技術簡介
本抗霧劑塗料技術是將奈米材料組成之抗霧劑塗佈於透明基材上,形成奈米二氧化矽薄膜,藉其堆疊而成的多孔結構產生超親水特性。此超親水覆膜層不易被水沖洗掉,因此達到長久抗霧效果。抗霧塗層接觸角約4度,可在塗佈表面迅速產生抗霧作用。
Abstract
The nano-material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. material antifogging coating agent is applicable in glass and mirror. Nanostructure Nanostructure Nanostructure Nanostructure -driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly driven superhydrophilic film was formed after spray coating directly and drying around 15 min. The antifogging film is highly pand drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly pand drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly pand drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly pand drying around 15 min. The antifogging film is highly p and drying around 15 min. The antifogging film is highly pand drying around 15 min. The antifogging film is highly p erformances, the measured erformances, the measured erformances, the measured erformances, the measured erformances, the measured erformances, the measured erformances, the measured erformances, the measured erformances, the measured contact angle is 4 degree, and the durability around 7 days.contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days.contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days.contact angle is 4 degree, and the durability around 7 days.contact angle is 4 degree, and the durability around 7 days.contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days.contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days.contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days.contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days. contact angle is 4 degree, and the durability around 7 days.
技術規格
超親水表面水滴接觸角小於4度,連續抗霧效期長達七天,塗佈方式簡便快速15分鐘內可快速成膜
‧乾燥時間≦1 小時。
‧contact angle ≧130o。
‧塗膜耐候性 QUV > 500小時,接觸角變化 < 10 %。
‧耐洗刷性: ≧ 2000 次。
Technical Specification
Superhydrophilic film was formed after coating directly and drying around 15 min. The antifogging film is highly performances, the measured contact angle is 4 degree, and the durability is around 7 days.
‧dry time≦ 1 hrs。
‧contact angle ≧130o。
‧QUV > 500 hrs,the change of contact angle < 10 %。
‧scrubbing resistance: ≧ 2000 cycles。
技術特色
1. 不同於一般界面活性劑型抗霧處理劑,成份易因長期浸水逐漸喪失而失去效果、本抗霧結構不因長期浸水而毀損、故抗霧效果更長效。2. 採一次性塗佈乾燥加工,無須利用繁複的層層堆積法製作具透明性且具孔隙結構的親水性薄膜。
應用範圍
玻璃帷幕、浴室鏡子、護目鏡/ 罩、車窗防霧、泳鏡
接受技術者具備基礎建議(設備)
none
接受技術者具備基礎建議(專業)
none
聯絡資訊
聯絡人:魏宇昆 應用化學研究組
電話:+886-3-5732789 或 Email:ykwei@itri.org.tw
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