air classifier mill

air classifying mill for particle size reduction

Praters Air Classifying Mills operates by using the combination of two-stage closed circuit grinding/milling with an interstage air classifier all in one convenient unit. The internal air classifier continuously recirculates particles that are larger than desired back into the grinding zone ensuring an optimal final product particle size. When faced with materials that can be difficult to grind or that require a narrower particle distribution, the unique capabilities of the air classifying mill are often necessary. Large access doors on the air classifying mills allow for quick inspection or cleaning of the main rotor and classifier rotor.

Grinding applications can pose particular challenges. Materials that are difficult to grind or require a narrow particle distribution require specialized milling solutions. The unique capabilities of the Prater air classifying mill (CLM) are designed to produce a finer grind and a narrower particle size distribution than standard mill designs. The Prater CLM mill is suitable for particle size ranges from 149 microns to a mean size of 5 to 7 microns.

Prater Air Classifying Mills (CLM) offers the combination of two-stage closed circuit grinding with internal air classification. Their unique capabilities out perform single-pass mills when handling difficult to grind products or those requiring a narrow particle size distribution. The Optional screen-less screen frame design reduces screen damage and wear while the secondary inlet provides additional air for an element of cooling.

Six sizes are available from the 3 HP CLM-18 pilot scale lab mill to the 250 HP CLM-101. All Air Classifying Mills come with standard safety features, including an automatic safety door interlock that prevents unintended access to internal rotating parts during operation.

First Stage Grinding: Convey air and metered product enter behind the rotor, where grinding blades impact and accelerate particles outward. Additional collisions take place against the jaws and screens until the particles are small enough to egress through the screens apertures.

Classifier: Particles from first stage grinding are circulated outside the grinding chamber, where a secondary intake drafts pneumatic air to help fluidize and cool the particles. Material is pulled inward toward the classifying rotor, where size separation takes place. On-size particles pass through the rotor and are pneumatically conveyed to the next stage in the process while off-spec particles are rejected to second stage grinding. The air classifier rotor is independently controlled, allowing for precise control of particle size simply by adjusting the RPM using a Variable Frequency Drive, VFD.

Second Stage Grinding:Rejected particles from the classifier re-enter the grinding chamber in front of the rotor. Grinding blades again impact and accelerate the particles outward, where size reduction is intensified by 360 degrees of aggressive grinding ring segments.Reground, second stage product combines with product from the first stage and then returns to the classifier.

Prater stands ready to serve your needs. If your application requires a custom build, our staff will tailor a solution. Similarly, if you already own a Prater mill that requires parts, service, or an upgrade, please contact us for a free consultation.

Praters Air Classifying Mills operate by using the combination of two-stage closed circuit grinding/milling with an interstage air classifier all in one convenient unit. The internal air classifier continuously recirculates particles that are larger than desired back into the grinding zone ensuring an optimal final product particle size. When faced with materials that can be difficult to grind or that require a narrower particle distribution curve, the unique capabilities of the air classifying mill are often necessary. Large access doors on the air classifying mills allow for quick inspection or cleaning of the main rotor and classifier rotor.

Our air classifying mills are ideal for difficult to grind applications or narrow particle distribution curve requirements, and offers simple maintenance, uniform particle distribution, screen-less screen frame that prevents screen damage and wear and, lastly, a secondary inlet to provide additional air for an element of cooling. At Prater, safety is always first and all air classifying mills and fine grinders are equipped with an automatic door locking device to prevent accidental access to the inside while the rotor is operating. When using our Prater air classifying mills, three distinct steps are taken to process the material:

Initial Grinding Stage: Using the secondary inlet, additional air adds a cooling element to the material being processed. Particle Rejection Stage: Particles that are larger than specified are rejected by the classifier and directed into the third stage. Final Stage: These particles go into a separate part of the grinding rotor designed specifically for difficult-to-grind pieces. This material is then directed to the classifier, which allows only properly-sized product to exit the machine.

air swept classifier mill system | how it works, benefits | cms

The CMS Air Swept Classifier Mill System combines dynamic-impact grinding and particle size classification in a single continuous process. Independent drives for the Impact Rotor and Classifier Wheel allow the system operator to independently adjust their rotational speeds, thereby optimizing drag and tip speed control in producing the desired particle size distribution. CMS Air Swept Classifier Mills are available from 1 HP (horsepower) to 600 HP.

Grinding and Classifying are essential size reduction processes. The CMS Air Classifier Mill Grinding Zone configuration positions Impact Hammers mounted at the periphery of the Rotor Plate (below the Classifier Wheel), a reversible Multiple Deflector Liner enclosing the Rotor Plate, Hammers and a Deflector Assembly (shroud/baffle style) located above the Impact Rotor. The space between the Classifier Wheel and Deflector Assembly forms the Classification Zone.

Air drawn into the mill via the Air Inlet entrains the feed material into an upward flow from below the Rotor Plate, dispersing the feed material to the Grinding Zone, where rotating Impact Hammers deliver high-speed impact, shattering and deflecting particles to the Liner and back to the Hammers. Size reduced particles flow to the Deflector Assembly, which then diverts material to the Classification Zone. Fine particles below the selectedcut pointwill pass through the vanes of the Classifier Wheel to the product-and-air outlet, while coarse particles above the cut point will return to the Grinding Zone for further reduction.

With solid steel construction, the grinding/classification chambers are rugged and long-lasting. Internal components and wear parts are available in Stainless Steel, Abrasive-Resistant materials, Hardened Refractory metals, and Ceramic. For added safety, all mills above 5HP include a lid lift.

At Classifier Milling Systems, our air swept classifier mill system facilitates streamlined processing applications for our customers. The system is durable, reliable, and affordable, making it suitable for use in a diverse set of industrial applications. To learn more about our proprietary technology, contact us today. For assistance choosing and installing a milling system in your facility,request a quote.

air classifier mill | ultra fine grinding & milling | kemutec

Kemutec would like to reassure you that we are available to continue supporting you, in particular those from the Food and Pharmaceutical industries and those requiring spare parts. We are following and adhering to all the advice from the government and Public Health England and have put processes in place that allow us to provide a level of service, that will keep your process going. If you would like to get in contact with a member of our team please email [email protected] or call +44 (0)1625 412000. We will get back to you promptly and wish that you please stay safe during this time. Kemutec Team Close

An Air Classifier Mill is used for milling and grinding heat-sensitive material and provides precise control over particle cut point selection, by incorporating an internal air-classifying wheel and an independent drive.

Suitable for batch processing or continuous operation, the PPS Air Classifier range of Mills serve all industries that produce fine powders, but where control of grinding temperature and particle size distribution are of prime importance.

ural - air classifier mill - netzsch grinding & dispersing

NETZSCH Ecutec Ural Air Classifier Mill is an impact grinding system with an integrated classifier and therefore ideal for products with steep particle size distributions. The multipurpose mill can be used for soft and medium hard minerals where wear resistant materials can be chosen. The mill can be equipped with different grinding housing as well as different impact elements, depending on the product and final product specs.

NETZSCH Ecutec`sUral can be operated with ambient air, hot air as well as dried and cooled air which covers a wide range of mineral applications. The mill combines drying, grinding and classifying processes in one compact unit.

Ural has been designed with a grinding disc and classifier rotor, which are attached to a double shaft. This design and the operation with VFD's makes it possible to adjust the rpm's of grinding and classifying independently. Product ground by the high impact forces of the grinding disc is deliveredto the classifier where fine product is accepted and coarse is rejected back into the grinding zone.

There are two air inlets: the main air inlet at the bottom of the mill disc and anotherwhich is used to feed the fresh product. Product accepted by the classifier will leave the mill on the top section through a center opening, connecting the mill to a final product filter or cyclone.

We use cookies in order to design our websites optimally for you. Some of them are technically necessary, while others help us to improve this website and your experience. You are free to decide which categories you would like to permit. Please note that depending on the settings you choose, the full functionality of the website may no longer be available. Further information can be found under Cookie Details.

These cookies are essential in order to enable you to move around the website and use its features, such as setting your privacy preferences, logging in or filling in forms. Without these cookies, services requested through usage of our website cannot be properly provided.

In order to continuously improve our website, we anonymously track data for statistical and analytical purposes. These cookies collect information about how visitors use a website, for instance which pages visitors go to most often, and how visitors move around the site. They help us to improve the user friendliness of a website and therefore enhance the users experience.

classifier mills | hosokawa alpine

There is no such thing as a universal mill that optimally meets every requirement in terms of fineness, throughput, energy efficiency, wear, contamination-free grinding and cleaning, etc. For this reason, ALPINE offers a wide spectrum of different designs which enables an optimal solution to be found for each problem specification.

air classifier mill, air classifier, air jet micronizer - qiangdi

Kunshan Qiangdi Grinding Equipment Co.,Ltd. is a professional high-tech enterprise engaged in powder equipment R&D, manufacturing and sales. Which locates in beautiful Jiangnan watertownYoude Road, HighTech Zone, Kunshan City, Jiangsu Province. We always wholeheartedly serve our customers. and insist on the principleQuality First, Striving for innovation and development to provide overall solution for our quality customers.

Year 2020 is the witness of history, the new crown epidemic raged all over the world, the United States foreign trade policy is changeable, the worlds economic development has been a huge influence, the worlds major economy is negative, the annual growth rate of China may be the onl...

air classifier mill machine manufacturers suppliers exporters india gujarat mumbai

Air Classifier Mill (Screenless Equipment) are ideally designed for micro fine particle size. High air through put, unique multi-tip rotor and serrated liners create numerous air-whirls, turbulence and progressive grinding. The direction and speed of particle is suddenly changed within extremely short period, resulting into turbulent collision between particles. This ensures micronized fine & free-flowing product. Air classifier controls the top cut size. Spices grinder and air classifier mill machines manufacturers, suppliers, exporters, dealers and traders in India and worldwide from Gujarat and Mumbai since 1960 as per the ISO standards with required industrial features and specifications

The great turbulence and high air volume ensure a minimum temperature increase facilitating handling of heat sensitive materials. Classifying retains coarser particles, while suction fan discharge very fine powder to the cyclone separator and very fine dust is collected in the bag filter unit. All mills are supplied with pneumatic conveying system.

mikro acm air classifying mill

The Mikro ACM Air Classifying Mill is an air swept mechanical impact mill designed to grind a wide range of materials down to D97 < 20 m. Its durability, reliability, and precision are what make it one of the most popular industrial workhorses on the market.

The Mikro ACM Air Classifying Mill is designed to produce finer materials with sharper particle size distributions than most other impact milling technologies. In certain applications, a median particle size as low as 5 microns can be achieved.

The Mikro ACM - Air Classifying Mill system is available in a wide range of sizes, materials of construction, finishes, pressure & vacuum designs, system configurations and control schemes.

Due to the Mikro ACM - Air Classifying Mills air to material ratio requirement, heat sensitive materials can be handled without product degradation. When milling hygroscopic materials, conditioned inlet air can be used to reduce moisture in the system. In high temperature drying applications, the bearing housing can be insulated and air purged to protect the bearings. The mill can also operate with chilled air for heat sensitive materials to prevent build up and for more efficient grinding.

If your application requires frequent product changeover with cleaning in between, you may want to consider our Mikro ACM-Easy Access Air Classifying Mill design. This mill incorporates several unique features that allow it to be quickly and easily disassembled and cleaned.

The Mikro ACM - Air Classifying Mill requires air or gas for the conveying, size reduction and air classification of the product being processed. Air or gas is introduced to the Mikro ACM - Air Classifying Mill via the main air inlet and the product inlet. As much as 30% of the total air volume can be introduced at the product inlet depending upon the application. Feed material is pneumatically conveyed under vacuum or mechanically conveyed by an auger, into the feed inlet of the mill along with the process air. Ideally, material is fed at a constant rate via a volumetric or gravimetric feeding device.

After passing through the feed inlet, material enters the grinding zone. At this point, material comes in contact with the face of the rotating hammers, where impact takes place and the material is fractured into smaller particles. Situated around the perimeter of the grinding chamber is a multiple deflector liner. This component assists in slowing the peripheral velocity of the product and deflecting it back into the hammer path for more efficient impact and size reduction.

The product is then conveyed upwards by the air stream through a shroud and baffle assembly that changes the direction of the product/air mixture while directing it to the classification zone. The shroud and baffle assembly also provides a separation of the mill internal area into two zones; a grinding zone and a classifying zone.

Once the product enters the classification zone, the particles are presented to the rotating classifier wheel, where based upon size and density, the particles either pass through the classifier or oversize particles are rejected and flow back to the grinding zone for additional size reduction. The processed product/air mixture then exits through the mill outlet.

There are two main parameters that are used to control and change particle cut point or maximum particle size; air volume through the mill and rotational speed of the classifier. The air flow through the mill generates a drag force to convey the particles to the classifier and the rotational speed of the classifier generates a centrifugal force that rejects the particles away from the classifier. When these two forces are equalized for a given particle mass, that particle has an equal probability of being accepted or rejected at the face of the classifier wheel. Based upon varying these opposing forces either through a change in air volume, or a change in classifier speed, the particle top size cut point can be controlled.

The grinding chamber of the ACM houses both the components of the classifying and grinding zones. They include the impact rotor and hammers, the liner assembly, the shroud and baffle assembly and the classifier wheel. The grinding chamber can be designed to operate to 10 bar(g) overpressure for explosive materials.

Rotors are normally supplied as single discs; however options include reduced diameter rotors for use with heavy duty liners, and rotor discs with replaceable wear plates for abrasive applications. Hammers are bolted to the rotor disc and can be easily removed and replaced. Options include:

A liner is located at the grinding chamber wall. There are two basic types of liners; the multiple deflector (MD) liner is for fine size reduction and the smooth liner is for coarse size reduction and to minimize the generation of fines. The purpose of the liner is to provide for more efficient size reduction by slowing the peripheral speed of the particles and to deflect them back into the impact hammer path.

The shroud and baffle assembly serves two purposes; one is to separate the internal parts of the mill into a grinding zone and a classification zone, the other is to act as a flow straightener and provide for the recirculation of the air/material mixture to the classifier and then back to the grinding zone.

The classifier is a device used to separate particles into fine and coarse fractions. The selection of the classifier wheel type is application dependent. Classifiers can be provided in short to long configurations with varying numbers of blades and blade type. Basic designs include radial or canted blade configurations.

When grinding abrasive materials, pharmaceutical products or food ingredients, Hosokawa offers options to protect your mill from premature wear and to maintain the purity of product. Internal surfaces and contact parts, including the liner, grinding elements, classifier and chamber can be constructed of mild steel, stainless steel, and ceramic or coated with special alloys, like tungsten carbide.

Most Mikro ACM - Air Classifying Mill systems use an advanced PLC and an Operator Interface Terminal (OIT) to monitor and control the system operation. The PLC allows various operating parameters to be set by using PID loops. The PID Set Points can be entered on the OIT and changed while processing your material to optimize the milling process. An automatic start/stop sequence is programmed to insure consistent, repeatable results, free from operator error.

The control cabinets are completely wired and contain all necessary components to effectively keep your system making a quality product. Equipment upstream and downstream of the mill is usually integrated into the control system.

The Mikro ACM Air Classifying Mill is designed to produce finer materials with sharper particle size distributions than most other impact milling technologies. In certain applications, a median particle size as low as 5 microns can be achieved.

The Mikro ACM - Air Classifying Mill system is available in a wide range of sizes, materials of construction, finishes, pressure & vacuum designs, system configurations and control schemes.

Due to the Mikro ACM - Air Classifying Mills air to material ratio requirement, heat sensitive materials can be handled without product degradation. When milling hygroscopic materials, conditioned inlet air can be used to reduce moisture in the system. In high temperature drying applications, the bearing housing can be insulated and air purged to protect the bearings. The mill can also operate with chilled air for heat sensitive materials to prevent build up and for more efficient grinding.

If your application requires frequent product changeover with cleaning in between, you may want to consider our Mikro ACM-Easy Access Air Classifying Mill design. This mill incorporates several unique features that allow it to be quickly and easily disassembled and cleaned.

The Mikro ACM - Air Classifying Mill requires air or gas for the conveying, size reduction and air classification of the product being processed. Air or gas is introduced to the Mikro ACM - Air Classifying Mill via the main air inlet and the product inlet. As much as 30% of the total air volume can be introduced at the product inlet depending upon the application. Feed material is pneumatically conveyed under vacuum or mechanically conveyed by an auger, into the feed inlet of the mill along with the process air. Ideally, material is fed at a constant rate via a volumetric or gravimetric feeding device.

After passing through the feed inlet, material enters the grinding zone. At this point, material comes in contact with the face of the rotating hammers, where impact takes place and the material is fractured into smaller particles. Situated around the perimeter of the grinding chamber is a multiple deflector liner. This component assists in slowing the peripheral velocity of the product and deflecting it back into the hammer path for more efficient impact and size reduction.

The product is then conveyed upwards by the air stream through a shroud and baffle assembly that changes the direction of the product/air mixture while directing it to the classification zone. The shroud and baffle assembly also provides a separation of the mill internal area into two zones; a grinding zone and a classifying zone.

Once the product enters the classification zone, the particles are presented to the rotating classifier wheel, where based upon size and density, the particles either pass through the classifier or oversize particles are rejected and flow back to the grinding zone for additional size reduction. The processed product/air mixture then exits through the mill outlet.

There are two main parameters that are used to control and change particle cut point or maximum particle size; air volume through the mill and rotational speed of the classifier. The air flow through the mill generates a drag force to convey the particles to the classifier and the rotational speed of the classifier generates a centrifugal force that rejects the particles away from the classifier. When these two forces are equalized for a given particle mass, that particle has an equal probability of being accepted or rejected at the face of the classifier wheel. Based upon varying these opposing forces either through a change in air volume, or a change in classifier speed, the particle top size cut point can be controlled.

The grinding chamber of the ACM houses both the components of the classifying and grinding zones. They include the impact rotor and hammers, the liner assembly, the shroud and baffle assembly and the classifier wheel. The grinding chamber can be designed to operate to 10 bar(g) overpressure for explosive materials.

Rotors are normally supplied as single discs; however options include reduced diameter rotors for use with heavy duty liners, and rotor discs with replaceable wear plates for abrasive applications. Hammers are bolted to the rotor disc and can be easily removed and replaced. Options include:

A liner is located at the grinding chamber wall. There are two basic types of liners; the multiple deflector (MD) liner is for fine size reduction and the smooth liner is for coarse size reduction and to minimize the generation of fines. The purpose of the liner is to provide for more efficient size reduction by slowing the peripheral speed of the particles and to deflect them back into the impact hammer path.

The shroud and baffle assembly serves two purposes; one is to separate the internal parts of the mill into a grinding zone and a classification zone, the other is to act as a flow straightener and provide for the recirculation of the air/material mixture to the classifier and then back to the grinding zone.

The classifier is a device used to separate particles into fine and coarse fractions. The selection of the classifier wheel type is application dependent. Classifiers can be provided in short to long configurations with varying numbers of blades and blade type. Basic designs include radial or canted blade configurations.

When grinding abrasive materials, pharmaceutical products or food ingredients, Hosokawa offers options to protect your mill from premature wear and to maintain the purity of product. Internal surfaces and contact parts, including the liner, grinding elements, classifier and chamber can be constructed of mild steel, stainless steel, and ceramic or coated with special alloys, like tungsten carbide.

Most Mikro ACM - Air Classifying Mill systems use an advanced PLC and an Operator Interface Terminal (OIT) to monitor and control the system operation. The PLC allows various operating parameters to be set by using PID loops. The PID Set Points can be entered on the OIT and changed while processing your material to optimize the milling process. An automatic start/stop sequence is programmed to insure consistent, repeatable results, free from operator error.

The control cabinets are completely wired and contain all necessary components to effectively keep your system making a quality product. Equipment upstream and downstream of the mill is usually integrated into the control system.

Join our mail list: Hosokawa may occasionally send you email message regarding upcoming events, webinars and other programs. We promise you will be glad you joined our list. If you are not completely satisfied with what we send you, feel free to unsubscribe anytime. Read more about our privacy commitment on our disclaimer page.

Hosokawa Micron Powder Systems invented the Mikro ACM - Air Classifying Mill in 1962 to address the requirement for even finer size reduction. Since then many design enhancements make the Mikro ACM - Air Classifying Mill better than ever, assuring maximum performance, dependability and durability. All Hosokawa equipment is inspected and tested to meet strict standards before it is shipped to our customers. The Mikro ACM - Air Classifying Mill and System come with our pledge of performance and guaranteed dependability.

air classifier mill - jet mill

The air classifier mill uses air to carry the product through the fine grinding milling machine and classifying process. The feed material is conveyed through the pneumatic feed duct into the grinding zone. The main airflow enters the mill through the main air inlet underneath the grinding disc which rotates with tip speeds of 70 to 120 m/s. The grinding fineness is adjusted by the speed of the classifier wheel. Product of the desired particle size is drawn through the classifier, coarse material, is rejected for further size reduction. The fine particles are separated from the air in a cyclone / Filter downstream to the mill.

air classifier mill manufacturer india - rieco

RIECO Air classifier Mill (ACM) is an air classifying mill with integrated grinding, classifying, conveying, and collecting operations for achieving ultra-fine grinding (up to 2 micron*) depending upon the nature of the product.

Air classifying Mill / Air classifier Mill (ACM) can be designed for grinding hygroscopic, heat sensitive and explosive materials in inert gas/ closed loop systems with dry chilled air. Our classifiers are engineered to consistently produce steep particle size distributions that are uniform and homogeneous.

The material to be grinded is conveyed from the hopper to the grinding chamber by the variable feed screw mechanism. The grinding occurs when the product meets a pin or bar type rotor disc. As particles are reduced in size they are entrained by the Air stream which enters below the rotor and are carried up between the inner wall and shroud ring with baffles, the particles are then deflected by an air dispersion ring to the separator assembly. Acceptable product is drawn through the exhaust and is collected by a high efficiency bag filter. Oversize particles are carried downward by internal circulating air stream and return to Rotor for additional grinding.

acm mill | air classifier mill | acm mill | acm mill machinery manufacturers in ahmedabad,gujarat,india | acm mill | air classifier mill | acm mill | acm mill machinery manufacturers | jay divya fab industries

We as a Manufacturer and Supplier ofAir Classifying Milltake pleasure in being the one stop solution for our customers. Machines with bigger size and higher capacity like ACM-125, ACM-150, and ACM-200 are made available by us. In all sizes, we also provide Cyclone Classification for products like toner, pharma, sugar, metal powders, etc. Our product is equipped with various features like dust free operation, reliable and consistent output and economical price.

air classifier mill, air classifier grinding mill - all industrial manufacturers - videos

{{#each product.specData:i}} {{name}}: {{value}} {{#i!=(product.specData.length-1)}} {{/end}} {{/each}}

{{#each product.specData:i}} {{name}}: {{value}} {{#i!=(product.specData.length-1)}} {{/end}} {{/each}}

MTW-Z European Trapezium Mill Mature technology, Advanced idea, High productivity MTW-Z European Trapezium Mill is new product researched and developed by LIMING based on ordinary European type ...

Traditional equipment, Vertical structure Raymond Mill is the first generation grinding mill of Liming Heavy Industry. This machine takes advantages of small covered area, low investment costs and ...

Hard and/or temperature sensitive product? - No Problem!! General This innovative air jet mill is capable of fine grinding all kinds of dry products with virtually no contamination. Through this specialized ...

... entirely autogenous. Steam jets alone create the grinding energy. No tool wear occurs! An integrated dynamic air classifier in the housing can be infinitely adjusted to the desired fineness. This guarantees ...

... Density Bed Jet Mill is specially designed for producing different materials with the highest quality independent of the product load and with higher material capacities. Its standard equipment includes spiral jet mill ...

jet mill | air classifier mill | pin mill | jet mill manufacturer

Micronization is a term used to describe size reduction where the resulting particle-size distribution is less than 10 microns. Jet mills are used for micronizing of solids of chemicals, pharmaceuticals, pigments, minerals and others like heat sensitive, corrosive and abrasive materials.

air classifier mill

The Grinding process is not only to serve extruding and pelleting process but onemore important goal is to increase the exchange rate of feed to achieve a highermeat /feed value. Nowadays the sinking pellet material must to reach the fineness80 mesh pass through 90%,the floating expansion material must to reach thefineness 80 mesh pass through 90~97% and 100% pass through 40 mesh to avoidblocking small pellet Die.

Vertical Pulverize generally ,to equip on the sinking feed process of shrimp or fish.Material particle size can reach to 60~100 mesh passing through 95~99%. Specialalloy plate hammer and teeth liner which has good anti-wear character to prolongusing life. Generally. Plate hammer life will be 1500-3000T depend on the materialcomponent. The Turbo-wheel separator are installed on the top of grinding mill. So,it can easy to adjust particle size as our desire.

When tracking mouse movement, you usually need to know the actual position of the mouse pointer. The event object that is passed to the handler contains some information about the mouse coordinates.

Taiwantrade.com and iDealEZ.com uses analytical cookies and other tracking technologies to offer you the best possible user experience. By using our website, you acknowledge and agree to our cookie policy.

csm-vd air classifier mill products virtual showroom

Widely used in non-metallic minerals(Mohs hardness<5), battery materials, chemical, inorganic salts, pharmaceuticals, food, pigments, dyes, pesticides, battery materials, minerals, refractory materials and other industries.

air classifying mill - alpa powder technology

ALPA enjoys a high reputation in more than 100 countries and regions around the world. With its high-quality products and services, it has won the trust of many well-known brand companies around the world.

According to different materials and application industries, the production capacity and particle size range will be different. Please contact our engineers to customize the equipment for you. Our experts will contact you within 6 hours to discuss your needs for machine and processes.

The material is uniformly sent into the grinding chamber by the feeding system, and is strongly impacted by the high-speed rotating grinding disc. At the same time, it is subjected to the centrifugal force to collide with the crushing ring gear, and is subjected to various comprehensive forces such as shearing, friction, and collision. The material is ground, and the crushed material moves to the classification area with the airflow. The coarse and fine materials are separated through the classification wheel adjusted by the frequency conversion. The products that meet the fineness requirements enter the cyclone collector and the dust collector with the airflow for collection, and the coarse particles return to the grinding area to continue shattered.

Note: The production capacity is closely related to the particle size, specific gravity, hardness, moisture and other indicators of the raw materials. The above parameters are for reference only, please consult our engineers for details.