Ultrasonic cleaning machine is a cleaning equipment that uses small bubbles generated by high-frequency ultrasonic vibration to instantly form and rupture in a liquid, generating strong impact and eddy currents, thereby achieving the purpose of cleaning the surface of materials. It can clean various types of pollutants, among which pigment pollutants can also be efficiently cleaned using an ultrasonic cleaning machine. The following will introduce how ultrasonic cleaning machines clean pigment pollutants.
1、 Cleaning principle
Pigment pollutants usually adhere closely to the surface of the material and are not easily removed by traditional cleaning methods. When ultrasonic cleaning machines clean pigment pollutants, tiny bubbles generated by high-frequency ultrasonic vibration can instantly form and rupture in the liquid, generating strong impact and eddy currents, thereby separating and removing pigment pollutants.
The cleaning effect of ultrasonic cleaning machines is influenced by multiple factors, such as the type and concentration of cleaning solution, ultrasonic frequency and power, and cleaning time. For the cleaning of pigment pollutants, appropriate cleaning parameters need to be selected based on factors such as the type, severity, and material properties of the pigment.
2、 Cleaning steps
The steps for cleaning pigment pollutants with an ultrasonic cleaning machine are as follows:
(1) Choose a suitable cleaning solution
Cleaning solution is one of the key factors in ultrasonic cleaning, which can help separate and dissolve pigment pollutants. In general, the selection of cleaning solution should be based on factors such as the type of pigment, severity, and material properties. Generally speaking, using strong solvents can improve the cleaning effect, but it may also cause damage to materials. Therefore, appropriate cleaning fluids should be selected based on the actual situation.
(2) Pour the cleaning solution into the cleaning tank
Pour the selected cleaning solution into the cleaning tank of the ultrasonic cleaning machine, paying attention to the concentration of the cleaning solution and the capacity of the cleaning tank, which should be selected based on the size and quantity of the cleaning material.
(3) Put the cleaning material into the cleaning tank
Place the pigment pollutants that need to be cleaned into the cleaning tank, taking care not to stack or overlap excessively to avoid affecting the cleaning effect
(4) Select appropriate cleaning parameters
Select appropriate parameters such as ultrasonic frequency, power, and cleaning time based on factors such as the type, severity, and material properties of the pigment. Generally speaking, the higher the ultrasonic frequency, the better the cleaning effect, but it also increases the risk of material damage; The higher the ultrasonic power, the better the cleaning effect, but it also increases the amount of cleaning fluid used and energy consumption. The cleaning time should be selected based on the severity of pigment pollutants, and generally does not require a long cleaning time.
(5) Start the ultrasonic cleaning machine for cleaning
Place the cleaning material into the cleaning tank and start the ultrasonic cleaning machine according to the selected cleaning parameters for cleaning. During the cleaning process, the ultrasonic vibration in the cleaning solution generates strong impact and eddy currents, helping to separate pigment pollutants from the material surface and dissolve them in the cleaning solution.
(6) Rinse the cleaning material
After cleaning, it is necessary to remove the cleaning material and thoroughly rinse it with clean water to avoid residual cleaning solution on the surface of the material causing environmental pollution or material damage. After thorough rinsing, air dry the cleaning material.
This article is organized and published by a spray cleaning machine. Do you have any understanding of these contents? For more information, please click on: http://www.xayoudao.com We will have more exciting content waiting for you to check out.