IBeryllia ceramic (iBeryllia Oxide, okanye i-BeO) yaphuhliswa ngeminyaka yoo-1950 njengesixhobo sobugcisa be-space-age, kwaye inika indibaniselwano eyodwa yeepropathi ezingafumanekiyo kuyo nayiphi na enye imathiriyeli ye-ceramic. Inendibaniselwano ekhethekileyo ye-thermal, i-dielectric, kunye ne-mechanical properties, iyenza inqweneleke kakhulu ukuba isetyenziswe kwi-electronic applications. Ezi mpawu zizodwa kwesi sixhobo. I-BeO ceramic inamandla angaphezulu, ilahleko ye-dielectric ephantsi kakhulu, kwaye iqhuba ubushushu ngokufanelekileyo kunezinyithi ezininzi. Ibonelela nge-thermal conductivity enkulu kunye ne-dielectric esezantsi engaguqukiyo ukongeza kwiipropathi ezithandekayo ze-Alumina zomzimba kunye ne-dielectric.

Yimpahla efanelekileyo kwizicelo ezifuna ukuchithwa kobushushu obuphezulu kunye namandla e-dielectric kunye noomatshini ngenxa ye-thermal conductivity egqwesileyo. Ikulungele ngokukodwa ukusetyenziswa njengelaser ye-diode kunye ne-semiconductor heat sink, kunye nendlela yokudlulisa i-thermal ekhawulezayo ye-miniaturized circuitry kunye neeassemblies ze-elektroniki eziqinileyo.

Amabanga aqhelekileyo

I-99% (i-thermal conductivity 260 W/m·K)

99.5% (i-thermal conductivity 285 W/m·K)

Iinkcazelo ngeempawu

I-thermal conductivity ephezulu kakhulu

Indawo yokunyibilika ephezulu

Amandla aphezulu

Ukufakelwa kombane okugqwesileyo

Ilungile ikhemikhali kunye nozinzo lwe-thermal

I-dielectric ephantsi rhoqo

Ilahleko yedielectric esezantsi tangent

Usetyenziso oluqhelekileyo

Iisekethe ezidibeneyo

Izixhobo zombane eziphezulu

I-Metallurgical crucible

Ukhuseleko lwe-thermocouple sheath