CN112126825A - Hydraulic cylinder silencer and manufacturing process thereof - Google Patents

Abstract

The invention relates to a hydraulic cylinder silencer and a preparation process thereof, and belongs to the technical field of aluminum alloy composite materials. The hydraulic cylinder muffler comprises 72-85% of aluminum alloy and 15-30% of filler in percentage by mass. Proper amount of Ce is added in the preparation process₂O₃Is favorable for improving the mechanical property of the alloy, improving the aperture distribution of the alloy material, improving the noise reduction effect of the silencer and selecting A1 with proper proportion₂O₃The aluminum alloy and NaCl are used as filler together, which is helpful for forming a complete honeycomb-shaped sound barrier in the aluminum alloy, and further improves the noise reduction and sound insulation effectsAnd finally, the obtained silencer has high porosity, high specific strength, good energy absorption performance, high temperature resistance, noise reduction and other excellent performances.

Description

Hydraulic cylinder silencer and manufacturing process thereof

Technical Field

The invention relates to a hydraulic cylinder silencer and a preparation process thereof, and belongs to the technical field of aluminum alloy composite materials.

Background

The hydraulic cylinder is a hydraulic actuator which converts hydraulic energy into mechanical energy and performs linear reciprocating motion (or swinging motion). Noise is generated during operation of the hydraulic cylinder by mechanical vibration, shaking of the pipes caused by high flow rates of the oil flow, or imbalance of the rotating parts of the electric motor and the hydraulic pump. In addition to the need to adjust the hydraulic cylinder components to reduce noise, a muffler device may be provided to dampen noise.

The existing silencer on the market is generally made of 'common steel iron' and 'stainless steel products'. The common steel silencer can be slowly delaminated in half a year, at most one year, so that the power is seriously influenced, the energy consumption is increased, and the outer skin of the silencer is easy to form a leakage point and the sound is hard to hear. The stainless steel silencer has extremely thin pipe wall, good silencing effect, durability, beautiful appearance, but high material price and difficult processing, and is difficult to realize industrial production. Therefore, a hydraulic cylinder muffler with excellent performance and economic and environmental protection needs to be developed to overcome the defects of the existing muffler.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a hydraulic cylinder silencer which is light in weight, noise-reducing and sound-insulating, strong in energy-absorbing capacity, environment-friendly, economical and easy to process.

The above object of the present invention can be achieved by the following technical solutions: a hydraulic cylinder silencer comprises, by mass, 72-85% of aluminum alloy and 15-30% of filler.

The filler and the aluminum alloy are matched for use, so that the aluminum alloy forms a shape like a honeycomb, when sound waves enter the aluminum alloy, sound energy is converted into heat energy by means of mechanical movement, a good sound barrier is formed, and good noise reduction and sound insulation effects are achieved. Meanwhile, the inorganic filler has small density and strong high temperature resistance and heat resistance, thereby being beneficial to further reducing the weight of the silencer and increasing the high temperature resistance and heat resistance of the silencer.

Preferably, the raw material for manufacturing the silencer also comprises 0.05-0.2% of Ce₂O₃。Ce₂O₃Can be used as a non-uniform nucleation core of alloy molten liquid, and is due to Ce₂O₃The high-melting-point high-strength high-toughness sound-absorbing material has a high melting point, can be used as a non-spontaneous core, promotes nucleation, is beneficial to grain refinement, can improve the mechanical property of alloy, can promote the distribution of pores, sizes and forms of alloy materials to be more uniform, is beneficial to the construction of an alloy complete sound barrier, further improves the filtering property of a silencer and improves the noise reduction effect.

Preferably, the aluminum alloy consists of the following components in percentage by mass: si: 4.5-8%, Ca: 0.6-3%, Mg: 0.5-1.8%, Ce:0.15-0.6%, and the balance of aluminum and inevitable impurities. In order to further increase the intermiscibility of the filler and the aluminum alloy base material, Ca and Mg are added into the aluminum alloy component as solubilizing phases, so that the interface condition between the components is improved, the interface tension between the components is reduced, the bonding force between the base material and the filler is improved, and the silencer has more stable noise reduction performance. Small amount of Ce can promote the alloy to form strengthening phase Al_l2Si₄O₁₀(OH)₂、CeMg₄Al₈And new phase Al₁₁Ce₃And the shape and size of the strengthening phase can be changed to be dispersed, so that the tensile strength and the deformation resistance of the silencer are enhanced.

Preferably, the filler consists of 68-80% of A1 in percentage by mass₂O₃And 20-32% NaCl. NaCl in the filler is loose particles, an outer protective layer of the filler is easy to break under the action of external force, so that the uniform state of the NaCl particles does not exist, the pore structure of the aluminum alloy material is not uniform, the noise reduction and sound insulation effects of the aluminum alloy material are reduced, and in order to avoid adverse effects caused by the independent use of NaCl, A1 is added into the filler disclosed by the invention₂O₃，A1₂O₃Has good migration performance, when NaCl is acted by external force, A1₂O₃Can migrate to the outer protective layer of NaCl to prevent the protective layer from being damaged and ensure the uniform and complete pore size structure of NaCl. A1₂O₃And the mass percent of NaCl is controlled in the range, so that the sound barrier in a honeycomb shape formed in the aluminum alloy can be prevented from being incomplete or damaged due to the unbalanced proportion of NaCl and the sound barrier, and the noise reduction and sound insulation effects are further reduced.

Further preferably, the particle size of the filler is 1 to 5 mm.

The invention also aims to provide a preparation process of the hydraulic cylinder muffler, which comprises the following steps:

s1: weighing raw materials for manufacturing the silencer according to a proportion, smelting aluminum alloy into alloy liquid, and adding Ce in the smelting process₂O₃；

S2: pressing the filler into a precast block, sintering at the temperature of 450-550 ℃, cooling to room temperature, and then placing in a mold to preheat to the temperature of 300-400 ℃;

s3: pressing the alloy liquid in the step S1 into a filler precast block to prepare a semi-finished product of the silencer;

s4: and cleaning and drying the semi-finished product of the silencer to obtain a finished product of the silencer.

Compared with the prior art, the invention presses the filler into the precast block for sintering, and then preheats in the die, on one hand, the invention is beneficial to forming stable and uniform through holes in the filler, and effectively reduces the pressure when the alloy is pressed; on the other hand, the method is beneficial to reducing the residual stress of the filler and the acting force between the filler and the alloy liquid so as to clean the semi-finished product of the silencer in the following process and completely remove harmful ions in the filler. But the sintering temperature is not more than 550 ℃, so that the collapse of a pore channel constructed in the filler is avoided, and a continuous three-dimensional network-shaped aluminum alloy framework cannot be constructed when the alloy liquid is pressed into the filler precast block, so that a complete sound barrier cannot be formed. The silencer prepared by the preparation method has a series of excellent performances such as high porosity, high specific strength, large specific surface area, good energy absorption, high temperature resistance, noise reduction and the like.

Preferably, the smelting temperature in the step S1 is 750-850 ℃.

Preferably, the pressing pressure in step S3 is 0.07 to 0.5 MPa. In the invention, as the filler is sintered and preheated, the formed pore canal is smooth, so the pressure for pressing the alloy liquid is obviously reduced compared with the prior art, the pressure is overlarge, the structural structure of the alloy is easy to damage, the specific strength of the alloy is reduced, even the pore canal collapses, and the construction of a sound barrier is not facilitated.

Preferably, the cleaning solution in step S4 is K with a mass fraction of 12-25%₂SO₄An aqueous solution. The invention uses K₂SO₄As a cleaning solution, on one hand, the solubility of NaCl can be increased, and the NaCl is ensured to be completely removed from the alloy; on the other hand K₂SO₄The corrosion of sulfate ions to the aluminum alloy matrix is far less than that of chloride ions in NaCl, so that the corrosion to the aluminum alloy can be reducedAnd (4) corroding the gold matrix.

Further preferably, the temperature of the cleaning solution is 45 to 60 ℃.

Compared with the prior art, the invention has the following advantages:

1. the filler and the aluminum alloy are matched for use to form a good sound barrier, so that a good sound insulation effect is achieved. The inorganic filler has small density and strong high temperature resistance and heat resistance, and is beneficial to further reducing the weight of the silencer and increasing the high temperature resistance and heat resistance of the silencer. Proper amount of Ce₂O₃The filtering performance of the silencer can be increased, and the noise reduction effect of the silencer can be improved

2. In the process of manufacturing the silencer, the filler is pressed into the precast block and then sintered, and then preheated in the die, so that stable and uniform through holes are formed in the filler, and the pressure of the alloy during hydraulic pressing is effectively reduced; meanwhile, the residual stress of the filler and the acting force between the filler and the alloy liquid are reduced, so that the semi-finished product of the silencer can be cleaned subsequently, harmful ions in the filler are completely removed, and the silencer obtained by matching with specific process conditions has a series of excellent performances such as high porosity, high specific strength, good energy absorption, high temperature resistance, noise reduction and the like.

Detailed Description

The following are specific examples of the present invention and illustrate the technical solutions of the present invention for further description, but the present invention is not limited to these examples. Unless otherwise specified, the raw materials used in the following examples of the present invention are all conventional ones, and the methods of use are all conventional ones, example 1

A hydraulic cylinder silencer comprises the following manufacturing raw materials of 72% of aluminum alloy, 27.8% of filler and 0.2% of Ce₂O₃(ii) a The aluminum alloy comprises the following components in percentage by mass: si: 4.5%, Ca: 0.6%, Mg: 0.5%, Ce: 0.15%, the balance being aluminum and inevitable impurities; the filler has the grain diameter of 1-5mm and consists of 68 percent of A1 in percentage by mass₂O₃And 32% NaCl.

The preparation process of the hydraulic cylinder silencer comprises the following steps:

s1: weighing the manufacturing raw materials of the silencer according to the proportion, smelting the aluminum alloy into alloy liquid at 750 ℃, and adding Ce in the smelting process₂O₃；

S2: pressing the filler into a precast block, sintering at 450 ℃, cooling to room temperature, and placing in a mold to preheat to 300 ℃;

s3: pressing the alloy liquid in the step S1 into the filler precast block under the pressure of 0.07MPa to prepare a semi-finished product of the silencer;

s4: cleaning and drying the semi-finished product of the silencer to obtain a finished product of the silencer, wherein the cleaning solution is K with the temperature of 45 ℃ and the mass fraction of 12%₂SO₄An aqueous solution.

Example 2

A hydraulic cylinder silencer comprises 76.5% of aluminum alloy, 23.4% of filler and 0.1% of Ce₂O₃Preparing; the aluminum alloy comprises the following components in percentage by mass: si: 5%, Ca: 1%, Mg: 0.8%, Ce: 0.2%, the balance being aluminum and inevitable impurities; the filler has the grain diameter of 1-5mm and consists of 70 percent of A1 by mass percent₂O₃And 30% NaCl.

The preparation process of the hydraulic cylinder silencer comprises the following steps:

s1: weighing the manufacturing raw materials of the silencer according to the proportion, smelting the aluminum alloy into alloy liquid at 780 ℃, and adding Ce in the smelting process₂O₃；

S2: pressing the filler into a precast block, sintering at 460 ℃, cooling to room temperature, and placing in a mold to preheat to 320 ℃;

s3: pressing the alloy liquid in the step S1 into the filler precast block under the pressure of 0.1MPa to prepare a semi-finished product of the silencer;

s4: cleaning and drying the semi-finished product of the silencer to obtain a finished product of the silencer, wherein the cleaning solution is K with the temperature of 47 ℃ and the mass fraction of 15%₂SO₄An aqueous solution.

Example 3

A hydraulic cylinder silencer comprises 80% of manufacturing raw materialsAluminum alloy, 19.9% of filler and 0.1% of Ce₂O₃Preparing; the aluminum alloy comprises the following components in percentage by mass: si: 5.5%, Ca: 1.5%, Mg: 1% and Ce: 0.3%, the balance being aluminum and inevitable impurities; the filler has the grain diameter of 1-5mm and consists of 72 percent of A1 by mass percent₂O₃And 28% NaCl.

The preparation process of the hydraulic cylinder silencer comprises the following steps:

s1: weighing the manufacturing raw materials of the silencer according to the proportion, smelting the aluminum alloy into alloy liquid at 800 ℃, and adding Ce in the smelting process₂O₃；

S2: pressing the filler into a precast block, sintering at 500 ℃, cooling to room temperature, and placing in a mold to preheat to 350 ℃;

s3: pressing the alloy liquid in the step S1 into the filler precast block under the pressure of 0.25MPa to prepare a semi-finished product of the silencer;

s4: cleaning and drying the semi-finished product of the silencer to obtain a finished product of the silencer, wherein the cleaning solution is K with the temperature of 50 ℃ and the mass fraction of 18%₂SO₄An aqueous solution.

Example 4

A hydraulic cylinder silencer comprises 84% of aluminum alloy, 15.92% of filler and 0.08% of Ce₂O₃Preparing; the aluminum alloy comprises the following components in percentage by mass: si: 7%, Ca: 2%, Mg: 1.5%, Ce: 0.45 percent of aluminum and inevitable impurities, and 75 percent of A1 with the grain diameter of 1-5mm₂O₃And 25% NaCl.

The preparation process of the hydraulic cylinder silencer comprises the following steps:

s1: weighing the manufacturing raw materials of the silencer according to the proportion, smelting the aluminum alloy into alloy liquid at 830 ℃, and adding Ce in the smelting process₂O₃；

S2: pressing the filler into a precast block, sintering at 520 ℃, cooling to room temperature, and placing in a mold to preheat to 350 ℃;

s3: pressing the alloy liquid in the step S1 into the filler precast block under the pressure of 0.4MPa to prepare a semi-finished product of the silencer;

s4: cleaning and drying the semi-finished product of the silencer to obtain a finished product of the silencer, wherein the cleaning solution is K with the temperature of 55 ℃ and the mass fraction of 20%₂SO₄An aqueous solution.

Example 5

A hydraulic cylinder silencer comprises 83% of aluminum alloy, 16.95% of filler and 0.05% of Ce₂O₃Preparing; the aluminum alloy comprises the following components in percentage by mass: si: 8%, Ca: 3%, Mg: 1.8%, Ce: 0.6 percent of aluminum and inevitable impurities as the rest; the filler has the grain diameter of 1-5mm and is prepared from 80 percent of A1 by mass percent₂O₃And 20% NaCl.

The preparation process of the hydraulic cylinder silencer comprises the following steps:

s1: weighing the manufacturing raw materials of the silencer according to the proportion, smelting the aluminum alloy into alloy liquid at 850 ℃, and adding Ce in the smelting process₂O₃；

S2: pressing the filler into a precast block, sintering at 550 ℃, cooling to room temperature, and placing in a mold to preheat to 400 ℃;

s3: pressing the alloy liquid in the step S1 into the filler precast block under the pressure of 0.5MPa to prepare a semi-finished product of the silencer;

s4: cleaning and drying the semi-finished product of the silencer to obtain a finished product of the silencer, wherein the cleaning solution is K with the temperature of 60 ℃ and the mass fraction of 25%₂SO₄An aqueous solution.

Example 6

The only difference from example 3 is that the inorganic filler consists of 65% by mass of A1₂O₃And 35% NaCl.

Example 7

The only difference from example 3 is that the inorganic filler consists of 82% by mass of A1₂O₃And 18% NaCl.

Example 8

The only difference from example 3 is that the inorganic filler is A1 only₂O₃。

Example 9

The only difference from example 3 is that the inorganic filler is NaCl alone.

Example 10

The only difference from example 3 is that the aluminum alloy is a common commercially available aluminum alloy.

Example 11

This comparative example differs from example 3 only in that the muffler raw material does not contain Ce₂O₃The content of the aluminum alloy is 85%, and the content of the inorganic filler is 15%.

Comparative example 1

This comparative example differs from example 3 only in that the filler is conventional in the prior art.

Comparative example 2

The comparative example differs from example 3 only in that the sintering temperature after pressing the filler into a preform was 570 ℃.

Comparative example 3

The comparative example differs from example 3 only in that the pressure at which the alloy liquid was pressed into the filler preform was 0.8 MPa.

The hydraulic cylinder mufflers manufactured in examples 1 to 11 and comparative examples 1 to 3 were subjected to performance tests, and the test results are shown in table 1.

Table 1: performance parameters of the Hydraulic Cylinder mufflers obtained in examples 1 to 11 and comparative examples 1 to 3

It can be analyzed from the results of the examples and comparative examples of the present invention that a proper amount of Ce was added to the raw materials₂O₃Is favorable for improving the mechanical property of the alloy, improving the aperture distribution of the alloy material, improving the noise reduction effect of the silencer and selecting A1 with proper proportion₂O₃The aluminum alloy and NaCl are used as filler together, which is helpful for forming a complete honeycomb-shaped sound barrier in the aluminum alloy, and further improves the noise reduction and sound insulationAnd (5) effect. In the preparation process, the filler is pressed into a precast block and then sintered, and then preheated in a mold, so that stable and uniform through holes are formed in the filler, and the pressure of the alloy during hydraulic pressing is effectively reduced; meanwhile, the residual stress of the filler and the acting force between the filler and the alloy liquid are reduced, so that the semi-finished product of the silencer can be cleaned later, harmful ions in the filler are completely removed, and the silencer obtained by matching reasonable raw material components with a specific preparation process has a series of excellent performances such as high porosity, high specific strength, good energy absorption, high temperature resistance, noise reduction and the like.

In view of the numerous embodiments of the present invention, the experimental data of each embodiment is huge and is not suitable for being listed and explained herein one by one, but the contents to be verified and the final conclusions obtained by each embodiment are close.

While the invention has been described in detail and with reference to specific embodiments thereof, it will be apparent to one skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope thereof.

Claims (10)

1. The hydraulic cylinder silencer is characterized in that raw materials for manufacturing the silencer comprise 72-85% of aluminum alloy and 15-30% of filler.

2. The hydraulic cylinder muffler of claim 1, wherein the muffler manufacturing raw material further comprises 0.05-0.2% Ce₂O₃。

3. The hydraulic cylinder muffler of claim 1, wherein the aluminum alloy consists of the following components in mass percent: si: 4.5-8%, Ca: 0.6-3%, Mg: 0.5-1.8%, Ce: 0.15-0.6%, and the balance of aluminum and inevitable impurities.

4. The hydraulic cylinder muffler of claim 1, wherein the filler is composed of 68-80% by mass of A1₂O₃And 20-32% NaCl.

5. Hydraulic cylinder muffler according to claim 1 or 3, characterized in that the particle size of the filler is 1-5 mm.

6. A process for manufacturing a hydraulic cylinder muffler according to claim 1 or 2, characterized in that it comprises the following steps:

s1: weighing the manufacturing raw materials of the silencer according to the proportion, smelting aluminum alloy into alloy liquid, and adding Ce in the smelting process₂O₃；

S2: pressing the filler into a precast block, sintering at the temperature of 450-550 ℃, cooling to room temperature, and then placing in a mold to preheat to the temperature of 300-400 ℃;

s3: pressing the alloy liquid in the step S1 into a filler precast block to prepare a semi-finished product of the silencer;

s4: and cleaning and drying the semi-finished product of the silencer to obtain a finished product of the silencer.

7. The process for preparing the hydraulic cylinder muffler as defined in claim 6, wherein the melting temperature in the step S1 is 750-850 ℃.

8. The manufacturing process of the hydraulic cylinder muffler according to claim 6, wherein the pressing pressure in the step S3 is 0.07-0.5 MPa.

9. The process for producing the hydraulic cylinder muffler according to claim 6, wherein the cleaning solution in the step S4 is K with a mass fraction of 12 to 25%₂SO₄An aqueous solution.

10. The process for manufacturing a hydraulic cylinder muffler according to claim 9, wherein the temperature of the cleaning solution is 45 to 60 ℃.