Abrégé

222O and the like without generating toxicity. The composite coating having good osteogenesis promoting capability and good corrosion resistance can be prepared, and can be used as a biomedical degradable and corrosion-resistant magnesium alloy coating implant material. The composite coating has outstanding properties and reliability, thus making large-scale industrial production easy to realize.

Classes IPC  ?

• C25D 11/30 - Anodisation de magnésium ou de ses alliages
• C25D 11/02 - Anodisation
• C25D 11/18 - Post-traitement, p. ex. bouchage des pores

Abrégé

Provided are a composite coating on the surface of a biomedical titanium alloy and a preparation method therefor. Said coating can effectively enhance the antibacterial performance, the soft tissue affinity, and the synosteosis capacity of an implant. Firstly, sandblasting and acid etching techniques are used to treat the surface of the titanium alloy; then a layer of coating is prepared using silanization; and then by means of dropwise adding an antibacterial peptide KLA and an analog solution thereof, a sandblasted and acid etched-silanized coupled antibacterial peptide coating is prepared. By means of regulating the amino acid sequence of the antibacterial peptide, the antibacterial performance of the antibacterial peptide coating can be regulated, thereby regulating and controlling a biological reaction of bone cells, and promoting the growth of surrounding soft tissues and new bone. The method is suitable for surface treatment of a titanium alloy bone implant.

Classes IPC  ?

• A61L 27/34 - Matériaux macromoléculaires
• A61L 27/06 - Titane ou alliages de titane
• C23C 22/68 - Traitement chimique de surface de matériaux métalliques par réaction de la surface avec un milieu réactif laissant des produits de réaction du matériau de la surface dans le revêtement, p. ex. revêtement par conversion, passivation des métaux au moyen de solutions aqueuses au moyen de solutions aqueuses avec un pH compris entre 6 et 8
• A61L 27/54 - Matériaux biologiquement actifs, p. ex. substances thérapeutiques
• C25D 11/02 - Anodisation
• C07K 7/08 - Peptides linéaires ne contenant que des liaisons peptidiques normales ayant de 12 à 20 amino-acides

Abrégé

The embodiments of the present invention disclose a surface modification method for degradable pure magnesium or a degradable magnesium alloy, and a pure magnesium or magnesium alloy material, so as to solve the technical problems whereby an existing medical pure magnesium or magnesium alloy material is not resistant to corrosion and prone to bacterial infection after being implanted into a human body. The method in the embodiments of the present invention comprises the following steps: S1, pretreating pure magnesium or a magnesium alloy; S2, subjecting the pure magnesium or magnesium alloy to ion implantation by means of a metal ion implanter provided with a zinc cathode arc source; S3, subjecting the pure magnesium or magnesium alloy obtained after step S2 is completed to ion implantation by means of a metal ion implanter provided with a copper cathode arc source; S4, subjecting the pure magnesium or magnesium alloy obtained after step S3 is completed to oxygen injection by means of a gas injection machine; and S5, forming a coating, which contains copper and zinc, on the surface of the pure magnesium or magnesium alloy.

Classes IPC  ?

• C23C 14/48 - Implantation d'ions
• C23C 14/16 - Matériau métallique, bore ou silicium sur des substrats métalliques, en bore ou en silicium
• C23C 14/58 - Post-traitement
• A61L 27/04 - Métaux ou alliages
• A61L 27/30 - Matériaux inorganiques
• A61L 27/54 - Matériaux biologiquement actifs, p. ex. substances thérapeutiques
• A61L 27/58 - Matériaux au moins partiellement résorbables par le corps

Abrégé

The method for manufacturing medical magnesium screws, comprising the following steps: (1) providing a strip-shaped cylindrical magnesium rod; and (2) processing the magnesium rod into hollow magnesium screws having threads on the outer sides; (3) blowing away chippings on the magnesium screws by using high-pressure gas; (4) putting the magnesium screws into a container containing a cleaning liquid to carry out oil stain removal treatment; (5) drying the magnesium screws undergone oil stain removal to remove water; (6) measuring the size of the dried magnesium screws, performing step (7) on the screws that meet standards, and putting the screws that do not meet the standards into a waste bin; and (7) conveying the magnesium screws meeting the standards into a packaging box filled with inert gas and packaging the packaging box in a medical packaging bag. The magnesium screws manufactured by the method can continuously and effectively provide fixing and support functions before a human body is recovered, and can prevent an accident that a magnesium screw completely corrodes and disappears before the human body is completely recovered.

Classes IPC  ?

• A61B 17/86 - Chevilles ou vis

Abrégé

Provided in the present invention is an aluminum alloy filter shell die-casting part for a vehicle, relating to the technical field of filters. The aluminum alloy filter shell die-casting part for a vehicle comprises: a filter shell, the top thereof being detachably connected to a sealing cover, and the middle of each of two side walls of the filter shell being fixedly connected to an internal threaded connector; a shock absorption mechanism, which is fixedly connected to the middle of an inner cavity of the filter shell, and by means of which the shock absorption treatment during the operation of the filter shell is achieved; and a heat dissipation assembly, which is arranged on the middle of an upper surface of the sealing cover, and by means of which the heat dissipation treatment during operation of the apparatus is achieved. The aluminum alloy filter shell die-casting part for a vehicle provided by the present invention can advantageously perform an effective shock absorption treatment and heat dissipation treatment for the apparatus.

Classes IPC  ?

• H05K 5/02 - Enveloppes, coffrets ou tiroirs pour appareils électriques Détails
• F16F 15/067 - Suppression des vibrations dans les systèmes non rotatifs, p. ex. dans des systèmes alternatifsSuppression des vibrations dans les systèmes rotatifs par l'utilisation d'organes ne se déplaçant pas avec le système rotatif utilisant des moyens élastiques avec ressorts métalliques utilisant uniquement des ressorts enroulés

Abrégé

The present disclosure provides an amorphous alloy camera frame structure, which relates to the technical field of amorphous alloys. The amorphous alloy camera frame structure comprises a lifting handle and a fixing sleeve plate, the lifting handle being mounted and fixed in a middle position of an upper end of the fixing sleeve plate. In the amorphous alloy camera frame structure provided by the present disclosure, an elastic support plate is welded and fixed to the lower inner sides of a front-side amorphous alloy frame and a rear-side amorphous alloy frame, such that the sizes of the lower inner sides of the front-side amorphous alloy frame and the rear-side amorphous alloy frame can be changed. Two telescopic plates having rolling balls are respectively fixed to the left side and the right side of the fixing sleeve plate and are thus effectively welded and fixed to the front-side amorphous alloy frame and the rear-side amorphous alloy frame. Therefore, during an adjustment, a top gap between the front-side amorphous alloy frame and the rear-side amorphous alloy frame is effectively changed. Since an arc-shaped supporting plate of an elastic holding plate is welded to the lifting handle, the arc-shaped supporting plate and the lifting handle enclose to form a groove area, thereby preventing the handle from sliding and dropping off when gripped.

Classes IPC  ?

• G03B 17/56 - Accessoires

Abrégé

The present invention provides an amorphous alloy USB decorative member, and relates to the technical field of amorphous alloys. The amorphous alloy USB decorative member comprises: an inserting fixing cover and a rotating line-clamping torsion handle, wherein the rotating line-clamping torsion handle is mounted and fixed to the middle of the interior of the inserting fixing cover. According to the amorphous alloy USB decorative member provided in the present invention, a rotating line-clamping torsion handle structure is provided to facilitate the winding and use; a torsion handle end cover of the rotating line-clamping torsion handle is fixed to the inserting fixing cover in a clamped manner by means of an outer retaining ring, and a rotating bottom column at a lower end of a T-shaped sleeve groove column is fixedly connected to a line source sleeve housing in a sleeved manner, so that shaking cannot occur during winding and rotating; a semicircular stop block on an inner side of the T-shaped sleeve groove column divides the inner side of the T-shaped sleeve groove column into two areas, so that when a USB line is fixed below the semicircular stop block, the semicircular stop block is located on the inner side of the T-shaped sleeve groove column to play a good blocking role, thereby effectively preventing the USB line from falling off; and by means of a mobile phone drawing plate structure, a mobile phone is effectively fixed and placed for use.

Classes IPC  ?

• H04M 1/04 - Supports pour microphones ou écouteurs
• B65H 75/04 - Genres ou types
• B65H 75/22 - Détails de structure démontablesDétails de structure avec parties détachables

Abrégé

The present invention relates to the field of mobile phone holders, and provides a multifunctional amorphous alloy mobile phone holder. The multifunctional amorphous alloy mobile phone holder comprises a base; a wire fixing mechanism, wherein the upper surface of the base is connected to the wire fixing mechanism; and a holder mechanism, wherein the holder mechanism is connected to the wire fixing mechanism. The wire fixing mechanism comprises a turntable and a plane bearing, wherein the turntable is rotatably mounted on the upper surface of the base by means of the plane bearing; a charging wire storage recess is provided in the periphery of an outer surface of the turntable, and an outer surface of one end of the charging wire storage recess is fixedly connected to two soft rubber fixing fasteners, which are arranged vertically symmetrical; the upper surface of the turntable is detachably connected to a base plate; the upper surface of the base plate is fixedly connected to a recessed mounting block, the recessed mounting block is provided with through holes, and a rotating shaft is rotatably connected to the insides of the through holes in a damping manner by means of damping rubber gaskets; and the rotating shaft is fixedly connected to a support plate. The multifunctional amorphous alloy mobile phone holder provided in the present invention has the advantages of facilitating the winding of a mobile phone charging wire and heat dissipation.

Classes IPC  ?

• H04M 1/04 - Supports pour microphones ou écouteurs
• H04M 1/11 - Supports d'appareils, p. ex. comportant des repose-bras

Abrégé

An aluminum alloy automobile dashboard bracket welding device, comprising a base (1), a rotating mechanism (2), a lifting mechanism (3), a first cooling structure (4) and a second cooling structure (5), wherein the first cooling structure (4) is arranged on the rotating mechanism (2), while the second cooling structure (5) is arranged on the base (1) by means of the lifting mechanism (3); the lifting mechanism (3) is mounted on the base (1), and comprises a driving electric motor (31), a threaded column (32), a connecting plate (33), a limiting frame (34), a connecting member (35) and a pressure disk (36); the driving electric motor (31) is mounted on the base (1); the threaded column (32) is mounted at an output end of the driving electric motor (31); the threaded column (32) is connected to the connecting plate (33) in series; the connecting plate (33) is inserted into the limiting frame (34); the connecting member (35) is arranged on the connecting plate (33); and the pressure disk (36) is mounted on the connecting member (35).

Classes IPC  ?

• B23K 31/02 - Procédés relevant de la présente sous-classe, spécialement adaptés à des objets ou des buts particuliers, mais non couverts par un seul des groupes principaux relatifs au brasage ou au soudage
• B23K 37/00 - Dispositifs ou procédés auxiliaires non spécialement adaptés à un procédé couvert par un seul des autres groupes principaux de la présente sous-classe

Abrégé

A new energy vehicle magnesium alloy battery pack, comprising a battery box body and a mounting base. The battery box body is mounted on the surface of the mounting base; two fixed blocks are movably provided on two sides of the mounting base, respectively; the fixed blocks each comprise an adjustment plate and a mounting plate, and the mounting plate is of an "L"-shaped structure; one end of each mounting plate is perpendicular to the adjustment plate, and an adjustment rod is vertically connected to the adjustment plate; one end of each adjustment rod penetrates through the mounting base and is connected to an adjustment block; positioning rods are vertically connected to the bottom of the mounting base, and the positioning pods vertically penetrate through the adjustment plates, and extend to the surfaces of the mounting plates. In the new energy vehicle magnesium alloy battery pack, the mounting base is provided at the bottom of the battery box body, thereby facilitating overall mounting of the battery pack; the mounting plates are provided on the two sides of the mounting base, and mounting holes are formed on the mounting plates, such that the battery pack can be conveniently mounted in a new energy vehicle.

Classes IPC  ?

• H01M 50/244 - Boîtiers secondairesBâtisDispositifs de suspensionDispositifs de manutentionSupports caractérisés par leur procédé de montage
• B60K 1/04 - Agencement ou montage des ensembles de propulsion électriques des dispositifs d'emmagasinage de l'énergie électrique pour la propulsion
• B60L 50/64 - Détails de construction des batteries spécialement adaptées aux véhicules électriques

Abrégé

A magnesium alloy battery case for a new energy vehicle, comprising a housing (1). Two symmetrical isolation plates (5) are provided in the housing (1), and the isolation plates (5) are provided at the two ends of the housing (1), respectively; a fire extinguishing air bag (4) is provided between each isolation plate (5) and the inner wall of the housing (1) on the same side; a moving plate (14) is provided at one end of each isolation plate (5); the moving plates (14) are connected to the top of the housing (1) by means of guide rods; a push rod (9) is fixedly connected to the end of each moving plate (14) close to the sidewall of the housing (1); multiple baffles (8) are separately fixedly connected to the side of the push rod (9) close to the sidewall of the housing (1); multiple heat dissipation holes (7) are separately formed on the sidewalls of the housing (1); the heat dissipation holes (7) and the baffles (8) are arranged in one-to-one correspondence; electrified coils (10) are mounted at the top of the housing (1). According to the magnesium alloy battery case for a new energy vehicle, a temperature sensor (2) is provided in the housing (1), to monitor the temperature of a battery in the housing (1) in real time and give feedback in time, thereby preventing too high temperature or spontaneous combustion of the battery in the housing (1) affecting use safety of the vehicle.

Classes IPC  ?

• A62C 3/16 - Prévention, limitation ou extinction des incendies spécialement adaptées pour des objets ou des endroits particuliers dans les installations électriques, p. ex. chemins de câbles
• H01M 50/244 - Boîtiers secondairesBâtisDispositifs de suspensionDispositifs de manutentionSupports caractérisés par leur procédé de montage
• H01M 50/249 - MonturesBoîtiers secondaires ou cadresBâtis, modules ou blocsDispositifs de suspensionAmortisseursDispositifs de transport ou de manutentionSupports spécialement adaptés aux aéronefs ou aux véhicules, p. ex. aux automobiles ou aux trains

Abrégé

A battery cover plate for a new energy vehicle battery, comprising a battery cover plate. Four corners of the top of the battery cover plate are each provided with a bolt slot. Two reinforcing slots are provided inside the battery cover plate. Reinforcing ribs are provided inside both the two reinforcing slots. A positive terminal and a negative terminal are symmetrically provided at two sides of the battery cover plate. A positive pressure plate is provided inside the positive terminal, and a negative pressure plate is provided inside the negative terminal. Insulation plates are provided inside both the positive terminal and the negative terminal. The bottoms of the positive terminal and the negative terminal are fixedly connected to a positive pole and a negative pole, respectively. The bottoms of the positive pole and the negative pole are electrically connected to a positive leading plate and a negative leading plate, respectively. Heat dissipation fins are symmetrically provided at two ends of the top of the battery cover plate. An explosion-proof valve is provided inside the battery cover plate. The battery cover plate for a new energy vehicle battery has a simple and reasonable structure and a novel design, and the battery cover plate is highly applicable.

Classes IPC  ?

• H01M 50/271 - Couvercles des boîtiers secondaires, des bâtis ou des blocs
• H01M 50/249 - MonturesBoîtiers secondaires ou cadresBâtis, modules ou blocsDispositifs de suspensionAmortisseursDispositifs de transport ou de manutentionSupports spécialement adaptés aux aéronefs ou aux véhicules, p. ex. aux automobiles ou aux trains

Abrégé

A mold having a tunnel core-pulling slider, comprising a rear mold (1) and at least one core-pulling assembly (2). The rear mold comprises a rear mold core (11) and a rear mold frame (12); the rear mold frame is connected to the periphery of the rear mold core; at least one tunnel is provided in the rear mold core; the core-pulling assembly comprises a core-pulling slider (21), a guide post (22), and a slider seat (23); one end of the core-pulling slider is disposed in the inner cavity of the slider seat, and the other end of the core-pulling slider is movably disposed in the tunnel; at least one spray hole (13) is communicated on the tunnel; the slider seat and the rear mold frame are both provided with through holes; the guide post is movably inserted in the two through holes. After the mold is opened, a release agent is directly sprayed on the core-pulling slider from the spray hole to lubricate and cool the core-pulling slider, so as to avoid the occurrence of sand holes in a product caused by the sticking of the core-pulling slider, thereby effectively improving product quality.

Classes IPC  ?

• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule

Abrégé

A die-casting mold, comprising a mold plate (1), wherein the mold plate (1) is provided with a gate and riser (2), and the gate and riser (2) is in communication with a runner system (3); and the mold plate (1) is provided with several product cavities (4), the runner system (3) communicates with the product cavities (4), and exhaust systems (5) are arranged on the sides of the product cavities (4) away from the runner system (3).

Classes IPC  ?

• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule

Abrégé

A corrosion-resistant and high-temperature-resistant magnesium alloy processing equipment, comprising a workbench body (1), a dust suction port (9) and a machining fixing groove (12). Wheels (2) are fixedly mounted at four corners of the bottom of the workbench body, and the wheels are provided with wheel brakes; opening and closing doors (3) are rotatably connected to the front end of the workbench body by means of hinges; heat dissipation plates (4) are symmetrically connected to both ends of the workbench body by means of bolts; a workbench surface (5) is fixedly welded to the top of the workbench body; a protective plate (6) is fixedly welded to one end of the top of the workbench top, and baffles (7) are rotatably connected to both sides of the protective plate by means of hinges; the machining fixing groove is fixedly welded to the center of the top of the workbench surface, and the machining fixing groove is provided directly below the protective plate; and a control panel is provided close to one side of the machining fixing groove, and a plurality of control buttons are provided on the surface of the control panel. The machining equipment is simple in structure, novel in design and high in polishing, machining and shaping effects.

Classes IPC  ?

• B23K 37/00 - Dispositifs ou procédés auxiliaires non spécialement adaptés à un procédé couvert par un seul des autres groupes principaux de la présente sous-classe
• B23K 37/04 - Dispositifs ou procédés auxiliaires non spécialement adaptés à un procédé couvert par un seul des autres groupes principaux de la présente sous-classe pour maintenir ou mettre en position les pièces
• B08B 15/02 - Précautions prises pour empêcher les crasses ou les fumées de s'échapper de la zone où elles sont produitesRamassage ou enlèvement des crasses ou des fumées de cette zone par utilisation de chambres ou de hottes recouvrant cette zone

Abrégé

Disclosed is a batch surface treatment device for biomedical magnesium metal, comprising a base and supporting legs, the supporting legs being disposed at the bottom part of the base, two supporting legs being provided, and the supporting legs being located on two sides of the base respectively; a horizontal plate is provided on one side of the supporting legs, and the horizontal plate and the supporting legs are fixed by means of screws; a smelting furnace is provided at the top part of the base; a heat insulation plate is provided at the bottom part of the smelting furnace, and a heating wire is provided in the interior of the smelting furnace; a feeding port is provided on one side of the smelting furnace, and the feeding port is inserted into and fixed on the smelting furnace; and a piston is provided at the top part of the smelting furnace, and the piston is movably connected to the smelting furnace. In the present invention, magnesium and zinc melting is achieved by means of the provided smelting furnace, materials are provided for magnesium alloy wire fabrication, finished magnesium alloy wire collection is achieved by means of provided winding and unwinding rollers, and working efficiency is improved.

Classes IPC  ?

• F27D 3/14 - Chargement ou déchargement d'un matériau liquide ou fondu
• B22D 18/02 - Coulée avec pression, utilisant des dispositifs presseurs mécaniques, p. ex. matriçage semi-liquide
• B22D 27/04 - Action sur la température du métal, p. ex. par chauffage ou refroidissement du moule

Abrégé

A large part molding machine for semisolid aluminum alloy processing, comprising a working table (1). An electromagnetic induction melting furnace (2) is provided on one side of the top of the working table (1), a feed chute (3) is provided on the side, located at a feed port, of the top of the electromagnetic induction melting furnace (2), a feed cover (4) is provided at the top end of the feed port, a conveying pipe (5) is provided at the bottom of the electromagnetic induction melting furnace (2), a molding groove (6) is provided at one end of the conveying pipe (5), and support columns (7) are provided at two ends of each of two sides of the molding groove (6). According to the large part molding machine for semisolid aluminum alloy processing, the electromagnetic induction melting furnace (2) is mounted at one side of the molding groove (6), aluminum waste is molten into a solution by the electromagnetic induction melting furnace (2), is delivered into the molding groove (6) by the conveying pipe (5) under the action of a solenoid valve (14), and is cooled into a semisolid aluminum alloy under the action of a cooling apparatus (11). Manual conveying is replaced with the conveying using the conveying pipe (5), such that the working efficiency is greatly improved. The large part molding machine for semisolid aluminum alloy processing is simple in molding processes and easy to use.

Classes IPC  ?

• B22D 17/02 - Machines à chambres chaudes, c.-à-d. avec chambre de presse préchauffée dans laquelle le métal est fondu
• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule
• B22D 17/00 - Coulée sous pression ou moulage par injection, c.-à-d. moulage en introduisant le métal dans le moule sous haute pression
• C22C 1/02 - Fabrication des alliages non ferreux par fusion

Abrégé

An amorphous alloy die-casting device, comprising a base (1). A smelting cavity, a connecting pipe (3), an injection pump (4), a conveying pipe (5), and a lower pressing die (6) are sequentially mounted on one side of the top end of the base (1); a cooling pipe (7) is fixedly connected to one side of the lower pressing die (6); a water storage tank (8) is fixedly connected to one side of the cooling pipe (7); an air suction pump (9) is fixedly connected to the other side of the lower pressing die (6); a fixed frame (10) is fixedly mounted on the other side of the top end of the base (1); an air cylinder (11) is fixedly mounted on one side of the top end of the fixed frame (10); an upper pressing die (12) is fixedly mounted on one side of the bottom end of a telescopic head of the air cylinder (11); guide columns (13) are fixedly mounted on one side of the top end of the upper pressing die (12). The amorphous alloy die-casting device can solve the problem of deformation of a formed amorphous alloy part due to the fact that a movable mold and a fixed mold are not tightly locked, and the problem of low production efficiency caused by low cooling efficiency of a die casting process.

Classes IPC  ?

• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule

Abrégé

A mold runner for high-pressure casting. The mold runner comprises a runner structure (1). The runner structure comprises a gate-riser (101), a runner tube (102), a first ingate (103) and a second ingate (104), wherein the gate-riser is positioned at the top end of the runner tube; the first ingate and the second ingate are both positioned at the end of the runner tube that is away from the gate-riser; the first ingate and the second ingate are symmetrically distributed and positioned at the same side of the runner tube; the first ingate and the second ingate both penetrate a side wall of the runner tube; and a casting mold is fixedly mounted on sides of the first ingate and the second ingate that are away from the runner tube. The mold runner is simple in terms of structure and can improve product quality, reduce the defect rate and save on costs.

Classes IPC  ?

• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule

Abrégé

A peripheral annular mold pouring gate for high-pressure casting, comprising a first mold pouring gate (1), a second mold pouring gate (5) and a main runner (9), wherein the first mold pouring gate (1) and the second mold pouring gate (5) form a rectangular frame structure and are used for the peripheral annular mold pouring gate, and a plurality of pouring inlets are provided at outer sides of the first mold pouring gate (1) and the second mold pouring gate (5), and the first mold pouring gate (1) and the second mold pouring gate (5) are connected to the main runner (9) by means of independent runner branches. In the mold pouring gate, which is configured to be of an upper and lower split-type structure and is combined to form an integral rectangular structure, the plurality of inlet gates are provided at the periphery of the outer side of the pouring gate, such that pouring is more uniform, thereby forming products of a rectangular structure, and preventing the problems of casting defects such as undercasting, cold lines, shrinkage, and sand holes in forming from occurring.

Classes IPC  ?

• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule

Abrégé

An ox horn-shaped mold runner for high-pressure casting. The mold runner comprises a casting head (1). A first branch runner (2) and a second branch runner (3) extend outwardly from one side of the casting head (1), and a flowing-out end of the first branch runner (2) is provided with a first inlet gate (4) and a second inlet gate (5) in an outwardly extending manner; the first inlet gate (4) and the second inlet gate (5) are respectively connected to a first casting product (8), and the other end of the first casting product (8) is connected to a first exhaust passage (10); a flowing-out end of the second branch runner (3) is provided with a third inlet gate (6) and a fourth inlet gate (7) in an outwardly extending manner, the third inlet gate (6) and the fourth inlet gate (7) are respectively connected to a second casting product (9), and the other end of the second casting product (9) is connected to a second exhaust passage (11). This mold layout or gate design is not limited to a runner branch shape, and comprises a mold layout of two produced in one time or four produced in one time or other quantities, thereby saving manufacturing cost.

Classes IPC  ?

• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule

Abrégé

A magnesium alloy material-based high vacuum precision die casting technique for new energy vehicles, comprising the following operating steps: preparing the magnesium alloy material, melting the magnesium alloy material, die casting the molten magnesium alloy, and cooling automobile parts.

Classes IPC  ?

• B22D 21/04 - Coulée d'aluminium ou de magnésium
• B22D 17/14 - Machines dans lesquelles le vide a été fait dans le moule
• C22C 23/02 - Alliages à base de magnésium avec l'aluminium comme second constituant majeur
• C22C 1/03 - Fabrication des alliages non ferreux par fusion utilisant des alliages-mères
• B22D 17/00 - Coulée sous pression ou moulage par injection, c.-à-d. moulage en introduisant le métal dans le moule sous haute pression
• B22D 18/00 - Coulée avec pression Coulée avec le vide

Abrégé

A diecast laptop keyboard housing capable of improving die casting erosion, comprising a square front housing, and four side wall housings extending from four sides of the square front housing. The square front housing comprises a peripheral housing, and a first inner housing and a second inner housing that are surrounded by the peripheral housing and integrated with the peripheral housing; the first inner housing and the second inner housing are respectively provided in a sinking manner with respect to the peripheral housing, and a sinking depth of the second inner housing with respect to the peripheral housing is greater than a sinking depth of the first inner housing with respect to the peripheral housing; the first inner housing is located directly in front of the second inner housing, and an inclined bridge housing is connected between the first inner housing and the second inner housing; a reinforcing rib bar adjacent to the inclined bridge housing protrudes from the second inner housing, and the reinforcing rib bar extends along a left-right direction of the square front housing; the first inner housing is provided with die casting process holes located directly in front of the reinforcing rib bar, the die casting process holes extend along the left-right direction of the square front housing, and the right-left dimensions of the die casting process holes are smaller than the right-left dimension of the reinforcing rib bar, so that the defect of the reinforcing rib bar being eroded during die casting is solved.

Classes IPC  ?

• G06F 3/02 - Dispositions d'entrée utilisant des interrupteurs actionnés manuellement, p. ex. des claviers ou des cadrans

Abrégé

A precise cavity die for die-casting molding, comprising a base (1), an upper die plate (4) and a lower die plate (3); a guide groove (8) is provided on both the left and right sides of a bottom portion of the upper die plate, a guide sleeve (9) is fixedly assembled in each guide groove, a positioning column (10) fitting the guide sleeve is fixedly provided on both the left and right sides of a top portion of the lower die plate, a limiting ring (12) provided on an outer side of a lower die cavity (6) is fixed to the top portion of the lower die plate, an exhaust hole (13) is provided on an inner wall of the lower die cavity, a die release hole (14) provided on the lower die plate is provided on both the left and right sides of the lower die cavity, a die release cavity (15) is provided in the base, an accommodating cavity (18) is provided below the die release cavity, a push plate (16) is movably provided in the die release cavity, a die release rod (17) is fixedly provided on both the left and right sides of a top portion of the push plate, a guide column (19) is fixedly provided at the center of a bottom portion of the push plate, a guide block (20) fitting the guide column is movably assembled on a bottom portion in the accommodating cavity, a screw rod (21) is movably assembled on the right side wall of the guide block by means of a bearing, and the right end of the screw rod extends out of the right side wall of the base. The positioning columns and the guide sleeves in the guide grooves of the precise cavity die are fitted well, and do not fall off easily, improving the assembly reliability, and realizing self-release of a die, and the operation is convenient.

Classes IPC  ?

• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule

Abrégé

A testing device, comprising a rack (1); a first cylinder (6) is fixedly mounted on the rack (1), an output shaft of the first cylinder (6) is connected to an impact head (7) for performing an impact test on a part to be tested of a product, the impact head (7) can move in a Z-axis direction under the driving of the first cylinder (6); a second cylinder (2) is fixedly mounted on the rack (1), a cylinder shaft of the second cylinder (2) is connected to a placement platform (3) for placement of the product, the placement platform (3) comprises a back plate (4), placement grooves (5) for placement of said part of the product are provided at the top of the back plate (4), and the second cylinder (2) can drive the placement platform (3) to move in an X-axis direction, so that the placement grooves (5) are located below the impact head (7). The testing device can solve the technical problem in the prior art of lacking a device for testing the welding quality between an electrode rod having a heating tube and a terminal piece.

Classes IPC  ?

• G01N 3/30 - Recherche des propriétés mécaniques des matériaux solides par application d'une contrainte mécanique en appliquant une force unique et brève

Abrégé

A high vacuum die-casting mold (100), comprising a pressure chamber cavity (10), a spray head (20), a vacuum valve (60), a vacuum channel (70), a piston rod (80), a vacuum pump (91), a connecting pipe (92), a die-casting fixed mold (30) and a die-casting movable mold (40) cooperating with the die-casting fixed mold for mold opening and closing. A forming cavity (50) is formed by the die-casting movable mold together with the die-casting fixed mold in an enclosed manner during mold closing, the pressure chamber cavity penetrates through the die-casting fixed mold and is provided with a pressure chamber channel (11) and a pouring port (12), the pouring port is located on a side wall of the pressure chamber channel, and the spray head is slidably fitted in the pressure chamber channel; the vacuum channel is provided at the die-casting movable mold, a first end thereof is in communication with the forming cavity, and a second end is in communication with a first end of the connecting pipe, a second end of the connecting pipe sequentially assembles the vacuum valve and the vacuum pump in series, and the piston rod penetrates through the die-casting movable mold and selectively opens or closes the first end of the vacuum channel. The high vacuum die-casting mold can rapidly achieve vacuumizing of the forming cavity, has a good vacuumizing effect, greatly improves the internal quality of a product, and allows for heat treatment of a casting.

Classes IPC  ?

• B22D 17/14 - Machines dans lesquelles le vide a été fait dans le moule
• B22D 17/32 - Appareillage de commande
• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule

Abrégé

A flame-resistant magnesium alloy and a preparation method therefor, relating to the fields of magnesium based alloys and alloying. According to the magnesium alloy, a certain quantity of calcium and yttrium are added by using a smelting metallurgy method on the basis of die casting of the magnesium alloy. The preparation method for the magnesium alloy comprises: preparation of materials, preheating, feeding, smelting, refining and slag removal, slagging and die casting. While excellent die casting manufacturability and low cost of a die cast magnesium alloy are maintained, an ignition point of the die cast magnesium alloy can be remarkably increased, and high-temperature oxidation resistance of the magnesium alloy is improved, so that the flame resistance is improved, and an application range of the magnesium alloy is further expanded.

Classes IPC  ?

• C22C 23/02 - Alliages à base de magnésium avec l'aluminium comme second constituant majeur
• C22C 1/02 - Fabrication des alliages non ferreux par fusion
• C22C 1/03 - Fabrication des alliages non ferreux par fusion utilisant des alliages-mères

Abrégé

A continuous precision forming device and process for an amorphous alloy is provided. By means of the device, when a melting platform with an alloy melt is rotated from the melting position to a position just below the forming mould (9), temperature of the alloy melt can be in the range of the overcooled liquid zone temperature of the alloy melt, and then a loading rod (7) drives the forming mould (9) to proceed with pressing forming. According to the process, press-forming is carried out in a certain temperature interval in the amorphous alloy melt solidification process, and the heating, cooling, solidification and forming in the forming process are coordinated, such that continuous forming of the amorphous alloy is achieved.

Classes IPC  ?

• B22D 18/06 - Coulée par le vide, c.-à-d. utilisant le vide pour remplir le moule
• C22C 1/00 - Fabrication des alliages non ferreux

Abrégé

The present invention relates to a high hardness amorphous composite, a method of preparing the high hardness amorphous composite and application thereof. The high hardness amorphous composite includes a basic alloy component, a hard additive and a bonding additive. The basic alloy component includes 45-60 mole % Zr, 5-10 mole % Hf, 5-15 mole % Al, 8-22 mole % Ni and 6-14 mole % Cu, the hard additive is ZrC or WC nanometer powder with addition amount at 12-26 wt % of the basic alloy component, particle diameter of the WC nanometer powder is 10-100 nm, and the bonding additive is any one or two selected from groups of Re, W or Mo with addition amount at 4-8 wt % of the basic alloy component. The high hardness Zr-based amorphous composite with good workability and formability is provided by improving composition of alloy based on Zr—Al—Ni—Cu, adding new component and adjusting component content.

Classes IPC  ?

• C22C 45/10 - Alliages amorphes avec le molybdène, le tungstène, le niobium, le tantale, le titane ou le zirconium comme constituant majeur
• C22C 1/02 - Fabrication des alliages non ferreux par fusion
• C22C 32/00 - Alliages non ferreux contenant entre 5 et 50% en poids d'oxydes, de carbures, de borures, de nitrures, de siliciures ou d'autres composés métalliques, p. ex. oxynitrures, sulfures, qu'ils soient soient ajoutés comme tels ou formés in situ
• C22C 1/10 - Alliages contenant des composants non métalliques
• C22F 1/18 - Métaux réfractaires ou à point de fusion élevé ou leurs alliages

Abrégé

Provided is an equipment for bulk amorphous alloy high-vacuum die-casting and forming, mainly comprising a high-vacuum pressure chamber, a high-vacuum induction heating system, and a high-vacuum mold system. The equipment is used mainly for fabricating bulk amorphous alloy members, and is capable of performing bulk amorphous alloy member high-vacuum casting and forming under the protection of a high vacuum or an inert gas. The high-vacuum induction heating system uses coaxial electrodes to heat and melt an alloy; heating efficiency is effectively increased, while the system is also organically incorporated with a vacuumization channel; thus the structure of the cavity is simplified, high vacuumization efficiency is achieved, and a high vacuum is created. The invention also relates to a process for bulk amorphous alloy high-vacuum die-casting and forming.

Classes IPC  ?

• B22D 17/14 - Machines dans lesquelles le vide a été fait dans le moule
• B22D 17/08 - Machines à chambre froide, c.-à-d. dont la chambre de presse où on verse le métal liquide, n'est pas préchauffée
• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule

Abrégé

Disclosed are a continuous precision forming device and process for an amorphous alloy or a composite material thereof, belonging to the technical field of amorphous alloys. By means of the device, when a melting platform with an alloy melt is rotated from the melting position to just below the forming mould (9), the temperature of the alloy melt can be in the range of the overcooled liquid zone temperature of the alloy, and then a loading rod (7) drives the forming mould (9) to press-form the alloy. According to the process, a certain temperature interval in the amorphous alloy melt solidification process is used, so that pressure precision forming is carried out on the amorphous alloy; and the heating, cooling, solidification and forming in the forming process are coordinated organically, such that continuous forming of the amorphous alloy is achieved.

Classes IPC  ?

• B22D 18/02 - Coulée avec pression, utilisant des dispositifs presseurs mécaniques, p. ex. matriçage semi-liquide
• C22C 1/02 - Fabrication des alliages non ferreux par fusion

Abrégé

A high hardness amorphous composite material and a preparation method thereof, comprising: a base alloy part, a hardness adding part and a bonding adding part. The elemental composition and atomic mole percentages of the base alloy part are: Zr: 45-60%, Hf: 5-10%, Al: 5-15%, Ni: 8-22%, Cu: 6-14%. The hardness adding part is ZrC or WC nanometer powder, with the adding amount being 12-26% of the mass of the base alloy part, and the particle size of the WC nanometer powder being 10-100nm. The binding adding part is one or two of Re, W and Mo elements, with addition amount being 4-8% of the mass of the base alloy part. The preparation method of the composite material is comprised of mixing the raw material of the base alloy part, the hardess adding part and the binder adding part and then melting, then controlled cooling casting, and ingot molding.

Classes IPC  ?

• C22C 45/10 - Alliages amorphes avec le molybdène, le tungstène, le niobium, le tantale, le titane ou le zirconium comme constituant majeur
• C22C 32/00 - Alliages non ferreux contenant entre 5 et 50% en poids d'oxydes, de carbures, de borures, de nitrures, de siliciures ou d'autres composés métalliques, p. ex. oxynitrures, sulfures, qu'ils soient soient ajoutés comme tels ou formés in situ
• C22C 1/02 - Fabrication des alliages non ferreux par fusion
• C22C 1/10 - Alliages contenant des composants non métalliques

Abrégé

A high-toughness amorphous composite material, a preparation method therefor and an application thereof, the high-toughness amorphous composite material being prepared to comprise a base alloy part and a toughness enhancement part; the element composition and respective atom molar percentage contents of the base alloy part being: Zr: 45-65%, Hf: 5-15%, Al: 10-20%, Ni: 10-20%, an M1 component: 5-10% and an M2 component: 2-8%; the M1 component being one or more of the elements Sn, Bi, Si and Cu; the M2 component being one or both of the elements Ag and Pd; the purity of each of the elements in the base alloy part being greater than 99.9%; the toughness enhancement part being one or more of WC, SiC, TiC, TiN and ZrC nanometer powder, the amount of which is 2-10% of the volume of the base alloy part. The amorphous composite material has good impact toughness, and is characterized by achieving, without any need for machining, excellent toughness and impact resistance.

Classes IPC  ?

• C22C 45/10 - Alliages amorphes avec le molybdène, le tungstène, le niobium, le tantale, le titane ou le zirconium comme constituant majeur
• C22C 32/00 - Alliages non ferreux contenant entre 5 et 50% en poids d'oxydes, de carbures, de borures, de nitrures, de siliciures ou d'autres composés métalliques, p. ex. oxynitrures, sulfures, qu'ils soient soient ajoutés comme tels ou formés in situ
• C22C 1/10 - Alliages contenant des composants non métalliques

Abrégé

An anti-abrasive and anti-corrosive amorphous alloy, which is composed of ZraHfbAlcNidM1eM2f, wherein a, b, c, d, e and f are the corresponding atomic percentage contents in the amorphous alloy, and are respectively 35%≤a≤55%, 4%≤b≤15%, 4%≤c≤15%, 5%≤d≤20%, 6%≤e≤10%, 5%≤f≤15%; M1 is one of or a mixture of more of Si, Cr, Pt, Pd, Au and Ag elements, and M2 is one of or a mixture of more of Cu, Zn, Mn and Fe elements. The amorphous alloy material can remarkably improve the special corrosion and abrasion such as corrosive abrasion and scouring abrasion which are caused due to the contact between equipment and a moving fluid, and at the same time the forming performance of the amorphous alloy material is good, the preparation process is simple, and the amorphous alloy is suitable for industrial production.

Classes IPC  ?

• C22C 45/00 - Alliages amorphes
• C22C 45/10 - Alliages amorphes avec le molybdène, le tungstène, le niobium, le tantale, le titane ou le zirconium comme constituant majeur
• C22C 1/02 - Fabrication des alliages non ferreux par fusion

Abrégé

A high-strength amorphous alloy, which is composed of ZraAlbCucNidBeeSnfM1gM2h, wherein a, b, c, d, e, f, g and h are the corresponding atomic percentage contents in the amorphous alloy, and are respectively 40%≤a≤70%, 5%≤b≤30%, 5%≤c≤15%, 5%≤d≤15%, 0.05%≤e≤3%, 0.2%≤f≤4%, 0.5%≤g≤5%, 1%≤h≤5%; M1 is one or more of Hf, Ta and lanthanide elements, and M2 is one or more of Ti, Sc, Fe and Co elements.The amorphous alloy is high in strength, good in plasticity and suitable as die materials and mechanical structural materials.

Classes IPC  ?

• C22C 45/00 - Alliages amorphes
• C22C 1/02 - Fabrication des alliages non ferreux par fusion

Produits et services

Shaft couplings [machines]; Connecting rods for machines, motors and engines; Pulleys [parts of machines]; Steam/oil separators; Pressure reducers [parts of machines]; Reeling apparatus, mechanical; Guides for machines; Milling machines; Metalworking machines; Robots [machines].

Abrégé

A casting and molding equipment for producing an amorphous alloy structural unit, including an injection system, an alloy melting system, a material feeding system, a mold system, a vacuum system, and a protective gas supply system. The injection system includes an injection tube, an injection mechanism, and a plunger rod; the plunger rod is adapted to move along an inner wall of the injection tube, and the injection mechanism is configured to control a moving direction and moving speed of the plunger rod. The alloy melting system includes a melting chamber and a heating unit; the heating unit is configured to melt an alloy material in the melting chamber; the heating unit includes an induction coil or resistance wire; the melting chamber is disposed in the injection tube, and the heating unit is disposed out of the injection tube.

Classes IPC  ?

• B22D 21/02 - Coulée de métaux non ferreux très oxydables, p. ex. atmosphère inerte
• B22D 17/02 - Machines à chambres chaudes, c.-à-d. avec chambre de presse préchauffée dans laquelle le métal est fondu
• B22D 17/04 - Machines à plongeur
• B22D 25/06 - Coulée particulière caractérisée par la nature du produit par ses propriétés physiques
• B22D 17/00 - Coulée sous pression ou moulage par injection, c.-à-d. moulage en introduisant le métal dans le moule sous haute pression
• B22D 17/10 - Machines à chambre froide, c.-à-d. dont la chambre de presse où on verse le métal liquide, n'est pas préchauffée avec mouvement horizontal de la presse
• B22D 17/14 - Machines dans lesquelles le vide a été fait dans le moule
• B22D 17/20 - AccessoiresCoulée sous pression ou moulage par injection, c.-à-d. moulage en introduisant le métal dans le moule sous haute pression Parties constitutives
• B22D 17/22 - Moules métalliquesPlaques de moulesSupports de moulesÉquipement de refroidissement des moulesAccessoires pour l'extraction et l'éjection des pièces hors du moule
• B22D 17/26 - Mécanismes ou dispositifs de fermeture ou d'ouverture des moules
• B22D 17/28 - Creusets
• B22D 17/30 - Accessoires pour l'alimentation en métal liquide, p. ex. en quantités bien définies
• B22D 27/00 - Traitement du métal dans le moule pendant qu'il est liquide ou plastique
• B22D 27/15 - Traitement du métal dans le moule pendant qu'il est liquide ou plastique en employant le vide
• F27D 11/06 - Chauffage par induction, c.-à-d. dans lequel le matériau à chauffer ou son contenant, ou bien les éléments incorporés dans celui-ci, constitue le secondaire d'un transformateur

Abrégé

A method for forming an amorphous alloy member. In the method, within a temperature range from the liquidus temperature to the glass transition temperature in the solidification process of a molten amorphous alloy, low-pressure precision forming is carried out for the amorphous alloy. The method makes use of a smooth, free surface formed after the molten alloy solidifies, good deformation property and low shrinkage coefficient during solidification, to obtain an amorphous alloy member that has high dimensional precision, high surface smoothness and a compact structure without defects such as shrinkage cavities and shrinkage porosity. The method features a short technological process, high production efficiency, and reduced costs.

Classes IPC  ?

• C22C 45/00 - Alliages amorphes

Abrégé

A method for combining amorphous alloy members (10) and a nonmetal member (20), and a product thereof. The method comprises: arranging two or more amorphous alloy members (10) on the periphery of the nonmetal member (20), heating the amorphous alloy members (10) and pressurizing the amorphous alloy members (10) to make corresponding or contact parts of the adjacent amorphous alloy members (10) fused together, wherein the heating temperature for the amorphous alloy members (10) ranges between the glass transition temperature and crystallization temperature of the amorphous alloy members (10). According to the method, because an amorphous alloy is characterized by superplasticity in a supercooled liquid phase region, at the temperature of the supercooled liquid phase region, that is, at the temperature ranging between the glass transition temperature and crystallization temperature of the amorphous alloy, the amorphous alloy is softened and deformed by pressurization, and accordingly, preset nonmetal materials are wrapped by the amorphous alloy or are combined with the amorphous alloy in other manners, and the combination performance is stable; in addition, the method has low requirement for equipment and processes, the cost is low, the obtained product can meet the utilization requirement without subsequent complex machining, and the method is suitable for batch production.

Classes IPC  ?

• B23K 20/00 - Soudage non électrique par percussion ou par une autre forme de pression, avec ou sans chauffage, p. ex. revêtement ou placage
• B23K 33/00 - Extrémités de pièces spécialement profilées pour effectuer des assemblages brasés ou soudésRemplissage des joints continus ainsi formés

Abrégé

A bulk amorphous alloy, including, based on atomic percentage amounts, between 41 and 63% of Zr, between 18 and 46% of Cu, between 1.5 and 12.5% of Ni, between 4 and 15% of Al, between 0.01 and 5% of Ag, and between 0.01 and 5% of Y.

Classes IPC  ?

• C22C 45/10 - Alliages amorphes avec le molybdène, le tungstène, le niobium, le tantale, le titane ou le zirconium comme constituant majeur
• C22F 1/18 - Métaux réfractaires ou à point de fusion élevé ou leurs alliages
• C22C 1/00 - Fabrication des alliages non ferreux
• C22C 1/03 - Fabrication des alliages non ferreux par fusion utilisant des alliages-mères

Abrégé

Provided are a Zr-Cu-Ni-Al-Ag-Y bulk amorphous alloy, and a preparation method and an application thereof. The ingredients of the alloy are: 41%-63% of Zr, 18%-46% of Cu, 1.5%-12.5% of Ni, 4%-15% of Al, 0.01%-5% of Ag and 0.01%-5% of Y, by atomic percentage. The amorphous alloy is prepared by using a copper mold casting method and can be used as part of an antibacterial material required in many fields.

Classes IPC  ?

• C22C 45/00 - Alliages amorphes
• C22C 45/10 - Alliages amorphes avec le molybdène, le tungstène, le niobium, le tantale, le titane ou le zirconium comme constituant majeur

Abrégé

Provided is a device for casting forming of amorphous alloy components. The device comprises an injection system, an alloy smelting system, a raw material feeding system, a mould system, a vacuum system and a protective atmosphere system. The device is used for the preparation of the amorphous alloy components, and can realize the formation by squeezing casting of the amorphous alloy components under a vacuum or a protective atmosphere with a positive pressure. The device is provided with an exhaust port on the mould to solve the problem of forming micro shrinkage cavities on the surface in the process of forming the alloy components so as to improve the quality of the amorphous alloy components. A high vacuum tank or a protective atmosphere tank is used to reach an acquisition time for the vacuum or the protective atmosphere with a positive pressure so as to shorten the forming period, save on production cost, and improve the production efficiency.

Classes IPC  ?

• B22D 17/10 - Machines à chambre froide, c.-à-d. dont la chambre de presse où on verse le métal liquide, n'est pas préchauffée avec mouvement horizontal de la presse

Abrégé

Provided is a device for casting forming of amorphous alloy components. The device comprises an injection system, an alloy smelting system, a raw material feeding system, a mould system, a vacuum system and a protective atmosphere system. The vacuum system comprises a vacuum tank (6). The protective atmosphere system comprises a gas cylinder (1) for a protective atmosphere. The vacuum tank or the gas cylinder for a protective atmosphere is provided to effectively realize the acquisition of a vacuum or a protective atmosphere with a positive pressure in the forming process so as to achieve the casting forming of the amorphous alloy components under the protection of the vacuum and the protective atmosphere with a positive pressure. The mould is provided with an exhaust port to prevent the formation of micro shrinkage cavities on the surface in the process of forming the alloy components. Also provided is a process for the casting forming of the amorphous alloy components. The device and process substantially reduce the space of the vacuum or the protective atmosphere with a positive pressure, and can improve the quality of the amorphous alloy components, save on cost and improve the production efficiency.

Classes IPC  ?

• B22D 17/02 - Machines à chambres chaudes, c.-à-d. avec chambre de presse préchauffée dans laquelle le métal est fondu
• B22D 17/04 - Machines à plongeur
• B29C 45/00 - Moulage par injection, c.-à-d. en forçant un volume déterminé de matière à mouler par une buse d'injection dans un moule ferméAppareils à cet effet

Abrégé

Provided is a device for the casting forming of amorphous alloy components. The device comprises an injection system, an alloy smelting system, a raw material feeding system, a mould system, a vacuum system and a protective atmosphere system, which are used for the preparation of the amorphous alloy components, and can realize the formation by squeezing casting of the amorphous alloy components under a vacuum or a protective atmosphere with a positive pressure. The device is provided with an exhaust port on the mould to effectively solve the problem of forming micro shrinkage cavities on the surface in the process of forming the alloy components so as to improve the quality of the amorphous alloy components. Also provided is a process for the casting forming of the amorphous alloy components. A high vacuum tank or a protective atmosphere tank is used to reach an acquisition time of the vacuum or protective atmosphere with a positive pressure so as to shorten the forming period, save the production cost, and improve the production efficiency.

Classes IPC  ?

• B22D 17/10 - Machines à chambre froide, c.-à-d. dont la chambre de presse où on verse le métal liquide, n'est pas préchauffée avec mouvement horizontal de la presse

Abrégé

A biodegradable pure magnesium bone nail comprises a rod-shaped pure magnesium screw bone nail (1). From the bottom of a crossed groove (4), for turning a screw, of a tip of the screw bone nail (1), an axial hole (2) whose length is 2/3 of that of a rod of the screw bone nail is manufactured. In the length of the axial hole (2) of the screw bone nail (1), several radial holes (3) are uniformly manufactured from the bottom of thread into the axial hole (2) at 90 degrees.

Classes IPC  ?

• A61B 17/86 - Chevilles ou vis