Umahluko phakathi kwe-Mn-Zn ferrite core kunye ne-Ni-Zn ferrite core

Umahluko phakathi kwe-Mn-Zn ferrite core kunye ne-Ni-Zn ferriteundoqo

Iintsimbi ze-Ferrite ziyinxalenye ebalulekileyo yezixhobo ezininzi zombane, ezibonelela ngeempawu zazo zamagnetic. Ezi ngqungquthela zenziwe ngezinto ezahlukeneyo, kuquka i-manganese-zinc ferrite kunye ne-nickel-zinc ferrite. Nangona zombini iindidi ze-ferrite cores zisetyenziswa ngokubanzi, ziyahluka kwiimpawu, usetyenziso kunye neenkqubo zokuvelisa.

IManganese-zinc ferrite core (Mn-Zn ferrite core), eyaziwa ngokuba yi-manganese-zinc ferrite core, yenziwe nge-manganese, i-zinc, kunye ne-iron oxides. Ziyaziwa ngokungena kwazo kwimagnethi ephezulu, zizenza zilungele izicelo ezifuna inductance ephezulu. I-Manganese-zinc ferrite cores inokumelana okuphezulu kwaye iyakwazi ukutshabalalisa ubushushu ngokufanelekileyo kunezinye izinto ze-ferrite. Le propati ikwanceda ekunciphiseni ilahleko yamandla ngaphakathi kondoqo.

I-nickel-zinc ferrite cores (Ni-Zn ferrite core), kwelinye icala, zenziwe ngeeoksidi zenickel, zinc, kunye nentsimbi. Banokungena kwemagneti esezantsi xa kuthelekiswa neeferrites ze-manganese-zinc, zibenza bafanelekele izicelo ezifuna inductance ephantsi. I-Ni-Zn ferrite cores ine-resistivity ephantsi kune-Mn-Zn ferrite cores, ebangela ukulahlekelwa kwamandla aphezulu ngexesha lokusebenza. Nangona kunjalo, i-nickel-zinc ferrite cores ibonisa uzinzo olungcono lwefrikhwensi kumaqondo obushushu aphezulu, ibenza balungele usetyenziso olubandakanya ukusebenza kwefrikhwensi ephezulu.

Ngokubhekiselele kwizicelo, i-manganese-zinc ferrite cores isetyenziswa ngokubanzi kwii-transformers, chokes, inductors, kunye ne-magnetic amplifiers. Ukugqithiswa kwabo okuphezulu kwenza ukuhanjiswa kwamandla kunye nokugcinwa ngokufanelekileyo. Zikwasetyenziswa kwizixhobo ze-microwave ngenxa yelahleko yazo ephantsi kunye nezinto ezikumgangatho ophezulu kumaza aphezulu. I-nickel-zinc ferrite cores, kwelinye icala, isetyenziswa ngokuqhelekileyo kwizixhobo zokunciphisa ingxolo ezifana nezihluzo zokucoca kunye ne-bead inductors. Ukungena kwabo ngemagnethi esezantsi kunceda ukuthomalalisa ingxolo ye-electromagnetic ephezulu, ngaloo ndlela kunciphisa ukuphazamiseka kwiisekethe zombane.

Iinkqubo zokuvelisa i-manganese-zinc ferrite cores kunye ne-nickel-zinc ferrite cores nazo zihluke. I-Manganese-zinc ferrite cores idla ngokuveliswa ngokuxuba i-oxides yesinyithi efunekayo, ilandelwa yi-calcination, ukucola, ukucinezela, kunye ne-sintering. Inkqubo ye-sintering yenzeke kumaqondo okushisa aphezulu, okukhokelela kwi-denser, i-ferrite core structure. Ngakolunye uhlangothi, i-nickel-zinc ferrite cores, sebenzisa inkqubo yokuvelisa eyahlukileyo. I-nickel-zinc ferrite powder ixutywe kunye ne-binder material kwaye icinezelwe kwimilo efunekayo. I-adhesive iyatshiswa ngexesha lokunyanga ukushisa, ishiya i-core ferrite eqinile.

Isishwankathelo, i-manganese-zinc ferrite cores kunye ne-nickel-zinc ferrite cores zinezakhiwo ezahlukeneyo, izicelo kunye neenkqubo zokuvelisa. I-Manganese-zinc ferrite cores zaziwa ngokungena kwazo kwimagnethi ephezulu kwaye zisetyenziswa kwizicelo ezifuna inductance ephezulu. Ngakolunye uhlangothi, i-nickel-zinc ferrite cores isetyenziswa kwizicelo ezifuna i-inductance ephantsi kwaye ibonise ukuzinza okungcono kakhulu kumaqondo aphezulu. Ukuqonda umahluko phakathi kwezi ntsimbi ze-ferrite kubalulekile ekukhetheni ingundoqo efanelekileyo kwisicelo ngasinye, ukuqinisekisa ukusebenza kakuhle kunye nokusebenza kakuhle.