CN204982024U - Legal system of infiltrating is equipped with carborundum particles reinforced magnesium base combined material's device - Google Patents

Abstract

The utility model discloses a legal system of infiltrating is equipped with carborundum particles reinforced magnesium base combined material's device, including the pit furnace and the device that infiltrates, infiltrate the setting of device lower part in the pit furnace, the device that infiltrates includes left return bend, right side return bend, the prefabricated body flange in a left side, the prefabricated body flange in the right side, left side flange and right flange, the both ends of left side return bend respectively with left flange and the prefabricated body flange joint in a left side, the both ends of right side return bend respectively with right flange and the prefabricated body flange joint in the right side, prefabricated body flange in a left side and the prefabricated body flange joint in the right side, left side flange top is equipped with connected left sealing flange, be connected with vacuum tube on the sealing flange of a left side, right side flange top is equipped with connected right sealing flange, be connected with the protection trachea on the sealing flange of the right side. The utility model discloses simple structure, convenient operation has solved the oxidation problem of magnesium alloy, has improved the prefabricated body speed of infiltrating to prepare out excellent performance's combined material, simple and easy equipment has improved the life of equipment.

Description

A device for preparing silicon carbide particle-reinforced magnesium-based composite materials by impregnation method

technical field

The utility model relates to a preparation device for a magnesium-based composite material, in particular to a device for preparing a magnesium-based composite material reinforced with silicon carbide particles by an impregnation method.

Background technique

Because silicon carbide particles reinforced magnesium matrix composites have high specific strength, specific stiffness, excellent thermal conductivity, thermal expansion coefficient and bending resistance, and good vibration damping, excellent wear resistance, corrosion resistance, low cost, etc. , and magnesium alloy is a kind of light metal recyclable composite material, so its research and industrial application are becoming more and more popular. The existing silicon carbide particle-reinforced magnesium-based composite material preparation devices have the following disadvantages: (1) Due to the long time required for the impregnation process at high temperature, and the magnesium alloy is easily oxidized, the existing preparation devices generally have insufficient protection and cannot Completely avoid the entry of oxygen; (2) the existing preparation device exerts pressure on the mold for a long time in a high temperature state, so that the service life of the mold is extremely limited; (3) the existing preparation device needs to design a pressurized mold to pressurize the molten metal, The cost is high and there is a high requirement for the strength of the mold; (4) After the existing preparation device is used, there is a large amount of magnesium alloy residue at room temperature, which is difficult to clean up.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the above-mentioned prior art, and provide a device for preparing silicon carbide particle-reinforced magnesium-based composite materials by impregnation method. Applying pressure increases the impregnation speed of the prefabricated body, thereby preparing a composite material with excellent performance; at the same time, the equipment is simplified, the service life of the equipment is improved, and the cost of manufacturing and use is saved.

In order to achieve the above object, the technical solution adopted by the utility model is: a device for preparing silicon carbide particle reinforced magnesium-based composite material by infiltration method, which is characterized in that it includes a pit furnace and an infiltration device, and the infiltration device The lower part is set in the well-type furnace. The impregnation device includes a left curved pipe, a right curved pipe, a left prefabricated body flange, a right prefabricated body flange, a left connecting flange and a right connecting flange. The left curved pipe The upper end is fixedly connected to the lower end of the left connecting flange, the lower end of the left curved pipe is fixedly connected to the left end of the left prefabricated body flange, the upper end of the right curved pipe is fixedly connected to the lower end of the right connecting flange, and the right curved pipe is fixedly connected to the lower end of the right connecting flange. The lower end of the pipe is fixedly connected to the right end of the right prefabricated body flange, and the left prefabricated body flange and the right prefabricated body flange are provided with prefabricated body placement slots for placing the prefabricated body, and the left prefabricated body flange and the right prefabricated body flange The flange of the prefabricated body is fixedly connected by a first screw, and a left sealing flange is arranged above the left connecting flange, and the left sealing flange and the left connecting flange are fixedly connected by a second screw, and the left sealing flange The upper end is fixedly connected with a vacuum tube whose upper end passes through the furnace cover of the pit type furnace. Both the left sealing flange and the left connecting flange are provided with a left through hole communicating with the vacuum tube. Above the right connecting flange is a The right sealing flange, the right sealing flange and the right connecting flange are fixedly connected by a third screw, and the right sealing flange is fixedly connected with a protective gas pipe whose upper end passes through the well-type furnace cover. The right sealing method Both the flange and the right connecting flange are provided with a right through hole communicating with the protective gas pipe.

The above-mentioned device for preparing silicon carbide particle-reinforced magnesium-based composite materials by impregnation method is characterized in that: the left and right curved pipes are symmetrically arranged left and right, and the left and right prefabricated body flanges are left and right Symmetrically arranged, the left connecting flange and the right connecting flange are arranged symmetrically left and right, and the left sealing flange and the right sealing flange are arranged symmetrically left and right.

The above-mentioned device for preparing silicon carbide particle-reinforced magnesium-based composite materials by the impregnation method is characterized in that: the connection between the left curved pipe and the left connecting flange is welding, and the left curved pipe and the left prefabricated body flange The connection method is welding, the connection method between the right curved pipe and the right connecting flange is welding, the connection method between the right curved pipe and the right prefabricated body flange is welding, and the connection between the vacuum pumping pipe and the left sealing flange The method is welding, and the connection method between the shielding gas pipe and the right sealing flange is welding.

The above-mentioned device for preparing silicon carbide particle-reinforced magnesium-based composite materials by the impregnation method is characterized in that: the center of the left preform flange and the right preform flange are both provided with preform placement grooves.

The above-mentioned device for preparing silicon carbide particle-reinforced magnesium-based composite materials by the impregnation method is characterized in that: the vacuum pumping tube and the protective gas tube are arranged symmetrically on the left and right.

The device for preparing silicon carbide particle-reinforced magnesium-based composite materials by the above-mentioned impregnation method is characterized in that: the centers of the left sealing flange and the left connecting flange are provided with a left through hole, and the right sealing flange and The center of the right connecting flange is provided with a right through hole.

The above-mentioned device for preparing silicon carbide particle-reinforced magnesium-based composite materials by the impregnation method is characterized in that: the well-type furnace is a resistance furnace.

The above-mentioned device for preparing silicon carbide particle-reinforced magnesium-based composite materials by the impregnation method is characterized in that: the left curved pipe and the right curved pipe are stainless steel curved pipes.

Compared with the prior art, the utility model has the following advantages:

1. The utility model has simple structure, reasonable design and convenient operation.

2. The utility model is equipped with a vacuum tube and a protective gas tube, so that the whole impregnation process is carried out under vacuum and protective atmosphere, and the impregnation experiment can be carried out at high temperature for a long time, which can effectively prevent the metal matrix from being oxidized and improve the performance of the product .

3. The utility model can form a certain air flow pressure by setting a vacuum tube and a protective gas tube, and the metal liquid will also form a certain pressure due to gravity, so as to realize pressure infiltration, speed up the infiltration time of molten metal, and with the application of Pressure can also be obtained with a high volume fraction of silicon carbide particles and magnesium-reinforced magnesium-based composites.

4. The utility model is easy to disassemble and assemble, and it is easy to clean the magnesium alloy residue left in the left and right curved pipes after use at room temperature.

Below by accompanying drawing and embodiment, the utility model is described in further detail.

Description of drawings

Fig. 1 is the structural representation of the utility model.

Fig. 2 is a structural schematic diagram of the left prefabricated body flange and the right prefabricated body flange of the utility model.

FIG. 3 is a top view of FIG. 2 .

Explanation of reference signs:

1—pit furnace; 2-1—left curved pipe; 2-2—right curved pipe;

3-1—left sealing flange; 3-2—right sealing flange; 4—prefabricated body placement groove;

4-1—left prefabricated body flange; 4-2—right prefabricated body flange; 5—third screw;

6—first screw; 7-1—left connecting flange; 7-2—right connecting flange;

8—prefabricated body; 9—vacuumizing tube; 10—left through hole;

11—protective gas pipe; 12—right through hole; 13—pit furnace cover;

14—Second screw. 15—Metal liquid.

detailed description

As shown in Figures 1 to 3, the utility model includes a pit furnace 1 and an impregnation device, the bottom of the impregnation device is arranged in the pit furnace 1, and the impregnation device includes a left curved pipe 2-1, Right curved pipe 2-2, left prefabricated body flange 4-1, right prefabricated body flange 4-2, left connecting flange 7-1 and right connecting flange 7-2, the left curved pipe 2-1 The upper end is fixedly connected to the lower end of the left connecting flange 7-1, the lower end of the left curved pipe 2-1 is fixedly connected to the left end of the left prefabricated body flange 4-1, and the upper end of the right curved pipe 2-2 is connected to the right The lower end of the connecting flange 7-2 is fixedly connected, the lower end of the right curved pipe 2-2 is fixedly connected with the right end of the right prefabricated body flange 4-2, the left prefabricated body flange 4-1 and the right prefabricated body method The prefabricated body placement groove 4 for placing the prefabricated body 8 is opened on the flange 4-2, the left prefabricated body flange 4-1 and the right prefabricated body flange 4-2 are fixedly connected by the first screw 6, and the left prefabricated body flange 4-1 is fixedly connected with the right prefabricated body flange 4-2 The top of the connecting flange 7-1 is provided with a left sealing flange 3-1, the left sealing flange 3-1 and the left connecting flange 7-1 are fixedly connected by the second screw 14, and the left sealing flange 3 -1 is fixedly connected with a vacuum tube 9 whose upper end passes through the pit furnace cover 13, and the left sealing flange 3-1 and the left connecting flange 7-1 are provided with a left through hole communicating with the vacuum tube 9 10. A right sealing flange 3-2 is arranged above the right connecting flange 7-2, and the right sealing flange 3-2 and the right connecting flange 7-2 are fixedly connected by a third screw 5, and the The right sealing flange 3-2 is fixedly connected with a protective gas pipe 11 whose upper end passes through the pit furnace cover 13, and the right sealing flange 3-2 and the right connecting flange 7-2 are both provided with a protective gas pipe 11 Connected right through hole 12.

As shown in Figure 1, the left curved pipe 2-1 and the right curved pipe 2-2 are symmetrically arranged left and right, the left prefabricated body flange 4-1 and the right prefabricated body flange 4-2 are arranged left and right symmetrically, and the The left connecting flange 7-1 and the right connecting flange 7-2 are left and right symmetrically arranged, and the left sealing flange 3-1 and the right sealing flange 3-2 are arranged left and right symmetrically.

In this embodiment, the connection method between the left curved pipe 2-1 and the left connecting flange 7-1 is welding, and the connection method between the left curved pipe 2-1 and the left prefabricated body flange 4-1 is welding. The connection mode between the right curved pipe 2-2 and the right connecting flange 7-2 is welding, the connection mode between the right curved pipe 2-2 and the right prefabricated body flange 4-2 is welding, and the vacuum tube 9 The connection with the left sealing flange 3-1 is welding, and the connection between the shielding gas pipe 11 and the right sealing flange 3-2 is welding.

As shown in FIG. 1 , the centers of the left prefabricated body flange 4 - 1 and the right prefabricated body flange 4 - 2 are both provided with a prefabricated body placing groove 4 .

In this embodiment, the vacuum pumping tube 9 and the protective gas tube 11 are arranged symmetrically on the left and right.

As shown in Figure 1, the center of the left sealing flange 3-1 and the left connecting flange 7-1 has a left through hole 10, and the right sealing flange 3-2 and the right connecting flange 7-2 The center of all has right through hole 12.

In this embodiment, the pit furnace 1 is a resistance furnace.

In this embodiment, the left curved pipe 2-1 and the right curved pipe 2-2 are all stainless steel curved pipes, which are convenient for multiple use at high temperature and do not bond with magnesium alloy.

The working principle of the utility model is as follows: at room temperature, place the magnesium alloy block in the right curved pipe 2-2, place the prefabricated body 8 in the prefabricated body placement groove 4, use the first screw 6 to fix the left prefabricated body flange 4 -1 is fixedly connected with the right prefabricated body flange 4-2, the left sealing flange 3-1 is fixedly connected with the left connecting flange 7-1 with the second screw 14, and the right sealing flange 3-1 is fixedly connected with the third screw 5. 2 and the right connecting flange 7-2 are fixedly connected, and the connected impregnation device is placed in the pit furnace 1 as a whole. Connect the vacuum tube 9 to the vacuum equipment, the protective gas tube 11 to the protective gas source, turn on the vacuum equipment, then turn on the protective gas source switch, and then turn on the pit furnace 1 after a period of time; The formed pressure and the gravitational force of the molten metal 15 formed by melting the magnesium alloy block exert pressure on the preform 8 . After the pit furnace 1 is heated to the specified temperature, no operation is required in the whole process. If the pressure needs to be adjusted, it can be realized by adjusting the pressure of the vacuum equipment, or by selecting a magnesium alloy block of a suitable size to adjust the pressure.

The above are only preferred embodiments of the present utility model, and are not intended to limit the present utility model. Any simple modifications, changes and equivalent structural transformations made to the above embodiments according to the technical essence of the present utility model still belong to Within the scope of protection of the technical solution of the utility model.

Claims (8)

1. a method of impregnation prepares the device of SiC particles reinforced magnesium base composite material, it is characterized in that: comprise pit furnace (1) and device of impregnation, the bottom of described device of impregnation is arranged in pit furnace (1), described device of impregnation comprises left bend pipe (2-1), right bend pipe (2-2), left precast body flange (4-1), right precast body flange (4-2), left joint flange (7-1) and right joint flange (7-2), the upper end of described left bend pipe (2-1) is fixedly connected with the lower end of left joint flange (7-1), the lower end of described left bend pipe (2-1) is fixedly connected with the left end of left precast body flange (4-1), the upper end of described right bend pipe (2-2) is fixedly connected with the lower end of right joint flange (7-2), the lower end of described right bend pipe (2-2) is fixedly connected with the right-hand member of right precast body flange (4-2), described left precast body flange (4-1) and right precast body flange (4-2) all have the precast body standing groove (4) for placing precast body (8), described left precast body flange (4-1) is fixedly connected with by the first screw (6) with right precast body flange (4-2), the top of described left joint flange (7-1) is provided with left tongued and grooved flanges (3-1), described left tongued and grooved flanges (3-1) is fixedly connected with by the second screw (14) with left joint flange (7-1), described left tongued and grooved flanges (3-1) is fixedly connected with the vacuum-pumping tube (9) that upper end passes pit type furnace covers (13), described left tongued and grooved flanges (3-1) with left joint flange (7-1) all has the left through hole (10) be communicated with vacuum-pumping tube (9), the top of described right joint flange (7-2) is provided with right tongued and grooved flanges (3-2), described right tongued and grooved flanges (3-2) is fixedly connected with by the 3rd screw (5) with right joint flange (7-2), described right tongued and grooved flanges (3-2) is fixedly connected with the protection tracheae (11) that upper end passes pit type furnace covers (13), described right tongued and grooved flanges (3-2) and the right through hole (12) right joint flange (7-2) all had with protect tracheae (11) to be communicated with.

2. the device of SiC particles reinforced magnesium base composite material is prepared according to a kind of method of impregnation according to claim 1, it is characterized in that: described left bend pipe (2-1) and right bend pipe (2-2) are symmetrical set, described left precast body flange (4-1) and right precast body flange (4-2) are symmetrical set, described left joint flange (7-1) and right joint flange (7-2) are symmetrical set, and described left tongued and grooved flanges (3-1) and right tongued and grooved flanges (3-2) are symmetrical set.

3. the device of SiC particles reinforced magnesium base composite material is prepared according to a kind of method of impregnation described in claim 1 or 2, it is characterized in that: the mode of connection of described left bend pipe (2-1) and left joint flange (7-1) is for welding, the mode of connection of described left bend pipe (2-1) and left precast body flange (4-1) is for welding, the mode of connection of described right bend pipe (2-2) and right joint flange (7-2) is for welding, the mode of connection of described right bend pipe (2-2) and right precast body flange (4-2) is for welding, the mode of connection of described vacuum-pumping tube (9) and left tongued and grooved flanges (3-1) is for welding, the mode of connection of described protection tracheae (11) and right tongued and grooved flanges (3-2) is for welding.

4. prepare the device of SiC particles reinforced magnesium base composite material according to a kind of method of impregnation described in claim 1 or 2, it is characterized in that: the center of described left precast body flange (4-1) and right precast body flange (4-2) all has precast body standing groove (4).

5. prepare the device of SiC particles reinforced magnesium base composite material according to a kind of method of impregnation described in claim 1 or 2, it is characterized in that: described vacuum-pumping tube (9) and protection tracheae (11) are symmetrical set.

6. the device of SiC particles reinforced magnesium base composite material is prepared according to a kind of method of impregnation described in claim 1 or 2, it is characterized in that: the center of described left tongued and grooved flanges (3-1) and left joint flange (7-1) all has left through hole (10), the center of described right tongued and grooved flanges (3-2) and right joint flange (7-2) all has right through hole (12).

7. prepare the device of SiC particles reinforced magnesium base composite material according to a kind of method of impregnation described in claim 1 or 2, it is characterized in that: described pit furnace (1) is resistance furnace.

8. prepare the device of SiC particles reinforced magnesium base composite material according to a kind of method of impregnation described in claim 1 or 2, it is characterized in that: described left bend pipe (2-1) and right bend pipe (2-2) are stainless steel elbow.