Kwimveliso yanamhlanje yemizi-mveliso, iinkqubo ezininzi azikwazi ukwenza ngaphandle kweendawo eziphakamileyo zobushushu, kwaye indlela yokubonelela ngokufanelekileyo nangokuzinzileyo kunye nokusetyenziswa kobushushu obuphezulu bekusoloko kugxininiswa kwingqwalasela yoshishino. Ukuvela kweetyhubhu ze-silicon carbide ze-ceramic radiation kuzise imibono emitsha yokusombulula ezi ngxaki kwaye kubangele uguquko olubalulekileyo kwintsimi yeshishini.
1, Yintoniityhubhu ye-silicon carbide ceramic radiation
I-silicon carbide ityhubhu ye-ceramic radiation, njengoko igama layo libonisa, icandelo layo eliphambili yi-silicon carbide. I-silicon carbide yinto ekhethekileyo kakhulu enobunzima obuphezulu kakhulu, okwesibini kuphela kweyona dayimani inzima kwindalo. Emva kokuba yenziwe kwizinto ze-ceramic, ineempawu ezininzi ezibalaseleyo, kwaye ityhubhu ye-radiation yenzelwe ngokukodwa njengesixhobo se-tubular sokudlulisa ubushushu kwiindawo eziphezulu zokushisa usebenzisa ezi zakhiwo. Ukubeka nje ngokulula, kufana “nothutho lobushushu” kwizixhobo zobushushu obuphezulu zoshishino, onoxanduva lokuhambisa ubushushu ngokuchanekileyo nangokufanelekileyo apho bufuneka khona.
2. Iinzuzo zokusebenza
1. Ukumelana nobushushu obuphezulu: Izixhobo zetsimbi ngokubanzi zithamba lula, zikhubazeke, kwaye zide zitshiswe kumaqondo obushushu aphezulu. Kodwa iityhubhu ze-silicon carbide ceramic radiation zinokumelana ngokulula nemiceli mngeni yobushushu obuphezulu, kunye nobushushu bokusebenza obukhuselekileyo ukuya kuthi ga kwi-1350 ℃. Kwanakwiqondo lobushushu eliphakamileyo ngolo hlobo, zisenako ukulondoloza iimpawu ezintle zomzimba yaye aziyi kukhubazeka ngokulula okanye zonakaliswe. Oku kuqinisekisa ukuba inokusebenza ngokuzinzileyo ixesha elide kwimveliso yemveliso yobushushu obuphezulu, ibonelela ngokuqhubekayo kunye nokubonelela ngobushushu obuthembekileyo kwimveliso.
2. Uzinzo olugqwesileyo lwe-thermal: Kwimveliso yamashishini, ubushushu buhlala buguquguquka. Ukwandiswa kwe-thermal coefficient ye-silicon carbide i-ceramic radiation iityhubhu incinci kakhulu, ibenza ukuba bangabikho lula kuxinzelelo lwe-thermal ngenxa yokutshintsha kweqondo lobushushu kunye nokubonisa uzinzo olulungileyo lokothuka kwe-thermal. Oku kuthetha ukuba inokutshintsha ngokuphindaphindiweyo kwiindawo ezibandayo kakhulu kunye nezishushu ngaphandle kweengxaki ezifana nokuqhekeka okanye umonakalo, kunye nobomi obude benkonzo, ukunciphisa kakhulu iindleko zokugcinwa kwezixhobo kunye nokutshintshwa.
3, Iinkalo zeSicelo
1. Imboni yensimbi yensimbi: Ulawulo oluchanekileyo lokushisa luyafuneka kwi-smelting, unyango lokushisa kunye nezinye iinkqubo zetsimbi. Iityhubhu ze-silicon carbide ceramic radiation inokubonelela ngobushushu obuzinzileyo kwezi nkqubo zobushushu obuphezulu, ukunceda iinkampani zentsimbi ziphucule ukusebenza kakuhle kwemveliso kunye nomgangatho wemveliso, ngelixa zinciphisa ukusetyenziswa kwamandla.
2. Ukunyibilikiswa kwesinyithi esingenaferrous: Inkqubo yokunyibilikiswa kweentsimbi ezingenayo intsimbi ezifana ne-aluminiyam nobhedu ikwaxhomekeke kumaqondo obushushu aphezulu. Iityhubhu ze-silicon carbide ceramic radiation iityhubhu zidlala indima ebalulekileyo kwiziko lokunyibilikisa isinyithi esingeyontsimbi ngenxa yokusebenza kwazo okugqwesileyo, ziqinisekisa inkqubela phambili egudileyo yenkqubo yokunyibilikisa.
3. Ishishini lemathiriyeli yokwakha: Umzekelo, ukutshiswa kweeseramics kufuneka kuqhutyelwe kwiziko lobushushu obuphezulu. Iityhubhu ze-silicon carbide ze-ceramic radiation zinokubonelela ngobushushu obufanayo kunye nozinzile kwii-kilns, ezinceda ukuphucula umgangatho wokudubula kweekeramics, ukunciphisa umjikelo wokudubula, kunye nokwandisa ukusebenza kakuhle kwemveliso.
Iityhubhu ze-silicon carbide ceramic radiation zibonise iingenelo ezibalulekileyo kunye nezinto ezinokubakho kwindawo yobushushu obuphezulu boshishino ngenxa yokusebenza kwazo okugqwesileyo. Ngenkqubela phambili eqhubekayo kunye nophuhliso lobuchwephesha, kukholelwa ukuba iya kusetyenziswa ngokubanzi kwixesha elizayo, izise lula kunye neenzuzo kwimveliso yemizi-mveliso, kunye nokukhuthaza uphuhliso oluqhubekayo lwamashishini ahlukeneyo anxulumeneyo.
Ixesha lokuposa: Aug-18-2025