Ultrasonic RESPERSIO, etiam quae Ultrasonic RESPERSIO, is spargit processus, quod utitur ultrasonic atomization technology. In materia est sprayed est primum in liquido statu. The liquid can be a solution, sol, suspension, etc. The liquid paint is first atomized into fine particles through an ultrasonic atomization device, and then is evenly coated on the surface of the substrate through a certain amount of carrier gas. , ita formatam coating aut film. Maximus differentia inter ultrasonic spraying et traditional una - fluidum aut duo - fluidi spraying est quod atomizing fabrica vel atomizing CERVIX utitur an ultrasonic atomizing fabrica, id est, quod Ultrasonic Ceo.
Compared with traditional two-fluid spraying, ultrasonic spraying has the advantages of high coating uniformity, high raw material utilization, high coating thickness control accuracy, thinner coating thickness, less spatter, no nozzle clogging, and low maintenance costs. Comparari cum coating processus ut vacuum evaporatio et cvd, Ultrasonic RESPERSIO est magis oeconomica tenuis film coating processus. Praecipue in praeparatione maior - Area tenuis films, in apparatu sumptus de ultrasonic spargit est inferior quam quod vacuum coating apparatu.
Pelagus commoda Ultrasonic SPARSIO sunt:
I. princeps coating uniformitatem
In uniformitatem liquidae particula distribution post atomization per ultrasonic nozzles est significantly altior quam ex duobus - fluidi nozzles, vulgo ut aer RAMULUS per ultrasonic nozzles est etiam melius. Northmanni, de coating uniformitatem ultrasonic spargit potest pervenire plus XCV%.
II. High USUS Rate rudis materiae et minus splashing
Quia Ultrasonic RESPERSIO est liquidum atomization per ultrasonic oscillationis, processus atomizing in pingunt non eget aliqua Gas, id est atomization processus non eget pressura. Tantum valde low carrier Gas pressura applicatur post atomization ad portandum liquidum caligo. Itaque valde redit et humorem redit et adipiscing per altum - pressura aer RESPERSIO secundi fluidi, ita vehementer improvidus uti rate pingere. Rudis materiae utendo rate of Ultrasonic spargit est plus quam IV temporibus, quod Ordinarius aer RESPERSIO et USUS rate potest pervenire ad plus XC%.
III. High coating crassitudine imperium accurate
Pelagus factor afficiens ad coating crassitudine accurate est spargit fluxus rate de coating, quae est moles materia oneratus in subiecto per unitas est. Et Ultrasonic CERVIX non habet pressura effectus in liquidum, ita fluunt rate of atomized imbre pingere liquor potest esse omnino imperium a altum - praecisione metering sentinam, ita consequi altum - praecisione RAMULUS fluere potestate. Exempli gratia, in fluxus imperium accurate de altum - praecisione Sententiam potest pervenire ad gradu Picolitres per secundo, et Micro - Channel Design de Ultrasonic Ceo potest etiam consequi altiore potestate accurate de Nanoliters per secundus.
IV. Quod membrana crassitudine tenuis, perveniens decem nanometers
Since the spray volume of the ultrasonic nozzle can achieve an extremely low stable flow rate (0.001ml/min), a very small amount of loading can be achieved on the substrate, thereby achieving a very thin dry film. Quidam Nanomaterials et siccum amet crassitie potest esse humilis ut decem nanometers. Potest adhiberi para vitrum films ut transparent PROMMIX films, anti - reflexio films, scelerisque nullius films, hydrophilic et hydrophobic films.
Post tempus: Ian - IV - MMXXIV






