Intsimbi yesilicon engajoliswanga yi-ferrosilicon alloy ene-silicon elinganiselekileyo (ngesiqhelo i-2–3.5%) kunye nezinto ezincinci ezongeziweyo ezifana ne-aluminium kunye ne-manganese. Le ntsimbi ixhasa iipropati ze-isotropic magnetic, ezibalulekileyo kwi-stators kunye nee-rotors kwiimoto, ii-transformer cores, kunye nezixhobo ze-superconducting. Ukujongwa kwayo okungaqhelekanga kwenza ukuba i-magnetic permeability ifane kuzo zonke iindlela, ibonelele ngokusebenza kakuhle kuyo nayiphi na indawo ejikelezayo kwisekethe ye-magnetic.
Isakhiwo esincinci, esineenkozo ezincinci kunye nokwakheka kwekristalografikhi okulawulwayo, sichaza ukusebenza koomatshini kunye nokwemagnethi. Ukuphinda kusetyenziswe ikristale engaphelelanga, okulawulwa ngokutsalwa kwe-annealing malunga ne-800 °C, kuvelisa i-magnetic induction ukuya kuthi ga kwi-1.71 T kunye namandla okutsalwa ngaphezulu kwe-350 MPa. Ubungakanani beenkozo yeyona nto iphambili: iinkozo ezincinci ziphucula amandla, ngelixa iinkozo ezinkulu, ezijolise kuzo ziphucula i-magnetic induction kwaye zinciphisa ukulahleka kwe-core.
Ukukwazi ukujikeleza kwemagnethi kwintsimbi kuyanda njengoko ubukhulu bephepha buncipha (ngesiqhelo yi-0.2–0.5 mm kwiimoto ze-e-mobility), kwaye njengoko umxholo we-silicon unyuka, okubangela ilahleko eziphambili zibe ngaphantsi kwe-6 W/kg kwi-thin gauge. Amandla aphantsi okunyanzela kunye nokumelana okuphezulu kuxhasa ukusebenza kobushushu obuphantsi kwaye kunciphisa ukusasazwa kwamandla. Ukujongwa kweenkozo ezifanelekileyo, okufezekiswa ngolawulo lwenkqubo, kunciphisa ngakumbi ilahleko yemagnethi, kuxhasa ukusebenza kakuhle kwiimoto nakwii-transformers.
intsimbi yesilicon engacwangciswanga
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Imingeni ekufumaneni ngokwesiko ukwakheka, ukunyanzela, kunye nokuchasana
Imiqobo yexesha kunye neendleko
Uhlalutyo lwelabhoratri lwe-silicon steel kunye ne-ferrosilicon alloys ezingajoliswanga ludla ngokufuna iisampulu ezitshabalalisayo. Kwibhetshi nganye, ukusika isampuli, ukupolisha, kunye nokulungiselela kungadla imizuzu engaphezu kwama-60 kwisampuli nganye. Imijikelo yohlalutyo esebenzisa iindlela ezifana ne-optical emission spectrometry kunye ne-four-point probe resistivity yongeza ukulibaziseka okungakumbi. Ukuguqulwa kolawulo lomgangatho kunokudlula iiyure ezingama-24 kwiindawo ezinkulu zemveliso. Iindlela zokutshabalalisa zivelisa inkunkuma kwaye zonyusa iindleko zezinto eziluhlaza. Uvavanyo lwe-in-process lweempawu zemagnethi zeeshiti zesinyithi zesilicon lukwafuna ukuseta okuntsonkothileyo, okuhlala kukhawulelwe kwiilabhoratri eziphambili, okuthintela impendulo ekhawulezileyo kunye nokwenza ngcono inkqubo.
Izixhobo kunye neeMfuno zeSakhono
Ukulinganisa kwemveli ukukwazi ukumelana kwemagnethi yentsimbi yesilicon engajoliswanga kusetyenziswa izixhobo ezichanekileyo ezifana neefreyimu ze-Epstein kunye nabahlalutyi bemagnethi. Ukutolikwa komqhubi kwazisa umahluko, kwaye izikhewu ezincinci zezakhono zinokubangela iimpazamo ezinkulu zengxelo. Umzekelo, ukuphindaphindwa kokufundwa kokunyanzela kunokwahluka nge-10% phakathi kweengcali kwii-alloys ezintsonkothileyo. Le mida ithintela ulawulo lomgangatho olulawulwayo, ngexesha langempela kwaye yongeza iindleko ezibalulekileyo kwimisebenzi yezityalo.
Ukuqhubela phambili kuVavanyo oluKhawulezayo olungonakalisiyo: i-EDXRF kunye nee-XRF Analyzers eziphathekayo
Intshayelelo kwiTekhnoloji ye-EDXRF
Abahlalutyi be-EDXRF basebenzisa ii-X-rays ezinamandla aphezulu ukuze bavuselele ii-athomu kwi-non-oriented silicon steel kunye ne-ferrosilicon alloys, nto leyo evelisa i-element-specific fluorescence emission. Le nkqubo ivumela ukufunyanwa kwazo zonke izinto ezivela kwii-magnesiumukuya kwi-uranium kwimizuzwana engaphantsi kwama-60, kunyea ukuchanekaye-0.001 wt.%Uhlalutyo oluthe ngqo lwe-EDXRF, olungadibaniyo, aludingi kunqunyulwa, kugrunjwa, okanye kupolishiwa kweesampuli eziqinileyo, nto leyo evumela ukulinganiswa okuchanekileyo kwe-silicon kunye nentsimbi kwibhetshi nganye.
Uvavanyo lwe-XRF olukwindawo yentsimbi yombane
Ii-analyzer ze-EDXRF eziphathekayo, ezifana ne-Lonnmeter XRF alloy analyzer, zibonelela ngedatha yokwakheka ethembekileyo ngqo kumgca wemveliso, kwindawo yokugcina impahla, okanye kwindawo yokufakela ngaphandle kokuxhomekeka kwilebhu. Ngeziphumo eziboniswe ngoko nangoko kwizikrini ezidibeneyo, amaqela okuvelisa aqinisekisa umgangatho we-ferrosilicon alloy kunye nomgangatho wesinyithi se-silicon esingajoliswanga ngexesha langempela. Le ndlela yokonakalisa isusa ukulibaziseka kunye nokulahleka kwesampulu etshabalalisayo, ngelixa inciphisa isidingo sezixhobo zovavanyo ezikhethekileyo kunye nabasebenzi bobuchwephesha.
Ukungangeni kweMagnetic kunye nePropathi zeMagnetic: Ukuvumela uNxibelelwano oluthe ngqo
Umxholo we-silicon kunye nesinyithi omiselwe yi-XRF uvumela ukuqondwa ngokuthe ngqo kokungena kwemagnethi okulindelekileyo kwintsimbi nakwezinye iimpawu zemagnethi eziphambili. Ukulinganiswa kwe-silicon okuchanekileyo kuxhasa ulawulo lwenkqubo yokumelana okujoliswe kuko kunye nokunyanzelisa, ngelixa umahluko kumxholo wesinyithi unxulunyaniswa notshintsho kwiiprofayili zokungeniswa kunye nokulahleka kwe-core. Ingxelo yexesha langempela ivumela iinjineli ukuba ziphucule iiparameter zokutsalela kunye nohlengahlengiso lwesakhiwo, ukuqinisekisa ibhalansi phakathi kwamandla oomatshini kunye nokungeniswa kokusebenza okufanelekileyo kwemoto kunye ne-transformer.
Ukuphindaphinda okuphezulu kohlalutyo lwe-EDXRF kuqinisekisa ukuba iprofayili yesiseko yebhetshi nganye yentsimbi ihlala ngaphakathi kwemida yeenkcukacha ezibalulekileyo kwiipropati zemagnethi ezithembekileyo kwizicelo zokugqibela.
Uhlalutyo lwe-xrf yesinyithi se-silicon esingacwangciswanga
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Ukusebenzisa iLonnmeter XRF Alloy Analyzer yeNtsimbi yoMbane
Iimpawu kunye nezakhono
I-Lonnmeter XRF Alloy Analyzer isebenzisa i-EDXRF spectrometry kuhlalutyo oluthe ngqo nolungatshabalalisiyo lweesampuli zesinyithi ze-silicon eziqinileyo ezingajoliswanga. Ifumanisa izinto ze-silicon, isinyithi, kunye ne-alloy ezincinci ngaxeshanye, kunye nokuphambuka kokuchaneka kobungakanani obungaphantsi kwe-15% kwizinto eziphambili. Amaxesha okulinganisa adla ngokuba yimizuzwana eli-10 ukuya kwimizuzu emi-2 kwisampulu nganye. Isoftware edibeneyo ixhasa ingxelo yebhetshi kwaye ithumela idatha enxulumene nepropathi yemagnethi elinganisiweyo. I-analyzer ilinganisa ngokwemigangatho yesalathiso eqinisekisiweyo, iphucula ukulandeleka kwemilinganiselo kwaye iqinisekisa ukuhlanganiswa okungenamthungo kunye nemisebenzi eqhelekileyo yomgangatho.
Ukuhamba komsebenzi wokufumanisa ngokukhawuleza kwindawo
Ukuthatha iisampulu kufuna ukubekwa kweesampuli zephepha ezicociweyo ngqo kwifestile ye-analyzer exhotyiswe nge-SDD—akukho kulungiswa okanye ukusika isampuli okufunekayo. Ukuqalisa kwenziwa ngokulungiswa kwangaphambili kwefektri, kunye neziphumo zokulinganisa eziboniswa ngexesha langempela. Ingxelo yedatha ibamba amanqanaba e-silicon kunye ne-iron abalulekileyo ekungeneni kwe-magnetic kwintsimbi. Iziphumo zinokulayishwa okanye ziprintwe ngoko nangoko, nto leyo enciphisa ukujikeleza ngokubanzi kube yimizuzu.
Iingenelo ngaphezu kweendlela zesintu
Umjikelo wokusebenza ukhawuleza ngama-80–90% kunovavanyo lwe-wet chemistry olusekelwe kwilebhu okanye uvavanyo lwepropathi yemagnethi. Isusa iingozi zomsebenzi kunye neendleko zohlalutyo olutshabalalisayo. Akukho mfuneko yoqeqesho oluphambili—abasebenzisi bafumana izishwankathelo zeziphumo nge-graphical touchscreen interface. Akukho siseko selabhoratri esikhethekileyo okanye ukulungiselela isampuli okubanzi okufunekayo.
Iziphumo eziqhelekileyo kunye neNkxaso kwiZigqibo
I-Analyzer iqinisekisa i-silicon, isinyithi, kunye nezinto ezincinci ukuze kufumaneke amandla kunye neethagethi zokungenisa. Ixhasa ngokuthe ngqo ukuguqulwa kwe-ferrosilicon alloy blends kunye neeparamitha zokufaka ngokubonelela ngedatha esebenzisekayo phakathi kwenkqubo. Iinjineli zeenkqubo zidibanisa ukufundwa kwe-EDXRF kunye neepropati zemagnethi ezilindelekileyo ezifana nokulahleka okuphantsi komongo kunye nokuvuleka okuphezulu, okuphucula ukusebenza kakuhle kwe-motor kunye ne-transformer. Abavelisi bentsimbi basebenzisa idatha ye-analyzer ukunciphisa ukulahleka kwe-isotropic magnetic kwaye bafezekise rhoqo imilinganiselo yokusebenza ekujoliswe kuyo.
Kutheni Ukhetha iLonnmeter XRF Analyzer kwiSilicon Steel engajoliswanga?
Ukuthembeka kunye nokuchaneka kuvavanyo lwe-Ferrosilicon Alloy
Ii-analyzer ze-Lonnmeter XRF zibonelela ngokuchaneka kobungakanani kwi-silicon steel kunye ne-ferrosilicon alloys ezingajoliswanga, zilinganisa umxholo we-silicon kwizinto eziphambili. Oku kuqinisekisa ukuba ukhetho lomgangatho luxhasa ukuvuleka kwemagnethi okufunekayo kunye neethagethi zokulahleka kwesiseko kwibhetshi nganye. Amaphepha esinyithi e-silicon anamandla aphezulu, agcina ukuchaneka kohlalutyo okuzinzileyo, imilinganiselo yelebhu ehambelanayo.
Iyaphatheka, Isebenziseka ngeendlela ezininzi, kwaye iyasebenza kakuhle
Ngobunzima obungaphantsi kwe-2 kg kunye namandla ebhetri adibeneyo, ii-analyzer ze-XRF ze-alloy eziphathekayo zeLonnmeter zivumela ukuqinisekiswa kwendawo yezakhiwo zemagnethi ze-silicon steel raw stock, ii-coils, kunye nezinto ezigqityiweyo. Uyilo luxhasa i-EDXRF analyzer yohlalutyo lwesinyithi ngqo kumgangatho wemveliso, kwiilebhu ze-QC, nakwiindawo zokuthumela, ngaphandle kwesidingo sokulungiswa kwesampulu okanye utshintsho lomphezulu. Uvavanyo olunye, oluhlala imizuzwana eli-10, lubonelela ngohlalutyo lwezinto ezininzi ngaxeshanye, kubandakanya i-Si, i-Fe, i-Mn, kunye nezinto zokudibanisa umkhondo.
Ukucela iKoteshini
Umsebenzi wokuthenga awudingi lwazi luninzi: bonelela ngenqanaba lesampulu, imeko yokusetyenziswa, kunye noluhlu lwezinto. Abasebenzi bezobuchwephesha baseLonnmeter balungiselela usetyenziso lwe-spectrometer ye-EDXRF olufanelekileyo, bacwangcise umboniso, kwaye banikezele ngesindululo sokuthenga esilungiselelwe bona ngenkxaso yokudibanisa kunye nokuthotyelwa komgangatho okuqhubekayo.
Imibuzo Ebuzwa Rhoqo (Ii-FAQ)
Yintoni intsimbi yesilicon engajoliswanga kwaye isetyenziswa phi?
Intsimbi yesilicon engajoliswanga, i-ferrosilicon alloy, ineempawu zemagnethi eziphantse zibe yi-isotropic. Abavelisi bayisebenzisa kwiimoto zombane, kwiitransformer, nakwiijenereyitha ukunciphisa ilahleko engundoqo kunye nemisinga ye-eddy. Ukusebenza kakuhle kuvela kumxholo wesilicon olawulwayo (0.5–3.5%) kunye nolwakhiwo olulinganiselayo lwe-microstructure. Usetyenziso lubandakanya ii-stators, ii-rotors, kunye nee-laminations kwizixhobo ezisebenzisa amandla aphantsi.
I-analyzer ye-EDXRF iluphucula njani ulawulo lomgangatho wentsimbi yesilicon?
Iziphumo zibonakala ngemizuzwana, zinciphisa ukulibaziseka okubizayo kwaye zisusa isidingo sokulungiswa kwesampulu etshabalalisayo. Abahlalutyi baxhasa ukubekwa esweni okuqinileyo kokwakheka, ukuqinisekisa ulawulo oluqinileyo lokungena kwamandla emagnethi kwintsimbi kunye nokuthobela iinkcukacha zesixhobo.
Ngaba i-Lonnmeter XRF analyzer ingayivavanya ngokuthe ngqo i-magnetic properties?
Ii-analyzer ze-Lonnmeter XRF azilinganisi ngokuthe ngqo iimpawu zemagnethi kodwa zichonga umxholo we-silicon, isinyithi, kunye nomxholo we-alloy omncinci. Ezi zinto ziphambili eziqhuba ukuvuleka kunye nokulahleka kwemagnethi, zivumela uvavanyo olungathanga ngqo lweempawu zemagnethi ngokusebenzisa idatha yokwakheka.
Zithini iingenelo zovavanyo lwe-XRF kwindawo osebenza kuyo kwisinyithi se-silicon esingajoliswanga kuyo?
Uvavanyo lwe-XRF lwee-alloys kwindawo lubonelela ngohlalutyo lweziqalelo kwangoko kwindawo ezisetyenziswa kuyo. Lunciphisa ukuguquka, lwenza kube lula ukulawula inkqubo, kwaye lususe iimpazamo ezivela ekuthuthweni kwesampulu. Abasebenzisi banokuvavanya amaphepha, iikhoyili, okanye iindawo zecandelo ngqo kumgangatho wefektri okanye wendlu yokugcina impahla ngaphandle kokonakalisa izixhobo, nto leyo ephucula ukusebenza kakuhle kunye nokusebenza kakuhle kweendleko.
Ixesha lokuthumela: Februwari-12-2026
