This technology＇s nanofluid/ultrasonic atomization micro-lubrication system is different from the general micro-lubrication technology that uses high-pressure air atomization. It is first to use cavitation characteristics to disperse a small amount of nanofluid into microscopic particleseffectively disperse the bondingagglomeration of nanoparticles due to the Van der Waals force. The second stage of atomization is carried out through high-pressure air. The oil mist particles of the nanofluid can easily enter the micro-machining cutting area for coolinglubrication.

This technology is the first in the world. It first uses cavitation to disperse the nanofluid. It then uses high-pressure air for the second stage of atomization. The liquid nanofluid can be converted into a gaseous statecan more easily enter the cutting area for coolinglubrication. The detailed design of the ultrasonic atomization system has a special spacer filma double container to avoid the deposition of nanoparticles, which reduces the efficiency of nanofluids. Combining this technology with a variety of intelligent modeling methods can effectively greatly improve the qualitybenefit of various processes.

This technical team developed a series of nanofluid micro-lubrication equipment. After years of R&Dimprovementactual verification with several cooperative manufacturers through cooperation plans, it can greatly increase the demand for green manufacturing technology in micromachining. The researchdevelopment results have a substantial effect in reducing the environmental pollution in the industry in terms of green technology to reduce environmental pollution, a large amount of cutting waste liquid recyclingenergy consumption, machine tool cutting fluid pump energy consumption has a significant reduction,also has a substantial contribution to the developmentimprovement of industrial technology.

1.欲媒合之產業領域：機械與系統、綠能與環境。2.欲媒合項目：技術合作、技術轉移、技術協助、生產製造。