Isikali semarike sikhule ngokuqhushumba, kwaye itekhnoloji ye-titanium nitride ikhokela umkhondo
Kwimarike yehlabathi, iAsia (ingakumbi iTshayina) ibe yeyona nto iphambili yokukhula kwefilimu yefestile ye-titanium nitride ngenxa yokunyuka kwezinga lokungena kwezithuthi zamandla amatsha kunye nemfuno yokuphuculwa kokusetyenziswa. Kulindeleke ukuba isabelo semarike siphendule ngaphezu kwe-50% yehlabathi kwi-2031.
Ukusuka "kukhuseleko lwabucala" ukuya "kumava obuchwepheshe", imfuno yabathengi iphuculwe ngokupheleleyo
Kwiminyaka elishumi edlulileyo, iimfuno eziphambili zabathengi ekukhetheni iifilimu zefestile zigxininise ekukhuseleni ubumfihlo kunye nemisebenzi esisiseko yokufakelwa kwe-thermal. Nangona kunjalo, uphando lwemakethi ngo-2024 lubonisa ukuba le mfuno itshintshele kumava amathathu amakhulu amava etekhnoloji:
Ulawulo lwe-thermal olukrelekrele: Abasebenzisi baxhalabele ngakumbi ngokufiphala okuguquguqukayo, ulawulo lobushushu obukrelekrele kunye neminye imisebenzi. Ifilimu yefestile ye-Titanium nitride ifezekisa i-infrared reflection echanekileyo ngokusebenzisa iteknoloji ye-magnetron sputtering, enokunciphisa ukusetyenziswa kwamandla omoya womoya nge-40% kwaye ivumelane neemfuno zokulawula ubushushu bebhetri entsha yemoto yamandla.
Ukukhuselwa kwendalo kunye nempilo: I-67% yabathengi badla ngokukhetha izinto ezingenabungozi kwaye ezingenabungozi kokusingqongileyo. Itekhnoloji ye-Titanium nitride iye yaba lukhetho lokuqala "lohambo oluluhlaza" kuba aluqukethe idayi kwaye lunokuphinda lusetyenziswe.
Ukulungelelaniswa kwefektri yasekuqaleni kunye ne-signal-friendly: Ekuphenduleni ingxaki yokuphazamiseka komqondiso wamacandelo e-elektroniki kwizithuthi zamandla amatsha, ifilimu yefestile ye-titanium nitride isebenzisa i-nano-level coating technology ukuqinisekisa ukungena okungenakulahleka kwe-GPS, i-ETC kunye nezinye iimpawu.
Njengovulindlela kushishino, impumelelo engundoqo ye-XTTF yetekhnoloji ibandakanya:
I-Multi-layer composite structure optimization: Ngokuhlengahlengisa i-stacking order ye-primary color layer kunye ne-titanium nitride magnetron base film, indawo yentlungu yoshishino "yemigca emnyama emnyama" kwiimveliso zemveli isonjululwe ngokupheleleyo, ukuphumeza iziphene ezibonakalayo zero phantsi kokukhanya okunamandla.
Inkqubo yokugquma i-nano-coating ye-Ultra-thin: Ubukhulu be-titanium nitride sputtering layer ilawulwa ngaphakathi kwee-nanometers ezingama-50, kuthathelwa ingqalelo ukufakwa kwe-thermal ephezulu kunye nokuguquguquka, kwaye izinga lomonakalo wokwakha liyancipha ukuya kwi-0.5%.
Imbono yeengcali: "Ifilimu yefestile ye-Titanium nitride iyona nto ibalulekileyo ekuphuculeni amandla okusebenza kwezithuthi zamandla amatsha. Umphumo wayo wokulondoloza amandla unokunciphisa ngokuthe ngqo ukukhutshwa kwekhabhoni yemoto yonke nge-5% -8%, ehambelana kakhulu nomgaqo-nkqubo "we-carbon dual".
Ixesha lokuposa: Mar-14-2025
