Pengujian tetesan tunggal yang menimpa permukaan panas pada bilangan Weber tinggi telah dilakukan di Laboratorium Mekanika Fluida Universitas Gadjah Mada Variasi awful kontak didapat dari tiga jenis permukaan; stainless steel (NST) dengan kekasaran permukaan Ra = 0.44gm; stainless steel yang dilapisi Ti02 tanpa pengaruh 1W (NtJV); dan stainless steel yang dilapisi Ti02 disinari UV (WUV). sudut kontak statis stainless steel 84.6°; Ti02 tanpa Uv’ 36.6” dan Ti02 dengan UV 0° Maten droplet adalah air destilasi dengan diameter awal droplet tetap 2,46 mm dengan variasi bilangan Weber 98.6, 147.2. dan 197.2. Temperatur permukaan divariasikan dari 40°C-240°C dengan interval 20°C. Dinamika letesan di atas permukaan padat direkam nleh high speed camera dengan kecepatan 500 fps. Hasilnya adalah Sudut kontak statis dan bilangan Weber mempunyai pengaruh path karakteristîk penyebaran (sp-ead) setciab droplet menumbuk permukuan padat Spreading factor meningkat dengan menurunnya sudut kontak statis atau meningkatnya Mangan Weber. Pada daerah temperatur rendah, waktu evuporasi menurun dengan menurunnya sudut kontak statis atau meningkatnya bilangan Weber.

An experimental of a single droplet impinging upon a hot surface at high Weber number has been conducted in the Laboratory of Fluids Mechanic Gadjah Mada University Static contact angle was varied with three different modules, they were stainless steel with roughness (Ra) O.44un stainless steel coated with TiO2 without UV light and stainless steel coated with ‘1102 with UV light The static contact angles were founded; for stainless steel was 84.6°; TiO2 without VV 36.6° and Ti02 with UV approximately OO Droplet substance was destilated water with initial diameter of 2.46 min with Weber numbers were varied 98.6, 147.2, dan 197.2. Solid surface temperature was varied from 40°C-240°C by interval 20°C. Dynamics of the droplet on a solid surface were recorded using high speed camera at 500 frs. As a result, the static contact angle and Weber number influenced on spread charactezistic afler droplet impacting solid surface. Spreading factor increases with the decrease of static contact angle or the increase of Weber number. In the lower temperature region the evaporation time decreases as the decrease of static contact angle or the increase of Weber number.

Kata Kunci : Tetesan,Bilangan Weber,Waktu penguapan,Sudut kontak statis,Faktor penjalaran,droplet. Weber number, evaporation thne, static contact angle, spreading factor