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What is an Ultrasonic Cell Grinder?
An ultrasonic cell grinder is to convert electrical energy into sound energy through a transducer. Then sound energy turns into a dense cluster of small bubbles through the liquid medium. These bubbles burst rapidly to create a bomb-like energy that can break up cells and other materials. An ultrasonic cell grinder possesses the functions of breaking tissues, bacteria, viruses, spores and other cellular structures, homogenizing, emulsifying, mixing, degassing, disintegrating and dispersing, leaching and extraction, accelerating reaction and other functions.
How does an Ultrasonic Cell Grinder Work?
It converts electrical energy into sound energy through a transducer. Then sound energy turns into a dense cluster of small bubbles through the liquid medium. Theses bubbles burst rapidly to create a bomb-like energy that can break up cells and other materials.
What is an Ultrasonic Cell Grinder Used for?
An ultrasonic cell grinder is widely used in laboratory research and enterprise production of biology, medicine, chemistry, pharmaceutical, food, cosmetics, environmental protection and other fields.
What is Ultrasonic Emulsification?
The ultrasonic emulsification refers to the process where ultrasonic devices are used for emulsification. These ultrasonic devices can generate shock waves, acoustic streaming and acoustic cavitation, which can intensify the disruption of oil droplets, forming emulsions with smaller droplets compared with mechanical stirring.
Why Ultrasonic Waves are Used?
As an elastic mechanical wave in material mediums, the ultrasonic wave is a kind of fluctuation form, which can function as the diagnostic ultrasound to detect the physiological and pathological information of the human body. Meanwhile, it is also a form of energy. When a certain amount of ultrasound is transmitted in the organism, the interaction among them will bring about changes of organism’s functions and structures, known as ultrasound biological effect. The main effects of ultrasound on cells are thermal effect, cavitation effect and mechanical effect.
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