Classification of diamond powder

Release time:

2023-06-05

Diamond powder in the completion of the ball grinding crushing, shaping and rough purification process, there is a very important process, is the product size classification, the main purpose is to require the size distribution as concentrated as possible and completely eliminate the super size particles. Because the diamond powder particles are too fine, the traditional screen classification can not achieve accurate classification, the selection of scientific, efficient and precise classification method is particularly important.

      DiamondMicro-powderAfter the completion of the ball milling crushing, shaping and coarse purification process, there is a very important process, that is, the product size.GradingThe main purpose of the treatment is to require the particle size distribution to be as concentrated as possible and to completely eliminate oversize particles. Duediamond powderThe particles are too fine, the traditional screen classification can not achieve accurate classification, the selection of scientific, efficient and precise classification method is particularly important.

With the continuous expansion of the application field of diamond micropowder and the gradual improvement of the quality requirements of the market, the classification methods commonly used in diamond micropowder enterprises at this stage are: natural sedimentation method, centrifugal method, overflow method, screening method, hydrocyclone method, etc.

01. Natural sedimentation classification and centrifugal classification

Diamond particles in the same proportion, different particle size in the water with different sedimentation rate, natural sedimentation method is based on this principle, control of sedimentation height and sedimentation time of particle size classification. The particles are subjected to three forces in the liquid, namely the gravity generated by the inherent mass of the particles, the buoyancy of the liquid and the resistance of the medium to the particles. The particle settling velocity is related to the contact area between the particles and the medium, the viscosity of the liquid, and the frictional resistance of the particles in the medium.

The principle of centrifugal classification is the same as that of natural sedimentation classification. The difference is that the centrifugal method uses the centrifugal force generated by the centrifuge instead of gravity to classify the diamond micropowder products.

For coarse particles, due to the heavy particles and short sedimentation time, the natural sedimentation method can lengthen the sedimentation distance of particles with similar particle size, which is conducive to the fine classification of diamond powder products with similar specifications. However, for finer particles, due to the small weight of the particles, the speed of free settlement in the gravity field is very slow, and then the use of natural settlement method will greatly extend the production cycle, taking up a large number of classification containers and sites, ultrafine particles even due to Brownian motion and interference between particles can not be effectively classified. In the centrifugal force field, the centripetal acceleration far exceeds the acceleration of gravity, so that the speed of the movement of micro-powder particles is greatly increased, thus speeding up the classification speed. Therefore, many diamond powder production enterprises are the use of natural sedimentation method and centrifugal method of combining the production of fine to coarse full specification powder.

Natural sedimentation classification is the most basic diamond powder production method, the process is simple, product quality is relatively stable. However, it has the disadvantage of taking up more labor and having a longer production cycle for fine-grained products. The classification efficiency of centrifugal method for finer-grained products is much higher than that of natural sedimentation method, but the equipment investment is large, and the requirements for personnel operation are higher.

With the continuous expansion of the application field of diamond micropowder and the gradual improvement of the quality requirements of the market, the classification methods commonly used in diamond micropowder enterprises at this stage are: natural sedimentation method, centrifugal method, overflow method, screening method, hydrocyclone method, etc.

01. Natural sedimentation classification and centrifugal classification

Diamond particles in the same proportion, different particle size in the water with different sedimentation rate, natural sedimentation method is based on this principle, control of sedimentation height and sedimentation time of particle size classification. The particles are subjected to three forces in the liquid, namely the gravity generated by the inherent mass of the particles, the buoyancy of the liquid and the resistance of the medium to the particles. The particle settling velocity is related to the contact area between the particles and the medium, the viscosity of the liquid, and the frictional resistance of the particles in the medium.

The principle of centrifugal classification is the same as that of natural sedimentation classification. The difference is that the centrifugal method uses the centrifugal force generated by the centrifuge instead of gravity to classify the diamond micropowder products.

For coarse particles, due to the heavy particles and short sedimentation time, the natural sedimentation method can lengthen the sedimentation distance of particles with similar particle size, which is conducive to the fine classification of diamond powder products with similar specifications. However, for finer particles, due to the small weight of the particles, the speed of free settlement in the gravity field is very slow, and then the use of natural settlement method will greatly extend the production cycle, taking up a large number of classification containers and sites, ultrafine particles even due to Brownian motion and interference between particles can not be effectively classified. In the centrifugal force field, the centripetal acceleration far exceeds the acceleration of gravity, so that the speed of the movement of micro-powder particles is greatly increased, thus speeding up the classification speed. Therefore, many diamond powder production enterprises are the use of natural sedimentation method and centrifugal method of combining the production of fine to coarse full specification powder.

Natural sedimentation classification is the most basic diamond powder production method, the process is simple, product quality is relatively stable. However, it has the disadvantage of taking up more labor and having a longer production cycle for fine-grained products. The classification efficiency of centrifugal method for finer-grained products is much higher than that of natural sedimentation method, but the equipment investment is large, and the requirements for personnel operation are higher.

03. Classification by hydrocyclone method

The hydrocyclone method uses the principle of centrifugal sedimentation to accelerate the separation of coarse and fine particles through the high-speed rotation of the slurry in the hydrocyclone. As a mature technology, this process is widely used in coarse classification and product dehydration in various fields. Its main features are fast speed, simple operation, good repeatability, continuous feeding, in addition to 2 microns to fine particles of the whole series of diamond powder classification are effective. However, there is also a disadvantage of poor classification accuracy. As a method of coarse classification, it can greatly improve the production efficiency by combining with the natural sedimentation method and centrifugal method in the later stage.

Because each method has its inherent characteristics, the actual production, according to their own actual situation of flexible selection, can use a method of diamond powder product classification, can also use two or more methods of combining the product classification.

Focus on hot spots

Application Prospect of Diamond in Aerospace Field

The main application of diamond powder

As a kind of super hard abrasive, diamond powder has incomparably superior grinding ability, which has been paid more and more attention by the industrial developed countries. The grinding ability of diamond powder includes the grinding ability of the workpiece and its own wear resistance and crushing resistance, depending on its microhardness, particle size, strength, particle size, and thermal and chemical stability. To sum up, diamond powder used as abrasive has three aspects; (1) Used in the manufacture of resin-bonded tools, metal-bonded tools, and plating tools. (2) for industrial, scientific and medical precision or polishing of various precision components. (3) as a fine abrasive for mold processing, gem polishing processing, gem bearing processing and manufacturing. In addition to the application of diamond powder as a grinding material, another major use is used as a functional material. For example, the use of its thermal properties and electrical properties. By mixing diamond fine powder into thermosetting resin polymer, cellulose, phenolic resin or ceramic sheet, a new material having improved thermal conductivity and reduced thermal expansion can be produced. The diamond powder mixed to the metal sheet, such as sheet or stainless steel sheet can be made with high thermal conductivity, low thermal expansion and light weight of the new sheet material, in the electronics industry can be made into high-density high-energy devices for thermal control. From the form of diamond used as grinding materials, according to the relevant data published figures, the world's industrial consumption of more than 60% of diamond powder is used to make diamond plaster, diamond powder mixture and diamond powder grinding fluid.

Ultra-precision polishing of precision instruments for the use of nanodiamonds

We add nano-diamond to the medium to make nano-diamond polishing liquid, which is now mainly divided into aqueous polishing liquid and oily polishing liquid. Because the nano-diamond polishing liquid nano-diamond particles super hard super hard, with it can remove the material surface small uneven, polished material surface roughness can be reduced to nano-level, so that the material surface finish is very high. At present, nano-diamond polishing liquid can be used in semiconductor silicon wafer polishing, computer head polishing, precision ceramic processing, gem polishing, optical glass polishing and other fields. Nowadays, due to the development of computers, people's requirements for computer storage capacity continue to increase, which makes us want to manufacture larger disks. In recent years, the storage capacity of computer disks has been increasing, but with the increase of storage capacity, the problem is that the gap between the disk and the head is getting smaller and smaller, which is close to 10NM. The surface roughness, scratches and impurity particles of the head and the disk will cause damage to the computer disk. As the distance between the disk and the head has reached the nanometer level, the micron-level polishing liquid has failed to meet the polishing requirements, so only nano diamond polishing liquid can meet the requirements of this aspect. We used nano-diamond polishing liquid to polish the computer magnetic head, and found that the surface smoothness of the magnetic head was greatly improved after polishing. The measured surface roughness at this time was 0.09~0.40nm, while the surface roughness of the magnetic head was 0.45~0.80nm after polishing with ordinary polishing liquid. Compared with nano-diamond polishing liquid, the effect of nano-diamond polishing liquid is much better, thus the quality of the computer magnetic head is also improved, and we can produce more precision, A computer disk with a larger storage capacity. It is worth noting that when polishing, because the computer and other electronic products most avoid corrosion, so be sure to control the pH of the polishing liquid, the study found that the PH value of the polishing liquid is more appropriate to control between 6.5 and 8. Since the content of anions Cl-and SO2-will determine the pH of the polishing solution, the content of Cl-and SO2-should be controlled when preparing the polishing solution for computer head polishing, and the PH value should be observed at the same time.

Characteristics of Shandong Metal Powder Hydraulic Press

Shandong metal powder hydraulic press is suitable for automatic control molding of powder dry pressing. It is widely used in electronics, powder metallurgy, soft magnetic industry, conductive dry pressing molding, chemical industry, automobile manufacturing, medicine, energy and environmental protection industry, toy industry, etc. Suitable dry-pressed powders include ferrous and non-ferrous metal powders, electronic ceramic powders, ferrites, rare earth powders, cemented carbide powders, PTFE, diamond and graphite powders, and the like. The hydraulic transmission system of Shandong metal powder hydraulic press is composed of power mechanism, control mechanism, actuator, auxiliary mechanism and working medium. The power mechanism usually uses an oil pump as the power mechanism, and is generally an integrated oil pump. One or more oil pumps are selected in order to meet the speed of movement of the actuator. Low pressure gear pump; medium pressure vane pump; high pressure piston pump. The pressure processing and forming of various plastic materials, such as the extrusion, bending, drawing of stainless steel plates and steel plates, and the cold pressing of metal parts, can also be used for the pressing of powder products, grinding wheels, bakelite and resin thermosetting products.

Unlocking Efficiency: The Full Digital Servo Hydraulic Press Revolution

Discover how thefull digital servo hydraulic press is transforming industries with precision and efficiency.