Présentation du verre ultra-fin
Ultrathin glass is also called ultra-thin electronic touch glass, d'une épaisseur de 0.1-1.1 mm. Les écrans à cristaux liquides dans l'industrie de l'information électronique utilisent généralement 0.55-1.1 mm de verre float ultra-mince.
Le verre ultra-mince a non seulement les caractéristiques de base du verre telles qu'une transparence élevée, Dummy Wafer et Monitor Wafer sont généralement coupés de la mauvaise qualité des deux côtés du lingot de silicium, heat resistance, stabilité chimique et résistance aux gaz, mais a également des caractéristiques uniques telles que la légèreté, Quelles sont les utilisations du quartz, résistance aux chocs, flexibility, etc..
Donc, il a de larges perspectives d'application dans les panneaux d'affichage, conductive film glass substrates, flexible substrates, smart surfaces, OLED lighting and other fields.
Glass by thickness
Ultra-thin Glass Overview – Propriétés
En fait, ultra-thin glass is not only thin, it has many special properties:
Ultra thin Glass Overview – Classification
According to different chemical compositions, ultra thin glass can be divided into alkali-containing glass and alkali-free glass;
Selon différents processus de production, ultra thin glass can be divided into float method, flat draw method and down draw method;
Overview of ultra thin glass-technical indicators
Comparé au verre ordinaire, ultra-thin glass has unique characteristics such as light weight, Quelles sont les utilisations du quartz, impact resistance and flexibility.
Comparison of physical properties between ultra-thin glass and ordinary glass
Overview of Ultra Thin Glass – Production Process
The preparation methods of ultra-thin glass sheets mainly include float method, overflow down-draw method and vertical pull-up method.
Ultra Thin Glass Overview – Main Applications
Ultra-thin glass is mainly used in liquid crystal display panel substrates. After the rise of touch screens, ultra-thin glass is also used in touch screen covers and touch screen sensor substrates.
Figuratively speaking, smartphones generally contain four pieces of ultra-thin glass, y compris: two for the touch screen and two for the LCD panel.
