How does Nano Calcium Deagglomeration Machine prevent coarse particle contamination?

In the processing of nanomaterials, the agglomeration of particles often leads to a decline in the quality of the final product. For materials such as nano calcium, agglomeration not only affects its dispersion and uniformity in application, but may also cause coarse particle contamination problems. This contamination will reduce the functionality of the material and affect its application effect in composite materials, coatings, plastics and other fields. Therefore, when Nano Calcium Deagglomeration Machine is processing nano calcium, it must effectively prevent the contamination of coarse particles to ensure high-quality material output.

Nano calcium particles are prone to agglomeration during production and storage due to their small primary particle size and high surface energy. This agglomeration causes the particles to attract each other through van der Waals forces, electrostatic forces, etc., forming larger clusters. In the process of deagglomeration, if effective technical means are not adopted, these agglomerates will not only fail to be completely broken up, but also may produce new coarse particles due to mechanical friction or equipment failure.

In order to ensure the high purity and good dispersibility of nano calcium, Nano Calcium Deagglomeration Machine must effectively prevent the generation and introduction of these coarse particles during the deagglomeration process. This is not only related to the core technology of the deagglomeration equipment, but also involves the overall design and operation process of the equipment.

Through a series of advanced technical design and optimization measures, Nano Calcium Deagglomeration Machine can effectively prevent the contamination of coarse particles and ensure the high-quality output of nano calcium. The following are its main technical features and key means to prevent coarse particle contamination:

1. Efficient shear force dispersion technology
Nano Calcium Deagglomeration Machine adopts high shear force dispersion technology, which can accurately treat nano calcium agglomerates. High shear force can break the attraction between particles and gradually decompose the agglomerates into individual nano-scale particles. The shearing action in this process is uniform and the intensity is controllable, ensuring that the particles will not be broken due to excessive treatment, avoiding the generation of coarse particles.

2. Vibration and fluid dynamics control
In terms of preventing coarse particle contamination, Nano Calcium Deagglomeration Machine also adopts advanced vibration and fluid dynamics control technology. This technology maintains the dispersion state of nano calcium particles during the deagglomeration process through high-speed vibration and fluid dynamics. The fluid dynamics control system can accurately adjust the movement path of the nano-calcium particles in the deagglomeration chamber to ensure that the particles do not re-agglomerate or collide to produce coarse particles during high-speed movement.

Vibration technology also helps to reduce the formation of agglomerates during the deagglomeration process. Under the action of high-frequency vibration, the nano-calcium particles can be in a state of continuous motion to avoid re-agglomeration due to stillness. Through the combined application of these technologies, the Nano Calcium Deagglomeration Machine achieves more stable particle dispersion and reduces the generation of coarse particles.

3. Accurate particle size control
The contamination of coarse particles usually comes from incomplete particle deagglomeration or inaccurate equipment operation. To solve this problem, the Nano Calcium Deagglomeration Machine is equipped with a high-precision particle size control system. The system monitors the particle size distribution during the deagglomeration process in real time to ensure that the equipment can prevent the particle size from exceeding the preset range while deagglomerating.