Ingilazi ye-ITO conductive yenziwe ngengilazi ye-soda-lime-based noma i-silicon-boron-based substrate futhi ifakwe ungqimba lwefilimu ye-indium tin oxide (evame ukwaziwa nge-ITO) nge-magnetron sputtering.
Ingilazi ye-ITO conductive ihlukaniswe ngengilazi yokumelana okuphezulu (ukumelana phakathi kuka-150 kuya ku-500 ohms), ingilazi evamile (ukumelana phakathi kwama-60 kuya ku-150 ohms), kanye nengilazi yokumelana ephansi (ukumelana okungaphansi kwama-60 ohms). Ingilazi ekwazi ukumelana kakhulu ngokuvamile isetshenziselwa ukuvikela i-electrostatic kanye nokukhiqizwa kwesikrini sokuthinta; ingilazi evamile ngokuvamile isetshenziselwa i-TN liquid crystal display and electronic anti-interference; ingilazi engamelani kancane imvamisa isetshenziselwa izibonisi ze-STN liquid crystal kanye namabhodi esekethe abonisa ngale.
Ingilazi ye-ITO conductive ihlukaniswe ngo-14″x14″, 14″x16″, 20″x24″ nokunye ukucaciswa ngokosayizi; ngokusho kokuqina, kukhona 2.0mm, 1.1mm, 0.7mm, 0.55mm, 0.4mm, 0.3mm nokunye okucacisiwe, Ubukhulu obungaphansi kuka-0.5mm busetshenziswa kakhulu emikhiqizweni ye-STN liquid crystal display.
Ingilazi ye-ITO ye-conductive ihlukaniswe ingilazi ephucuziwe kanye nengilazi evamile ngokusho flatness.
I-Saida Glass ingumphakeli owaziwayo emhlabeni jikelele wokucubungula ingilazi ejulile yekhwalithi ephezulu, amanani ancintisanayo kanye nesikhathi sokulethwa esifika ngesikhathi. Ngengilazi yokwenza ngendlela oyifisayo ezindaweni ezihlukahlukene futhi esebenza ngokukhethekile ngengilazi yephaneli yokuthinta, shintsha iphaneli yengilazi, ingilazi ye-AG/AR/AF/ITO/FTO kanye nesikrini sokuthinta sangaphakathi nangaphandle.
Isikhathi sokuthumela: Sep-07-2020