V 4---the 4th finish to gauge straight-flanked ring S 4corresponding annular volume;
V 5---the 5th finish to gauge special-shaped ring S 5corresponding annular volume;
V 0---roll special-shaped ring S in advance from second 02inside flow to first and roll straight-flanked ring S in advance 01interior predetermined metal flow volume; Equal to roll special-shaped ring S in advance from second 02inside flow to the 3rd and roll straight-flanked ring S in advance 03interior predetermined metal flow volume; Equal to roll special-shaped ring S in advance from the 4th 04inside flow to the 3rd and roll straight-flanked ring S in advance 03interior predetermined metal flow volume; Equal to roll special-shaped ring S in advance from the 4th 04inside flow to the 5th and roll straight-flanked ring S in advance 05interior predetermined metal flow volume.
Further, straight-flanked ring S is rolled in advance from above-mentioned first 01straight-flanked ring S is rolled in advance with the 5th 05shape and size are identical, and second rolls special-shaped ring S in advance 02special-shaped ring S is rolled in advance with the 4th 04shape and size are identical, known: V 01=V 05, V 02=V 04; From above-mentioned first finish to gauge special-shaped ring S 1with the 5th finish to gauge special-shaped ring S 5shape and size identical, the second finish to gauge straight-flanked ring S 2with the 4th finish to gauge straight-flanked ring S 4shape and size identical, known: V 1=V 5, V 2=V 4.
Step 3: the rolling and shaping of odd-shaped cross section annular element.
As shown in Figure 7, the inner mold module 16 of rolling in advance of machine for rolling ring core roller die is replaced by finish to gauge inner mold module 16 ', and the outer peripheral face of described finish to gauge inner mold module 16 ' has evagination table top 16 0; The external form module 17 of rolling in advance of home roll mould is replaced by finish to gauge external form module 17 ', the outer peripheral face of described finish to gauge external form module 17 ' has epirelief table top 17 1with lower convex platform face 17 2; The outer peripheral face of described finish to gauge inner mold module 16 ', the outer peripheral face of finish to gauge external form module 17 ' and described upper end cover 18, bottom end cover 19 surround finish to gauge section groove 11 '.
Putting into machine for rolling ring by the method described in step 2 after pre-for abnormity strip plate 30 being heated in forge furnace the deformation temperature of 900 DEG C ~ 1140 DEG C makes its longitudinal cross-section be in finish to gauge section groove 11 ', makes the evagination table top 16 of finish to gauge inner mold module 16 ' 0with the pre-strip plate 30 of abnormity roll convex table top 30 in advance 0corresponding, the epirelief table top 17 of finish to gauge external form module 17 ' 1with the pre-strip plate 30 of abnormity roll epirelief table top 30 in advance 1corresponding, the lower convex platform face 17 of finish to gauge external form module 17 ' 2with the pre-strip plate 30 of abnormity roll lower convex platform face 30 in advance 2corresponding.
Start machine for rolling ring by the method described in step 2 to be rolled the pre-strip plate 30 of abnormity with the roll-force of 585KN ~ 985KN, as shown in Figure 8, the pre-strip plate 30 of described abnormity, in finish to gauge section groove 11 ', its inner ring surface rolls convex table top 30 in advance 0and outer ring surface rolls epirelief table top 30 in advance 1, roll lower convex platform face 30 in advance 2first the evagination table top 16 from finish to gauge inner mold module 16 ' is subject to 0and the epirelief table top 17 of finish to gauge external form module 17 ' 1, lower convex platform face 17 2rolling (in Fig. 8, F represents roll-force), the pre-strip plate 30 of abnormity is interior with the speed of 1mm/s ~ 8mm/s radially broadening at finish to gauge section groove 11 ', and flow from the place that metal is more to less place, the metal namely in the pre-strip plate 30 of abnormity rolls special-shaped ring S in advance from second 02straight-flanked ring S is rolled in advance to first 01straight-flanked ring S is rolled in advance with the 3rd 03flowing, rolls special-shaped ring S from the 4th simultaneously in advance 04straight-flanked ring S is rolled in advance to the 3rd 03straight-flanked ring S is rolled in advance with the 5th 05flow in direction; In the operation of rolling, by the accurate control of designing and calculating and machine for rolling ring, when second rolls special-shaped ring S in advance 02interior metal flows to first and rolls straight-flanked ring S in advance 01straight-flanked ring S is rolled in advance with the 3rd 03interior metal volume is respectively predetermined flow volume V 0, and roll special-shaped ring S in advance when the 4th 04interior metal flows to the 3rd and rolls straight-flanked ring S in advance 03straight-flanked ring S is rolled in advance with the 5th 05interior metal volume is respectively predetermined flow volume V 0time, that is: work as V 1=V 01+ V 0, V 2=V 02-2V 0, V 3=V 03+ 2V 0, V 4=V 04-2V 0, V 5=V 05+ V 0time, the pre-strip plate 30 of abnormity is at the interior odd-shaped cross section annular element 40 being become complexity by roll off of finish to gauge section groove 11 '.
In above-mentioned steps 1 ~ 3, the finish-forging of this high temperature alloy or finishing temperature are not less than 900 DEG C.
After testing, adopt the high-temperature alloy special-shaped cross sectional annular part 40 of GH536 of said method rolling and shaping, its shape distributes along External Shape, and has higher dimensional accuracy and excellent interior tissue and performance, meets the instructions for use of this superalloy annular part completely.

Claims (2)

1. the method for rolling and shaping of a GH536 high temperature alloy Complex Different Shape cross sectional annular part, comprise and the GH536 high temperature alloy bar (1) by specification blanking is heated to step through jumping-up, punching and twice orthogonal pre-strip plate (10) of small deformation amount looping mill rolling after the deformation temperature of 900 DEG C ~ 1140 DEG C, it is characterized in that, the method is further comprising the steps of:
That puts into after heating the pre-strip plate of described rectangle (10) to above-mentioned deformation temperature that machine for rolling ring makes its longitudinal cross-section be in roll off mould rolls in section groove (11) in advance, and the described section groove (11) that rolls in advance is by having groove surface (16 0) roll inner mold module (16) in advance, there is fovea superior groove face (17 1) and recessed groove face (17 2) roll in advance external form module (17) and upper end cover (18) and bottom end cover (19) surround;
Start machine for rolling ring and make core roller (12) and home roll (13) with the roll-force of 1000KN ~ 1850KN rolling the pre-strip plate of roll off rectangle (10) in section groove (11) in advance, the pre-strip plate of rectangle (10) with the speed of 9mm/s ~ 15mm/s radially broadening, and roll in advance inner mold module (16) and roll external form module (17) in advance roll off under be deformed into the pre-strip plate (30) of abnormity along the direction contrary with finish to gauge odd-shaped cross section annular element (40) planform by predetermined volume flow; The pre-strip plate of described abnormity (30) rolls straight-flanked ring (S in advance by first 01), second roll special-shaped ring (S in advance 02), the 3rd roll straight-flanked ring (S in advance 03), the 4th roll special-shaped ring (S in advance 04) and the 5th roll straight-flanked ring (S in advance 05) superpose composition successively; The inner ring surface of the pre-strip plate of abnormity (30) has and rolls convex table top (30 in advance 0), its outer ring surface has and rolls epirelief table top (30 in advance 1) and roll lower convex platform face (30 in advance 2), describedly roll epirelief table top (30 in advance 1) be in second and roll special-shaped ring (S in advance 02) outer peripheral face, describedly roll lower convex platform face (30 in advance 2) be in the 4th and roll special-shaped ring (S in advance 04) outer peripheral face; Special-shaped ring (S is rolled in advance second 02) and the 4th roll special-shaped ring (S in advance 04) between have and roll groove surface (30 in advance 3), and described first rolls straight-flanked ring (S in advance 01) roll straight-flanked ring (S in advance with the 5th 05) shape and size identical, described second roll special-shaped ring (S in advance 02) roll special-shaped ring (S in advance with the 4th 04) shape and size are identical;
The inner mold module (16) of rolling in advance of machine for rolling ring core roller die is replaced by finish to gauge inner mold module (16 '), and the outer peripheral face of described finish to gauge inner mold module (16 ') has evagination table top (16 0); The external form module (17) of rolling in advance of home roll mould is replaced by finish to gauge external form module (17 '), the outer peripheral face of described finish to gauge external form module (17 ') has epirelief table top (17 1) and lower convex platform face (17 2); The outer peripheral face of described finish to gauge inner mold module (16 '), the outer peripheral face of finish to gauge external form module (17 ') and described upper end cover (18), bottom end cover (19) surround finish to gauge section groove (11 ');
Putting into machine for rolling ring after pre-for abnormity strip plate (30) is heated to the deformation temperature of 900 DEG C ~ 1140 DEG C in forge furnace makes its longitudinal cross-section be in finish to gauge section groove (11 '), makes the evagination table top (16 of finish to gauge inner mold module (16 ') 0) with the pre-strip plate of abnormity (30) roll convex table top (30 in advance 0) corresponding, the epirelief table top (17 of finish to gauge external form module (17 ') 1) with the pre-strip plate of abnormity (30) roll epirelief table top (30 in advance 1) corresponding, the lower convex platform face (17 of finish to gauge external form module (17 ') 2) with the pre-strip plate of abnormity (30) roll lower convex platform face (30 in advance 2) corresponding;
Start machine for rolling ring to be rolled the pre-strip plate of abnormity (30) with the roll-force of 585KN ~ 985KN, the pre-strip plate of described abnormity (30), in finish to gauge section groove (11 '), its inner ring surface rolls convex table top (30 in advance 0) and outer ring surface on roll epirelief table top (30 in advance 1), roll lower convex platform face (30 in advance 2) be first subject to from finish to gauge inner mold module (16 ') evagination table top (16 0) and the epirelief table top (17 of finish to gauge external form module (17 ') 1), lower convex platform face (17 2) rolling, the pre-strip plate (30) of abnormity is with the speed of 1mm/s ~ 8mm/s radially broadening in finish to gauge section groove (11 '), and in it, metal flow rolls special-shaped ring (S in advance from second 02) roll straight-flanked ring (S in advance to first 01) and the 3rd roll straight-flanked ring (S in advance 03) flowing, roll special-shaped ring (S in advance from the 4th simultaneously 04) roll straight-flanked ring (S in advance to the 3rd 03) and the 5th roll straight-flanked ring (S in advance 05) direction flowing; When second rolls special-shaped ring (S in advance 02) in metal flow to first and roll straight-flanked ring (S in advance 01) and the 3rd roll straight-flanked ring (S in advance 03) in metal volume be respectively predetermined flow volume V 0, and roll special-shaped ring (S in advance when the 4th 04) in metal flow to the 3rd and roll straight-flanked ring (S in advance 03) and the 5th roll straight-flanked ring (S in advance 05) in metal volume be respectively predetermined flow volume V 0time, the pre-strip plate (30) of abnormity is become complicated odd-shaped cross section annular element (40) by roll off in finish to gauge section groove (11 '); Described odd-shaped cross section annular element (40) is by the first finish to gauge special-shaped ring (S 1), the second finish to gauge straight-flanked ring (S 2), the 3rd finish to gauge special-shaped ring (S 3), the 4th finish to gauge straight-flanked ring (S 4) and the 5th finish to gauge special-shaped ring (S 5) superpose composition successively, described 3rd finish to gauge special-shaped ring (S 3) outer ring surface there is finish to gauge evagination table top (40 3), at described first finish to gauge special-shaped ring (S 1) and the 3rd finish to gauge special-shaped ring (S 3) between there is finish to gauge fovea superior groove face (40 1), at described 3rd finish to gauge special-shaped ring (S 3) and the 5th finish to gauge special-shaped ring (S 5) between there is the recessed groove face (40 of finish to gauge 2), the inner ring surface of described odd-shaped cross section annular element (40) has finish to gauge inner groove faces (40 0), and described first finish to gauge special-shaped ring (S 1) and the 5th finish to gauge special-shaped ring (S 5) identical, the described second finish to gauge straight-flanked ring (S of shape and size 2) and the 4th finish to gauge straight-flanked ring (S 4) shape and size identical.
2. the method for rolling and shaping of GH536 high temperature alloy Complex Different Shape cross sectional annular part according to claim 1, is characterized in that: the volume relationship between the pre-strip plate of described abnormity (30) and described odd-shaped cross section annular element (40) is by following formulae discovery:
V 01=V 1-V 0;V 02=V 2+2V 0;V 03=V 3-2V 0;V 04=V 4+2V 0;V 05=V 5-V 0
In formula:
V 01---first rolls straight-flanked ring (S in advance 01) corresponding annular volume;
V 02---second rolls special-shaped ring (S in advance 02) corresponding annular volume;
V 03---the 3rd rolls straight-flanked ring (S in advance 03) corresponding annular volume;
V 04---the 4th rolls special-shaped ring (S in advance 04) corresponding annular volume;
V 05---the 5th rolls straight-flanked ring (S in advance 05) corresponding annular volume;
V 1---the first finish to gauge special-shaped ring (S 1) corresponding annular volume;
V 2---the second finish to gauge straight-flanked ring (S 2) corresponding annular volume;
V 3---the 3rd finish to gauge special-shaped ring (S 3) corresponding annular volume;
V 4---the 4th finish to gauge straight-flanked ring (S 4) corresponding annular volume;
V 5---the 5th finish to gauge special-shaped ring (S 5) corresponding annular volume;
V 0---roll special-shaped ring (S in advance from second 02) in flow to first and roll straight-flanked ring (S in advance 01) in predetermined metal flow volume; Equal to roll special-shaped ring (S in advance from second 02) in flow to the 3rd and roll straight-flanked ring (S in advance 03) in predetermined metal flow volume; Equal to roll special-shaped ring (S in advance from the 4th 04) in flow to the 3rd and roll straight-flanked ring (S in advance 03) in predetermined metal flow volume; Equal to roll special-shaped ring (S in advance from the 4th 04) in flow to the 5th and roll straight-flanked ring (S in advance 05) in predetermined metal flow volume.
CN201210531788.XA 2012-12-12 2012-12-12 Method for rolling and forming GH536 high-temperature alloy complicated irregular cross section annular part Active CN103111559B (en)

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DE2504969A1 (en) * 1975-02-06 1976-08-19 Horst Schenk Annular workpiece rolling mill - forms blank in revolving guide by radially acting mandrel roll and axial rolls
SU653011A1 (en) * 1977-10-10 1979-03-25 Bugrov Aleksandr A Tool for expanding rings by rolling
US8302314B2 (en) * 2003-08-13 2012-11-06 Technische Universität Dresden Method for producing internally or externally profiled rings and arrangement therefor
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