


Fluidized Bed Jet Mill is suitable to pulverize the hard, abrasive, or heat-sensitive materials, producing ultrafine powders with precise particle size control. This technology is ideal for producing high-purity products with narrow particle size distributions, typically within the range of d97 = 2-40 μm.

Capacity:
0.5-600 kg/h

Maximum feed particle size:
5mm

Output fineness:
0.5-75 μm

Applicable Materials:
Suitable for dry ultrafine grinding of various materials, especially effective for materials with viscosity. Widely used in chemicals, pharmaceuticals, food, minerals and other industries.

Fluidized Bed Jet Mill is suitable to pulverize the hard, abrasive, or heat-sensitive materials, producing ultrafine powders with precise particle size control. This technology is ideal for producing high-purity products with narrow particle size distributions, typically within the range of d97 = 2-40 μm.

Capacity:
0.5-600 kg/h

Maximum feed particle size:
5mm

Output fineness:
0.5-75 μm

Applicable Materials:
Suitable for dry ultrafine grinding of various materials, especially effective for materials with viscosity. Widely used in chemicals, pharmaceuticals, food, minerals and other industries.

Ultrafine Fineness
With 80m/s line speeds, the patented classifier ensures precise d97 < 2 μm output and narrow particle distribution.

High Purity / No Contamination
Autogenous grinding ensures zero contamination via particle-to-particle impact, making it perfect for high-purity materials.

Wear-Free Operation
Minimal wall contact reduces wear. For abrasive materials, durable ceramic or Vulkollan linings ensure long-term service.

Low Temperature Grinding
Gas expansion creates a cooling Joule-Thomson effect, making this mill ideal for heat-sensitive or low-melting materials.

Steep Particle Size Distribution
The integrated classifier removes oversized particles, ensuring a sharp, consistent size profile and high quality.

Flexible Operation
Reducer transmission ensures smooth, stable operation, delivering higher output with minimal energy waste.

Ultrafine Fineness
With 80m/s line speeds, the patented classifier ensures precise d97 < 2 μm output and narrow particle distribution.

High Purity / No Contamination
Autogenous grinding ensures zero contamination via particle-to-particle impact, making it perfect for high-purity materials.

Wear-Free Operation
Minimal wall contact reduces wear. For abrasive materials, durable ceramic or Vulkollan linings ensure long-term service.

Low Temperature Grinding
Gas expansion creates a cooling Joule-Thomson effect, making this mill ideal for heat-sensitive or low-melting materials.

Steep Particle Size Distribution
The integrated classifier removes oversized particles, ensuring a sharp, consistent size profile and high quality.

Flexible Operation
Reducer transmission ensures smooth, stable operation, delivering higher output with minimal energy waste.
| Model | Air Consumption (m3/min) | Working Pressure (mpa) | Feed Size (mesh) | Output Size (um) | Capacity (kg/h) | Motor(kw) |
| CLJM-100 | 3 | 0.75-0.85 | 50-325 | 0.5-75 | 0.5-10 | 25 |
| CLJM-200 | 4.5 | 0.75-0.85 | 50-325 | 0.5-75 | 10-100 | 40 |
| CLJM-300 | 6 | 0.75-0.85 | 50-325 | 0.5-75 | 80-120 | 60 |
| CLJM-400 | 10 | 0.75-0.85 | 50-325 | 0.5-75 | 50-260 | 95 |
| CLJM-600 | 20 | 0.75-0.85 | 50-325 | 0.5-75 | 80-450 | 188 |
| CLJM-800 | 40 | 0.75-0.85 | 50-325 | 0.5-75 | 200-600 | 380 |

Talc, Calcite, Calcium Carbonate, Kaolin, Mica, Barite, Quartz, Zircon Sand, Alumina, Silicon Carbide,Activated Carbon, Graphite, Iron Oxide, Titanium Dioxide, Pesticides, Oxalates, Silica Gel, Pigments (Organic & Inorganic),Active Pharmaceutical Ingredients (APIs), Excipients, Inhalation-grade drugs,Lithium Cobalt Oxide, Manganese Oxide, Lithium Iron Phosphate, Graphite for anodes,Tungsten Carbide, Cobalt, Molybdenum, Metal Powders for Additive Manufacturing,Powder Coatings, Toner, Spices, Starches, Wax

Talc, Calcite, Calcium Carbonate, Kaolin, Mica, Barite, Quartz, Zircon Sand, Alumina, Silicon Carbide,Activated Carbon, Graphite, Iron Oxide, Titanium Dioxide, Pesticides, Oxalates, Silica Gel, Pigments (Organic & Inorganic),Active Pharmaceutical Ingredients (APIs), Excipients, Inhalation-grade drugs,Lithium Cobalt Oxide, Manganese Oxide, Lithium Iron Phosphate, Graphite for anodes,Tungsten Carbide, Cobalt, Molybdenum, Metal Powders for Additive Manufacturing,Powder Coatings, Toner, Spices, Starches, Wax

HGM80 Layout Drawing
Thousands of production lines operating stably, earning a global reputation for excellence.
HGM80 Layout Drawing

HGM100L-Ⅱ Layout Drawing
Thousands of production lines operating stably, earning a global reputation for excellence.
HGM100L-Ⅱ Layout Drawing

HGM125L Layout Drawing
Thousands of production lines operating stably, earning a global reputation for excellence.
HGM125L Layout Drawing

HGM80 Layout Drawing
Thousands of production lines operating stably, earning a global reputation for excellence.
HGM80 Layout Drawing

HGM100L-Ⅱ Layout Drawing
Thousands of production lines operating stably, earning a global reputation for excellence.
HGM100L-Ⅱ Layout Drawing

HGM125L Layout Drawing
Thousands of production lines operating stably, earning a global reputation for excellence.
HGM125L Layout Drawing
The feed material is introduced to the grinding chamber through a rotary valve or a screw feeder. Material is entrained by the high-velocity gas streams created by the nozzles, and size reduction occurs as a result of particle-to-particle collision in the gas stream and at the focal point of the nozzles.The coarse and fine particles are separated due to the centrifugal force generated by the rotating classifier.The fine particles that meet the size requirements enter the cyclone separator and dust collector for collection.The coarse particles descend to the grinding chamber for further size reduction.

01
Step 1: Compressed Air Treatment
The fluid energy comes from the compressed air that has been filtered, refrigerated and dried.
02
Step 2: Energy Conversion
This pressurized gas is forced through a series of specially designed nozzles, converting the pressure energy into kinetic energy.
03
Step 3: Material Feeding
The material is introduced into the grinding chamber via venturi injector.
04
Step 4: Collection & Recirculation
The particles collide with each other and get pulverized under a high-speed jet stream.
05
Step 5: Airflow Conveying
The resulting fine particles leave the grinding chamber with the gas stream.
06
Step 6: Separation & Collection
After the particles and the gas are separated, the micronized product gets collected in a container. The filtered gas is vented.
The feed material is introduced to the grinding chamber through a rotary valve or a screw feeder. Material is entrained by the high-velocity gas streams created by the nozzles, and size reduction occurs as a result of particle-to-particle collision in the gas stream and at the focal point of the nozzles.The coarse and fine particles are separated due to the centrifugal force generated by the rotating classifier.The fine particles that meet the size requirements enter the cyclone separator and dust collector for collection.The coarse particles descend to the grinding chamber for further size reduction.

01
Step 1: Compressed Air Treatment
The fluid energy comes from the compressed air that has been filtered, refrigerated and dried.
02
Step 2: Energy Conversion
This pressurized gas is forced through a series of specially designed nozzles, converting the pressure energy into kinetic energy.
03
Step 3: Material Feeding
The material is introduced into the grinding chamber via venturi injector.
04
Step 4: Collection & Recirculation
The particles collide with each other and get pulverized under a high-speed jet stream.
05
Step 5: Airflow Conveying
The resulting fine particles leave the grinding chamber with the gas stream.
06
Step 6: Separation & Collection
After the particles and the gas are separated, the micronized product gets collected in a container. The filtered gas is vented.


Production Capacity Advantage
Equipped with 6 specialized HGM production lines, we guarantee robust output and rapid delivery cycles, ensuring a stable and timely supply for even the largest global industrial projects

Location Advantages
Ideally situated just 20 minutes from Shanghai Pudong International Airport (PVG), Clirik or our company offers seamless accessibility for international factory inspections and a high-speed logistics gateway for rapid global shipping.
20+
Years Excellence

120+
Countries


280+
Materials


3600+
Projects


Production Capacity Advantage
Equipped with 6 specialized HGM production lines, we guarantee robust output and rapid delivery cycles, ensuring a stable and timely supply for even the largest global industrial projects

Location Advantages
Ideally situated just 20 minutes from Shanghai Pudong International Airport (PVG), Clirik or our company offers seamless accessibility for international factory inspections and a high-speed logistics gateway for rapid global shipping.
20+
Years Excellence

120+
Countries
280+
Materials

3600+
Projects


Advanced Mineral Analysis (XRF/XRD)
We provide precise chemical and physical testing to identify your mineral’s industrial potential and ensure the most accurate equipment selection.

Industrial-Scale Trial Runs
Ship your raw materials to our facility for a live demonstration on our dedicated HGM80 pilot line to witness real working performance purchase.

Certified Performance Data
Receive detailed technical reports on achievable fineness (D97), hourly output, and power consumption to provide an empirical foundation for your investment.

Tailored Technical Consulting
Based on test results, we customize your system configuration and provide ROI projections to maximize your long-term operational profitability.


Advanced Mineral Analysis (XRF/XRD)
We provide precise chemical and physical testing to identify your mineral’s industrial potential and ensure the most accurate equipment selection.

Industrial-Scale Trial Runs
Ship your raw materials to our facility for a live demonstration on our dedicated HGM80 pilot line to witness real working performance purchase.

Certified Performance Data
Receive detailed technical reports on achievable fineness (D97), hourly output, and power consumption to provide an empirical foundation for your investment.

Tailored Technical Consulting
Based on test results, we customize your system configuration and provide ROI projections to maximize your long-term operational profitability.


Experienced Global Installation Team
Our seasoned engineers provide on-site assembly, precision alignment, and seamless commissioning worldwide, ensuring your production line starts correctly from day one.

Advanced Remote Diagnostic Support
Leveraging real-time data monitoring, our senior electrical experts provide instant remote troubleshooting and ‘cloud-based’ technical guidance to minimize project downtime.

Comprehensive Technical Training
We offer thorough hands-on training for your local operators, covering safety protocols, routine maintenance, and system optimization to ensure long-term operational success.

Rapid Response & Lifecycle Service
With a focus on customer success, our rapid-response system provides lifetime technical support and genuine spare parts delivery to keep your factory running at peak efficiency.


Experienced Global Installation Team
Our seasoned engineers provide on-site assembly, precision alignment, and seamless commissioning worldwide, ensuring your production line starts correctly from day one.

Advanced Remote Diagnostic Support
Leveraging real-time data monitoring, our senior electrical experts provide instant remote trouble shooting and ‘cloud-based’ technical guidance to minimize project downtime.

Comprehensive Technical Training
We offer thorough hands-on training for your local operators, covering safety protocols, routine maintenance, and system optimization to ensure long-term operational success.

Rapid Response & Lifecycle Service
With a focus on customer success, our rapid-response system provides lifetime technical support and genuine spare parts delivery to keep your factory running at peak efficiency.



Suitable for high-hardness and high-value materials such as silicon carbide, zirconia, alumina, rare earth materials, hard alloys, and heat-sensitive materials. Also effective for materials with viscosity.
Yes. The high-speed airflow impacts at Mach 2.5 or above, effectively crushing materials with Mohs hardness up to 7-8, such as silicon carbide and corundum.
No grinding media is used. Crushing is achieved by particle-to-particle impact and friction against the crushing wall, eliminating the risk of media contamination.
0.5-75 μm (200-25000 mesh). Easy to obtain 1-10 μm particles, and even sub-micron particles for some materials.
0.5-800 kg/h depending on the model and material characteristics.

Suitable for high-hardness and high-value materials such as silicon carbide, zirconia, alumina, rare earth materials, hard alloys, and heat-sensitive materials. Also effective for materials with viscosity.
Yes. The high-speed airflow impacts at Mach 2.5 or above, effectively crushing materials with Mohs hardness up to 7-8, such as silicon carbide and corundum.
No grinding media is used. Crushing is achieved by particle-to-particle impact and friction against the crushing wall, eliminating the risk of media contamination.
0.5-75 μm (200-25000 mesh). Easy to obtain 1-10 μm particles, and even sub-micron particles for some materials.
0.5-800 kg/h depending on the model and material characteristics.
CONTACT US
Every mineral has its unique value. Share your material specs and capacity
needs, and CLIRIK experts will tailor a cost-effective grinding solution to ensure
your project’s successful operation.
Address

No.19, Fuqing Rd, Pudong
New Area, Shanghai, China.
Find Us On :
Every mineral has its unique value. Share your material specs and capacity
needs, and CLIRIK experts will tailor a cost-effective grinding solution to ensure
your project’s successful operation.
Address

No.19, Fuqing Rd, Pudong
New Area, Shanghai, China.
