Let me now discuss ultrasonic cleaning, the backbone of the new technology. The principle is important, and the applications are unlimited, depending on the object. This is the basic technology that was first discovered and put into practical use by the author in the world during the CFC era, and has been refined under the…続きを読む
The application of the giant cavities (micro vacuum nuclei), which can reach 10 mm in diameter, does not stop at simply powerful unmatched ultrasonic cleaning. As a deburring cleaning device after machining and precision molding, it is used in the manufacturing processes of automotive parts, electronic parts, medical parts, etc 第3回・第4回 プレス技術 en-US
Deburring and cleaning of computer parts Deburring and cleaning of precision machine parts Deburring and cleaning of automotive parts Deburring and cleaning of telecommunication equipment parts Removal of micro burrs and precision cleaning of other metals, plastics, ceramics, etc. 超音波・微小バリ取り・洗浄装置の特徴 en-US-01
Ultrasonic cavitation application technology has made great progress over the past few years. The diameter of cavities (microvacuum nuclei) generated by ultrasonic waves has changed from 0.5 mmΦ in conventional ultrasonic cleaning to nowadays, huge cavities with a diameter of 10 mm are available. The impact energy is cubic times the diameter. 超音波キャビティーション応用技術・バリ取り、研磨、鋳砂除去 en-US
at the beginning Ultrasonic deburring and cleaning technology is one of the cavitation application technologies generated by ultrasonic waves. Hence, we would like to first review ultrasonic cleaning technology. Ultrasonic cleaning is a cleaning method that emits powerful ultrasonic waves into a liquid and uses the impact force generated when cavities are created and extinguished.…続きを読む
Larger spherical nebula cavity and latest ultrasonic deburring cleaning at the beginning Ultrasonic deburring and cleaning technology is one of the cavitation application technologies generated by ultrasonic waves. Hence, we would like to first review ultrasonic cleaning technology. 超音波テクノ_20221018_投稿 en-US-01