Ultrasonic breaker is a device commonly used in laboratories and industrial production, which uses the vibration of ultrasonic waves to break up samples for experimental or production purposes. Compared with the traditional mechanical crushing method, the ultrasonic crusher has the advantages of good crushing effect, fast speed and no introduction of impurities.
In an ultrasonic breaker, the probe is one of the core components. It transfers energy to the sample by applying ultrasonic vibrations to it, causing it to break. However, in the case of conventional ultrasonic breakers, the probe is in direct contact with the sample, which can lead to contamination of the sample or damage to the probe.
In order to solve this problem, the non-contact ultrasonic crusher came into being. Its probe does not make direct contact with the sample, but instead transmits ultrasound waves to the sample through air or other mediums. In this way, sample contamination is avoided and probe wear and repair costs are reduced.
The non-contact ultrasonic crusher is structurally different from the traditional ultrasonic crusher. It requires the use of a specialized air compressor or air source to provide compressed air in order to deliver ultrasound waves to the sample. In addition, the probe of a non-contact ultrasonic breaker is also different from the probe of a traditional ultrasonic breaker in that it needs to be able to transmit ultrasonic waves to the sample by air or other media.
In addition to avoiding sample contamination and probe wear, non-contact ultrasonic breakers offer other benefits. For example, it can be adapted to different types of samples, including solid, liquid, and gaseous samples. In addition, because the non-contact ultrasonic breaker transmits ultrasonic energy through air or other media, it can better control the experimental conditions and reduce experimental errors.
In conclusion, the non-contact ultrasonic breaker is an advanced experimental equipment with a variety of advantages. Its probe does not touch the sample, which prevents the sample from being contaminated, and also reduces probe wear and repair costs. In addition, the non-contact ultrasonic breaker can also be applied to different types of samples, better control of experimental conditions, and reduce experimental errors. Therefore, it has a wide range of application prospects in laboratory and industrial production.