Ukucofa inkqubo yebhodi ye-mica ethambileyo

Indima ephambili yebhodi ye-mica ethambileyo kwi-insulation, indlela yokwenza kunye nendlela yokusebenza? Makhe sithethe ngeepropati ezahlukeneyo zebhodi ye-mica ngezantsi. Ewe, kufuneka siqale sazise indlela yokuvelisa yokufudumeza kwebhodi ye-mica.

Ucingo lokufudumeza olusetyenziswa kwibhodi ye-mica ethambileyo kukuqala ngokucinezela i-alloy imathiriyeli yokufudumeza kwiphepha elibhityileyo leemilimitha ezimbalwa, emva koko usebenzise indlela yokubola okanye ukusika i-laser ukuyila, emva koko usebenzise indlela yokuncamathelisa ukuncamathela. ucingo lokufudumeza kwi-mica I-substrate yenziwe ngokufa okuphakamileyo okunamandla. Ucingo lokufudumeza kombane lubonakaliswa ngubushushu obuphezulu kunye noxinzelelo lwamandla aphezulu. Indawo yangoku yocingo olushushu ekhoneni likhulu kakhulu, izinga lokushisa liphezulu kakhulu (ukuya kuma-500-700 degrees), umonakalo olula kunye nomngcipheko wokubunjwa. Abanye abavelisi batshise i-mica substrate emngxunyeni omnyama, baze babangele nomlilo. ingozi. Iimveliso zethu zifudumeza umcaba, ubushushu obufanayo, akukho lula ukunyibilika. Ngenxa yokuba ucingo lokufudumeza lufudumeza oluqhelekileyo, kunzima ukuqinisekisa ukufana kokufudumeza. Ubushushu bomphezulu wocingo lokufudumeza lufikelela kuma-500 degrees. Ke ngoko, ipleyiti yokufudumala ye-mica iya kubhaka uphawu olumnyama olunomgca kumphezulu webhodi ye-mica ethambileyo emva kwexesha elithile. Intle. Ukuba i-mica yangaphandle ibonakaliswe ngolu hlobo lobushushu obuphezulu ixesha elide, inokuchaphazela ubomi benkonzo yezinto ezisisiseko se-mica.

Inkqubo yokucinezela ibhodi ye-mica ethambileyo idinga ukubhaka okuthathu kunye nokucofa okuthathu.

Ekomisweni kokuqala kunye nokucinezela, zonke iinxalenye zomguquli ziqhelekile, kwaye ukomisa okwesibini kunye nokucinezela kwamkela inkqubo efanayo neyokuqala, kwaye zonke iindawo zomguquli nazo ziqhelekileyo. Emva kokumisa okwesithathu kunye nokucofa, kufunyaniswe ukuba i-V iveze ngaphandle kwe-commutator I-Delamination enzima kunye ne-slippage yeringi ibonakala. Kwiinkqubo ezilandelayo zokwenziwa kunye nendibano yabakhweli abathathu, kwafunyaniswa ukuba abakhweli babecwangcisiwe kwaye baguquliwe.

Uhlalutyo lwesizathu: Emva kokuhlalutya bonke abakhweli, kwafunyaniswa ukuba i-delamination kunye nokufuduka kwenzeka phakathi kweringi e-V. Ekuqaleni, kwakurhanelwa ukuba ubungakanani benxalenye ye-commutator yayinganyamezeleki. Ngethuba lendibano ye-commutator, iringi e-V yayiphantsi kwamandla okungalingani okucheba, okwabangela ukufuduka, kodwa inxalenye nganye yatshintshwa. Jonga, akukho ngxaki inkulu ifunyenweyo.

Emva kokulungelelanisa ngokuphindaphindiweyo inkqubo yokucinezela i-V-shaped ring, ixesha le-gelation kunye nenkqubo yezinto eziphathekayo zebhodi ye-mica zavavanywa, kwaye iindlela ezifana nokwandisa ixesha lokubhaka kunye nokwandisa umxholo weglue wamkelwa. Inkqubo yokucinezela yamkelwa ukwenza iglu kwi-V-ring iphiliswe ngokupheleleyo. Nangona kunjalo, iringi emile okwe-V icinezelwe ngokwale nkqubo isabonisa i-delamination kunye ne-slippage xa ​​ifakwe kwi-commutator. Ubalo olongezelelweyo lwamandla kwindawo yeyunithi kwi-30 ° ebusweni bomhambisi wemoto wafumanisa ukuba ufikelele kwi-615kN, kodwa lo mkhosi wawungaqwalaselwanga kuyilo lwangaphambili lwesakhiwo. Emva kokuhlalutya kunye nokubala amandla angama-30 ° we-commutator yezinye iindidi zeenjini ze-DC, kufunyenwe ukuba zonke zingaphantsi kwe-5OOkN.