Isikali semarike sikhule kakhulu, kwaye itekhnoloji ye-titanium nitride ikhokela phambili
Kwimarike yehlabathi, iAsia (ingakumbi iTshayina) ibe yindawo ephambili yokukhula kwefilimu yefestile ye-titanium nitride ngenxa yokwanda kwesantya sokungena kwezithuthi ezintsha zamandla kunye nesidingo sokuphucula ukusetyenziswa. Kulindeleke ukuba isabelo semarike sibe ngaphezulu kwe-50% yehlabathi ngo-2031.
Ukusuka "kukhuseleko lwabucala" ukuya "kumava obuchwepheshe", imfuno yabathengi iphuculwe ngokupheleleyo
Kwiminyaka elishumi edlulileyo, iimfuno eziphambili zabathengi zokukhetha iifilimu zefestile zigxile ekukhuseleni ubumfihlo kunye nemisebenzi esisiseko yokukhusela ubushushu. Nangona kunjalo, uphando lwemarike ngo-2024 lubonisa ukuba le mfuno itshintshele kwiindlela ezintathu eziphambili zamava obuchwepheshe:
Ulawulo lobushushu olukrelekrele: Abasebenzisi baxhalabele ngakumbi ukufiphala okuguquguqukayo, ulawulo lobushushu olukrelekrele kunye neminye imisebenzi. Ifilimu yefestile ye-titanium nitride ifezekisa ukubonakaliswa okuchanekileyo kwe-infrared ngokusebenzisa itekhnoloji ye-magnetron sputtering, enokunciphisa ukusetyenziswa kwamandla omoya opholileyo ngama-40% kwaye ivumelane neemfuno zolawulo lobushushu beebhetri zezithuthi ezintsha zamandla.
Ukhuseleko lwendalo kunye nempilo: Ama-67% abathengi bathanda ukukhetha izinto ezingenabungozi nezingenabungozi kwindalo. Itekhnoloji ye-titanium nitride iye yaba lukhetho lokuqala "lokuhamba okuluhlaza" kuba ayinazo iidayi kwaye inokuphinde isetyenziswe.
Ukulungelelaniswa kokuqala kwefektri kunye nokulungelelana nemiqondiso: Ukuphendula ingxaki yokuphazamiseka kwemiqondiso yezinto ze-elektroniki kwizithuthi ezintsha zamandla, ifilimu yefestile ye-titanium nitride isebenzisa iteknoloji yokugquma yenqanaba eliphantsi ukuqinisekisa ukungena ngaphandle kokulahlekelwa yi-GPS, i-ETC kunye nezinye iimpawu.
Njengovulindlela kushishino, impumelelo ephambili yetekhnoloji ye-XTTF ibandakanya:
Ukulungiswa kwesakhiwo esidityanisiweyo esineeleya ezininzi: Ngokulungisa ulungelelwaniso lokufakwa kweeleyara zefilimu yombala oyintloko kunye nefilimu yesiseko se-titanium nitride magnetron, indawo ebuhlungu kushishino "lwemigca emnyama emnyama" kwiimveliso zemveli isonjululwe ngokupheleleyo, kungabikho ziphene ezibonakalayo phantsi kokukhanya okunamandla.
Inkqubo yokugquma i-nano-coating ebhityileyo kakhulu: Ubukhulu bomaleko wokutshiza we-titanium nitride bulawulwa ngaphakathi kwee-nanometer ezingama-50, kuthathelwa ingqalelo ubushushu obuphezulu kunye nokuguquguquka, kwaye izinga lomonakalo wokwakha lincitshiswa liye kwi-0.5%.
Uluvo lweengcali: "Ifilimu yefestile ye-titanium nitride yinxalenye ebalulekileyo yokuphucula ukusebenza kakuhle kwamandla kwezithuthi ezintsha zamandla. Isiphumo sayo sokonga amandla sinokunciphisa ngokuthe ngqo ukukhutshwa kwekhabhoni kwisithuthi siphela nge-5%-8%, nto leyo ehambelana kakhulu nomgaqo-nkqubo we-"dual carbon".
Ixesha leposi: Matshi-14-2025
