Shenzhen Xinkaida Electronics Co., Ltd. |
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19L 420W Heating Benchtop Ultrasonic Cleaner For Printing Screen Stencil
Specifications:
Model name | F-080SD |
Internal tank size | 500*300*150mm |
Application | Clean Spray Flannel Mold |
Function | Removing dirts, oil, rust, grease |
Feature | No damage to precision mold |
Tank capacity | 22L |
Ultrasonic power | 480W |
Heating power | 150W |
Time control | 0~99 minutes |
Temperature control | 20~95℃ |
Water inlet / outlet | Yes |
Voltage | 220V / 110V |
Same models with different capacity
Model | capacity | tank size(mm) | Ultrasonic power |
F-009SD | 1.3L | 150*135*65 | 60W |
F-010SD | 2L | 150*165*100 | 60W |
F-020SD | 3.2L | 240*135*100 | 120W |
F-030SD | 4.5L | 300*150*100 | 180W |
F-031SD | 6.5L | 300*150*150 | 180W |
F-040SD | 10L | 300*240*150 | 240W |
F-050SD | 14L | 300*240*200 | 300W |
F-060SD | 15L | 330*300*150 | 360W |
F-070SD | 19L | 330*300*200 | 420W |
F-080SD | 22L | 500*300*150 | 480W |
F-100SD | 30L | 500*300*200 | 600W |
Ultrasonic extraction uses the multi-stage effects such as the strong cavitation stress effect, mechanical vibration, disturbance effect, high acceleration, emulsification, diffusion, crushing and stirring effects generated by the pressure of ultrasonic radiation, increasing the frequency and speed of material molecules and increasing solvent penetration Penetrating power, thereby accelerating the target ingredients into the solvent and facilitating the extraction
Ultrasound is an elastic mechanical vibration wave, which is
fundamentally different from electromagnetic waves. Because
electromagnetic waves propagate in a vacuum, ultrasonic waves must
propagate in the medium. When passing through the medium, the
entire process of expansion and compression is formed.
In liquids, a negative pressure is created during the expansion
process. If the ultrasonic energy is strong enough, the expansion
process can create bubbles in the liquid or tear the liquid into
small cavities. These cavities are closed instantaneously, and an
instantaneous pressure of up to 3000 MPa is generated when the
cavity is closed, which is called cavitation.
Cavitation refines substances and makes emulsions, accelerates
target ingredients into solvents, and improves extraction rates. In
addition to cavitation, many secondary effects of ultrasound are
also beneficial for the transfer and extraction of target
components
The above-mentioned effect of ultrasonic waves is very effective in
extracting various target components from different types of
samples.
The high temperature and pressure generated on the contact surface
between the organic solvent and the solid substrate by applying
ultrasonic waves, plus the oxidizing energy of the free radicals
generated by ultrasonic decomposition, etc., thereby providing high
extraction energy.