• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A casing for isostatically pressed pieces, which are intended for the extrusion of metal articles, in particular stainless steel metal pipes. The outer and inner envelopes (302, 304) of the casing (301) are comprised of a thin metal sheet: the outer envelope (302) at least has, along the periphery thereof, resistance characteristic substantially uniform in the axial direction and it consists of, in particular, a spiral welded pipe and is provided, preferably, with a bulge directed outwardly, opposed to the narrowing. It is provided, at least at the front part of the casing an intermediary piece which is made of one or several parts; this piece is obtained from ductile material or from a material obtained by compression of a powder. It is also provided a method for producing such casings and pressed pieces and a method for the extrusion of pipes as well as pipes obtained by such method.
    公开号:SU1369666A3
    申请号:SU792841453
    申请日:1979-10-25
    公开日:1988-01-23
    发明作者:Ослунд Кристер;Окерман Оке;Эрикссон Ханс;Флодин Бенни;Торнберг Класс
    申请人:Грэнгес Нюбю Аб (Фирма);
    IPC主号:
    专利说明:

    On the side of the rear end sections of the shells, the gap is overlapped by the liner 4 with the krppka 6, which form the bottom of the capsule / Ring 4 or annular or funnel-shaped, made of low carbon steel, is stirred in the lid 6 and is welded to the outer and inner shell. The capsule is mounted vertically on a plate, filled with powder, and subjected to vibrocompaction. a- so from the front end
    The shell sections are positioned in the form of a funnel-shaped liner 3 with a crust 5 and connected by spot welding. 5 welded tightly to the outer and inner shells. The outer shell has a variable height profile and a convex part between the intermediate sections, which allows, after pressing, to obtain a cylindrical shape of the compact with exact dimensions. 4z.p.fl l 3 ill.
    one
    The invention relates to powder metallurgy, in particular, press tooling devices for forming shells of a powder material based on stainless steels and high-alloyed nickel alloys of tubes by cold pressing and extrusion processes.
    The aim of the invention is to improve the dimensional accuracy, reduce scrap and improve the quality of the extruded products.
    FIG. 1 shows a capsule with nozzles having an arc-shaped section; in fig. 2 shows an embodiment of a capsule having a sharp cross-sectional profile of the nozzle on the side of the surface adjacent to the inner shell; in fig. 3 shows an embodiment of a capsule with nozzles, the contour of which is the cross section of which is the scratch display of the contour of the outer shell in the zone of intermediate sections.
    The capsule (figure 1) consists of outer 1 and inner 2 shells. On the front and rear end areas between the outer and inner shells are placed nozzles made in the form of liners 3 and 4 and covers 5 and 6. The nozzles can be made of iron or similar metal. The cover 5 has a cylindrical inner 7 and a cylindrical outer 8 portions. Krishka 6 has an internal cylindrical unastek 9. In places
    B


    five
    about
    The ends of the cylindrical portions 7-9 crust are welded to weld the covers to the outer and inner shells. The surface of the liners 3 and 4, as well as Krishlek 5 and 6 is made in the form of an arc of a circle. The inner end parts Krshl from the side of the cylindrical sections 7 and 9 are tightly connected with the inner shell by a circumferential weld. The transition of the cylindrical sections of the covers and liners in the arc-shaped is performed along the radius. The outer shell 1 is filled with a profile with a variable height, and its middle part is made convex with respect to the end sections 10. The convexity of the outer shell 1 is directly opposite to the shrinkage of the powder material during cold isostatic pressing. The outer end surfaces of the bushings 3 and 4 are flat, and at the points of contact with the outer shell 1, they are angled or rounded so that the flanged edges of the outer shell 1 shrink to line 11, which corresponds to an ideal cylindrical shape. Accordingly, the end cylindrical portions in the outer shell 1 are crimped by rolling to match line 11. In order to eliminate wrinkles and to obtain a more accurate centering of the material blank according to the invention, the change in the diameter of the outer shell is limited in the area of the inserts 3 and 4. I
    Between the end sections of the outer
    shell in contact with the nozzle
     13
    The middle and convex parts of this shell are intermediate sections 12, which are convex in the direction of the middle part and have a concave profile that enter the end sections. The middle part of the outer shell between the intermediate sections has a constant diameter. The intermediate portions 12 are frustoconical in shape and are mirrored in the cross sectional profile of the arcuate surfaces of the liners. Line 11 is an axis of mirror symmetry. The angle c - the bending angle of the outer shell is reduced due to shrinkage compared to the angle f - the bending angle of the corresponding nozzle.
    The embodiment of the capsule (Fig. 2) differs from the first variant (Fig. L) in that the liners 3 and 4 and the bolts 5 and 6 have a sharp cross-sectional profile at the junction of the cylindrical sections into arcuate (angled). The arcuate surface of the liners and caps. Accordingly, extends directly to the inner shell 2 and forms an angle / j with it.
    In this embodiment, the outer and / or inner shell can be made convex. Convex can be made shells made in a spiral welded into the tube strip of sheet material.
    The difference in the design of the capsule (fig. 3) is that the inserts 3 and A are hermetically welded to the outer 1 and inner 2 shells. The design excludes the presence of kryppek on liners. The bulge of the outer shell gradually and continuously increases in the axial direction towards the middle (cylindrical) part of the shell. The nozzle cross-section contour is a mirror image of the contour of the outer shell in the area of the intermediate sections of the outer shell, which is reflected on line 11, but stretched in the radial direction, and the amount of stretch corresponds approximately to the ratio of the difference between the outer and inner diameter
    Example. For the manufacture of compacting with an external diameter of 1DDmm, a capsule is used in the extrusion of a stainless steel pipe with an external diameter of 50 mm and a wall thickness of 5 mm, in which the outer shell 1 is made in the form of a pipe made of a spirally rolled sheet material. The outer shell has a length of 600 mm, an outer diameter of 154 mm, a wall thickness of 1.5 mm. At both ends, the casing is compressed by rolling or applying pressure during rotation so that cylindrical sections with an outer diameter of 144 mm are formed at the ends, adjacent to intermediate sections. Then the ends of the outer shell are ground. Inside the outer shell, an inner shell is placed.2 forming an annular gap. From the rear end of these end sections of the shells, the gap 30 overlaps the insert 4 with the clamp 6, which form the bottom of the capsule. Crush 6 is made of a sheet material tightly attached to the outer and inner shells. The inner shell is made of a 590 mm long pipe, welded along, with a wall thickness of 1.5 mm and an inner diameter of 40 mm. The ring-shaped or funnel-shaped insert 4 is made of steel with a low carbon content (approximately 0.004%), is placed in the grill 6 and is welded to the assembly with the outer and inner shells. The capsule is mounted vertically on the plate, filled with powder material, vibrated to a relative density of 68% at a vibration frequency of 80 Hz. Then in the capsule from the front end sections of the shells place the upper nozzle in the form of a funnel-shaped insert 3a with a lid 5. The nozzle is pushed under pressure into the gap between the outer and inner shells. Krischka 5 is made of sheet material, and the liner 3 is similar to the die-shrinkable capsule diameter, preferably taking into account 5 that 4.
    changes in the cross-sectional area with diminished-spot welding are welded with a inserted radius. Welding of nozzles ronkoobrazny vladpi 3 to krish1ke 5,
    with the outer and inner shells g last welded hermetically
    0
    five
    0
    five
    produced at the ends of the shells. Nozzles can be made of compressed powder material.
    The work of Kancyjjbi is illustrated by the following example.
    Example. For the manufacture of compacting with an external diameter of 1DDmm, a capsule is used in the extrusion of a stainless steel pipe with an external diameter of 50 mm and a wall thickness of 5 mm, in which the outer shell 1 is made in the form of a pipe made of a spirally rolled sheet material. The outer shell has a length of 600 mm, an outer diameter of 154 mm, a wall thickness of 1.5 mm. At both ends, the casing is compressed by rolling or applying pressure during rotation so that cylindrical sections with an outer diameter of 144 mm are formed at the ends, adjacent to intermediate sections. Then the ends of the outer shell are ground. Inside the outer shell is placed the inner shell 2, forming an annular gap. On the side of the rear end sections of the shells, the gap 0 overlaps the insert 4 with the clamp 6, which form the bottom of the capsule. Crush 6 is made of a sheet material tightly attached to the outer and inner shells. The inner shell is made of a 590 mm long pipe, welded along, with a wall thickness of 1.5 mm and an inner diameter of 40 mm. The ring-shaped or funnel-shaped insert 4 is made of steel with a low carbon content (approximately 0.004%), is placed in the grill 6 and is welded to the assembly with the outer and inner shells. The capsule is mounted vertically on the plate, filled with powder material, vibrated to a relative density of 68% at a vibration frequency of 80 Hz. Then in the capsule from the front end sections of the shells place the upper nozzle in the form of a funnel-shaped insert 3a with a lid 5. The nozzle is pushed under pressure into the gap between the outer and inner shells. Krshchku 5 are made of sheet material, and the liner 3 is similar to the contributions5
    0
    five
    0
     that 4.
    to vnutrtney and internal fittings (Fig. 1).
    The assembled capsule is subjected to cold isostatic pressing in water at a pressure of 4700 bar to a density of 88%. In this case, the capsule is crimped to an outer diameter of 144 mm, i.e. to the size of the cylindrical end sections of the outer shell. The size of 144 mm corresponds to the inner diameter of the extrusion press container. This ensures accurate pentrum. After pressing, the internal diameter of the compact is with a sufficient accuracy of 40 mm. After induction heating to 1,200 ° C, extrusion of the extrusion into the desired seamless pipe is carried out. There is no need for further processing. The front section of the pipe consisting of low alloy steel is cut off. The part of the pipe consisting of pressed powder material from high-speed steel has no damage. Material losses are reduced to a minimum.
    Making the outer shell with a variable profile in height and a convex part between the intermediate sections allows, after pressing, to obtain a cylindrical shape of pressing with exact dimensions, thereby creating the possibility of maintaining the accuracy of the pipes obtained after extruding the pipes, improving their quality and increasing the yield by eliminating additional pipe processing.
    Due to the slight tolerances in the dimensions of the compact, the lubricating conditions in the extruder are improved, which affects the surface quality of the resulting products.
    The proposed technical solution makes it possible to withstand the dimensions of the pressed pipes with a deviation of j 0, 1 mm, which is of decisive importance in the extrusion of products from powder materials, in particular pipes without damage.
    权利要求:
    Claims (5)
    [1]
    1. Capsule for pressing pipes made of powder materials, mainly long-type rod j and similar stainless steel products and high nickel nickel
    Sh
    1B
    20
    2b
    69666
    alloys, in particular, from heat-resistant alloys dt heat transfer materials, for example, from high-alloyed nickel alloys containing 80% nickel and 20% chromium, including an inner and outer shell made of thin, preferably 1-2 mm thick. steel sheet with a carbon content in the material of the latter less than 0.015%, in particular, less than 0.004%, and installed with an annular gap, placed on the end face sections of the shells and overlapping their annular gap nozzles, in order to improve the dimensional accuracy, reducing rejects and improving the quality of compressible products, at least the outer shell is made with a variable profile in height, its middle part is made convex in relation to the end sections and connected to the last intermediate conical These sections are made convex in the direction of the middle part and have a concave profile joining the end sections, and the nozzles have a contribution from solid material or powder pressed material that passes along the height of the intermediate sections into the gap between the outer and inner shells.
    [2]
    2. A capsule according to claim 1, characterized in that the nozzles are made conical, hemispherical or funnel-shaped and have a center) 1st opening for receiving the inner shell.
    [3]
    3. Capsule on PP. 1 and 2, characterized in that at least the nozzle on the side of one end portion of the capsule is made with a central hole and a flat end surface, while the bounding surface of the nozzle between the wall of the central hole and the largest outer diameter of the nozzle has a cross-sectional profile similar to arcuate and the centers of this profile are in the region of a circular cut line between the flat end surface and the central hole or inside this circle.
    55
    [4]
    4. Kansul on PP. 1-3, characterized in that the
    thirty
    40
    45
    50
    from solid or compressed from powder material liners
    7 1369666
    nozzles have a contour in transverse
    section, similar to the mirror image of the contour of the conical intermediate sections.
    eight
    [5]
    5. Capsule on PP. 1-4, characterized in that the nozzles are made in the form of liners and caps,
    (rig 2
    .3
    类似技术:
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    同族专利:
    公开号 | 公开日
    ATA692379A|1983-09-15|
    DK153742C|1989-01-23|
    DE2967396D1|1985-03-28|
    SE7908702L|1980-04-27|
    FR2439639A1|1980-05-23|
    HU179975B|1983-01-28|
    ES8104027A1|1981-04-16|
    MX150474A|1984-05-14|
    FI793336A|1980-04-27|
    NO151779B|1985-02-25|
    WO1980000803A1|1980-05-01|
    FR2439639B1|1983-04-29|
    GB2034226B|1982-09-29|
    SE441336B|1985-09-30|
    EP0020536A1|1981-01-07|
    NO793403L|1980-04-29|
    ES251783Y|1981-11-01|
    NL7907894A|1980-04-29|
    BR7906929A|1980-06-24|
    CH652054A5|1985-10-31|
    EP0020536B1|1985-02-20|
    RO79124A|1982-06-25|
    BE879623A|1980-02-15|
    CS216687B2|1982-11-26|
    DK153742B|1988-08-29|
    AT11881T|1985-03-15|
    DK445879A|1980-04-27|
    ES251782Y|1981-11-01|
    AT374387B|1984-04-10|
    FI61649B|1982-05-31|
    ES485385A0|1981-04-16|
    IT1127798B|1986-05-21|
    FI61649C|1982-09-10|
    ES251782U|1981-05-01|
    ES251783U|1981-05-01|
    GB2034226A|1980-06-04|
    NO151779C|1985-06-05|
    PL219241A1|1980-06-02|
    IT7984147D0|1979-10-26|
    PL132096B1|1985-01-31|
    CA1120005A|1982-03-16|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CH316476A|1952-06-13|1956-10-15|Ici Ltd|Process for protecting bodies formed from metal powder against oxidation|
    FR1164348A|1956-01-10|1958-10-08|Oerlikon Buehrle Ag|Manufacturing process of extruded profiled bodies in ferrous powder|
    BE709814A|1968-01-24|1968-05-30|
    US3823463A|1972-07-13|1974-07-16|Federal Mogul Corp|Metal powder extrusion process|
    DE2419014C3|1974-04-19|1985-08-01|Nyby Bruks AB, Nybybruk|Method of manufacturing stainless steel pipes and application of the method to the manufacture of composite pipes|
    US3892030A|1974-04-29|1975-07-01|Us Air Force|Method of fabricating a billet from metal preforms and metal powder|
    DE2737248C2|1977-08-18|1985-09-19|MTU Motoren- und Turbinen-Union München GmbH, 8000 München|High strength component with a complex geometric shape and process for its manufacture|FR2492291B1|1980-10-22|1983-07-22|Uk I Sp|
    DE3530741C1|1985-08-28|1993-01-14|Avesta Nyby Powder AB, Torshälla|Process for the manufacture of powder metallurgical objects|
    US4640815A|1985-10-17|1987-02-03|Crucible Materials Corporation|Method and assembly for producing extrusion-clad tubular product|
    US4640814A|1985-10-17|1987-02-03|Crucible Materials Corporation|Method for producing clad tubular product|
    SE8603686D0|1986-09-03|1986-09-03|Avesta Nyby Powder Ab|HAUL|
    FR2704465B1|1993-04-29|1995-06-23|Alsthom Intermagnetics Sa|Mono or multifilament composite billet closure piece.|
    SE505247C2|1994-12-07|1997-07-21|Sandvik Ab|Process for manufacturing memory metal tubes|
    US5689976A|1996-10-24|1997-11-25|Ansell Edmont Industrial, Inc.|Reinforced glove and method for forming the same|
    GB201119238D0|2011-11-08|2011-12-21|Rolls Royce Plc|A hot isostatic pressing tool and a method of manufacturing an article from powder material by hot isostatic pressing|
    GB201119240D0|2011-11-08|2011-12-21|Rolls Royce Plc|A hot isostatic pressing tool and a method of manufacturing an article from powder material by hot isostatic pressing|
    CZ308392B6|2017-09-08|2020-07-22|UJP PRAHA a.s.|Powder moulding for efficient sintering|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE19782846658|DE2846658C2|1978-10-26|1978-10-26|Metallic shell for the production of extrusion billets for the powder metallurgical production of pipes|
    DE19782846660|DE2846660C2|1978-10-26|1978-10-26|Annular casing for extrusion bolts for the powder metallurgical production of pipes|
    DE19782846659|DE2846659A1|1978-10-26|1978-10-26|Powder filled capsule for use as extrusion blank - for making stainless steel or nickel-chromium alloy tubes, is isostatically pressed after filling|
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