Micronizer mill with air selector “PPS” series
Input power supply: 0 to 10 mm
Fineness range: 0 ÷ 40 micron
Flow rate: 500 to 3000 kg/hour
Pulverizing plants made by CIMMA Morandotti S.P.A. are designed to excel in the production of ultra fine powders, which are essential for applications in sectors such as mining, chemical, food, and pigments. Our pulverizer machines ensure optimal particle size distributions thanks to advanced technological solutions:
“Transform and give value to your raw material. With CIMMA pulverizing technologies you achieve the finesse that makes a difference in your products.”
Obtaining ultra fine powders with a homogeneous particle size distribution is critical to ensure the optimal performance of your products in specific industries. The precise pulverization offered by CIMMA plants allows you to enhance the properties of temperature sensitive materials, improving their dispersibility in complex matrices, surface chemical reactivity, coloring power for aesthetic applications, and many other key characteristics for specialized and innovative applications.
The efficiency of our pulverizing equipment translates into high quality and maximum productivity for your business. CIMMA is committed to providing reliable, high-performance solutions designed to optimize energy consumption and reduce production costs, enabling you to obtain high-quality ultrafine powders competitively and sustainably, meeting the growing needs of the market.
Our advanced plants utilize cutting-edge pulverization methods, leveraging precise control of rotor speed and optimized conditions in the grinding chamber to guarantee fine grinding and consistent results. With operations carried out mostly at room temperature or using liquid nitrogen cooling when necessary, CIMMA ensures the integrity of temperature sensitive feed materials while maximizing efficiency through high speed processing.
The broad capabilities of our systems make CIMMA the ideal partner for treating a wide range of materials, transforming them into fine powders with excellent reproducibility and quality.