Things to know about ultrasonic
Ultrasonic is the technology that allows your TV to change channels, turn on and off, and more. It’s also used in many other areas of life. Below you can read more here on ultrasonics.
Ultrasonics is a subfield of acoustics that deals with sound waves with frequencies higher than 20 kHz. Ultrasound can be used for medical imaging, industrial testing and cleaning, consumer products such as electronic pest repellents and electronic dog training aids, and entertainment devices such as sonar.
The word ultrasound was coined in the early 1930s by American physicist Alfred Lee Loomis (1887–1960) when he tried to develop a method to detect sub-surface cracks in metal parts using beams of high frequency sound (above the range of human hearing). He called it “ultrasonics” because his device operated at wavelengths longer than those audible to humans. The first production ultrasound device was developed by Harold Echols at Bell Laboratories in 1940.
Ultrasonic cleaning is a non-chemical method of cleaning that uses high frequency sound waves to remove dirt and stains from the surface of an object. The process is energy efficient, environmentally friendly, and uses less water than traditional cleaning methods.
The use of ultrasonic technology dates back to the early 1900s when engineers began experimenting with high frequency sound waves for cleaning applications. The results were promising, but it wasn’t until the 1950s and 1960s that progress was made towards commercializing this technology.
Today, ultrasonic cleaners are used in a wide variety of industries including healthcare, food processing, automotive and electronics manufacturing.
There are two types of ultrasonic cleaners: immersion and spray. Immersion cleaners utilize a tank filled with liquid as the medium in which to clean an object. Spray cleaners use compressed air to spray the liquid onto an object for cleaning. Both methods produce similar results when used correctly by trained professionals.
Ultrasonic cleaners use high-frequency sound waves to remove dirt, debris and bacteria from a variety of surfaces. This process is called cavitation.
The ultrasonic cleaning process uses high-frequency sound waves to remove dirt, debris and bacteria from a variety of surfaces. This process is called cavitation.
Cavitation occurs when the ultrasonic probe passes over a surface, causing bubbles to form in the liquid solution, which then implode violently. The imploding bubbles create shockwaves that clean the surface by loosening dirt particles and breaking down proteins.
Ultrasonics are ideal for cleaning delicate jewelry because they do not cause damage to the item being cleaned. Ultrasonic cleaners are also safe for use on items that cannot withstand intense heat or chemicals.
