Key Points For Purchasing Ultrasonic Cell Grinder

Ultrasonic cell crusher, also known as ultrasonic cell crusher, ultrasonic cell crusher, and ultrasonic cell crusher, is a multifunctional and versatile instrument that utilizes strong ultrasound to generate cavitation effects in liquids and perform ultrasonic treatment on substances. It can be used for the crushing of animal and plant tissues, cells, bacteria, and spore strains, as well as for emulsification, separation, dispersion, homogenization, extraction, and degassing Cleaning and accelerating chemical reactions, etc. It is widely used in fields such as biochemistry, microbiology, pharmaceutical chemistry, surface chemistry, physics, zoology, etc.
There are two common working frequencies for standard ultrasonic cell pulverizers in laboratories: 20-25KHz and 19.5-20.5KHz. Currently, there are mainly FS series cell shredders that use ultrasound frequencies of 19.5 to 20.5KHz. In addition, there is also a cup type ultrasonic cell grinder that uses an ultrasonic frequency of 19.5-20.5KHz.
In different experimental processes, different power ultrasonic cell pulverizers are required due to the differences in experimental samples and crushing capacity. Even when the crushing capacity is the same, the power requirements for ultrasonic cell pulverizers vary due to differences in experimental samples and purposes. For example, when the amount of fragmentation during the experiment is around 100ml, further determining the purpose of the experiment: to extract sample protein, only the non-contact ultrasonic processor meets the requirements. The functional characteristics of the instruments vary, so users can decide which instrument to purchase based on factors such as purchasing expenses.
Another accessory closely related to the normal operation of the ultrasonic cell crusher is the amplitude lever, also known as the "tip" head. Due to the varying capacities of samples crushed by ultrasonic cell pulverizers during the experimental process, it is necessary to use appropriate ultrasonic power and amplitude changing rods to ensure the normal operation of the instrument. If the ultrasonic power is low and a large tip is used, the amplitude converter cannot work. Conversely, if the ultrasonic power is high and the tip is small, the amplitude converter will be damaged.