Sidee loo magnetized neodymium?

Sida walxaha magnetka muhiimka ah,Shiinaha neodymium magnetssi weyn ayaa looga isticmaalaa meelo badan. Si kastaba ha ahaatee, habka magnetization ee magnets neodymium waa mawduuc xiiso leh oo adag. Ujeedada maqaalkani waa in laga hadlo mabda'a magnetization iyo habka magnets neodymium, iyo falanqaynta arrimaha saameeya saamaynta magnetization. Iyadoo si qoto dheer loo fahmo habka magnetization ee magnets neodymium, waxaan si fiican u codsan karnaa oo aan wanaajin karnaa sifooyinka magnetic ee maaddadan. Si kor loogu qaado horumarinta warshadaha sida qalabka elektaroonigga ah, qalabka caafimaadka iyo goobaha tamarta. Cilmi-baarista warqadan waxay ku siin kartaa tixraac iyo hagitaan qiimo leh oo loogu talagalay farsamada magnetization mustaqbalka. Warqadani waxay ka hadli doontaa mabda'a, habka, arrimaha saameeya iyo goobaha codsiga ee magnetization.

Ⅰ.Mabda'a aasaasiga ah ee magnet Neodymium

A. Astaamaha iyo Kala soocida Agabka Magnetka

1. Qalabka birlabku waa shay dhalin kara dhul birlab ah oo soo jiidan kara walxo kale oo birlab ah.

2. Qalabka magnetic waxaa loo qaybin karaa walxo birlab jilicsan iyo walxo birlab adag ah iyadoo loo eegayo sifooyinkooda magnetic.

3. Qalab birlabeedka jilicsan ayaa leh awood yar oo birlabeed ah iyo induction hadhaaga ah, waxaana inta badan loo adeegsadaa qalabka korantada sida inductors iyo transformers.

4. Qalabka birlabeedka adagi waxa ay leeyihiin xoog xoog badan oo xoog wax ku muquuninta ah iyo xooga induction magnetka hadhaaga ah, waxaana inta badan loo adeegsadaa codsiyada sida soo saarista birlab iyo matoorada joogtada ah.

5. Tilmaamaha qalabka magnetic waxay sidoo kale la xiriiraan qaab-dhismeedka crystal, domain magnetic, daqiiqad magnetic iyo arrimo kale.

B. Qaab dhismeedka iyo sifooyinka magnets neodymium

1. Neodymium magnet waa malab adag oo caadi ah waana mid ka mid ah qalabka birlabeedka joogtada ah ee inta badan la isticmaalo.

2. Qaab dhismeedka magnets neodymium waxa uu ka kooban yahay neodymium iron boron (Nd2Fe14B) wajiga crystal, kaas oo neodymium iyo qaybaha boron birta ay ku jiraan qaybta ugu weyn.

3. Neodymium magnets waxay leeyihiin xoog qasab ah oo sarreeya iyo xoojinta kicinta magnetic-ka ee hadhaaga ah, taas oo dhalin karta dhul birlab ah oo xooggan iyo wax soo saarka tamarta birlabeedka sare.

4. Neodymium magnets waxay leeyihiin xasillooni kiimiko oo wanaagsan iyo iska caabin daxalka, waxayna ilaalin karaan guryaha magnetic-ka ee muddada dheer ee xaaladaha deegaanka ku habboon.

5. Faa'iidooyinka magnets-ka neodymium waxaa ka mid ah xoog adsorption sare, xasilloonida heerkulka sare iyo meelo badan oo codsi ah, sida matoorada, dareemayaasha, MRI, iwm.

Ⅱ.Nidaamka Magnetization ee Neodymium magnetka

A. Qeexida iyo fikradda magnetization

Magnetization-ku waxa loola jeedaa habka samaynta agabka birlabeedka ah ama qalabka birlabaysan ee aan magnetized lahayn iyada oo la adeegsanayo goob birlabeedka dibadda ah.

Inta lagu jiro magnetization, goobta birlabeedka la dabaqay ayaa dib u habeyn ku sameyn doonta daqiiqadaha magnetic gudaha maaddada si ay u jiheeyaan midnimada, abuurista goob guud oo magnet ah.

B. Magnetization of neodymium magnets

1. Magnetization waqti dheer taagan:

- Magnetization-ka muddada-dheer waa habka magnetization-ka ee inta badan loo isticmaaloqaababka kala duwan ee magnets neodymium.

- Neodymium magnets waxaa lagu dhejiyaa goob birlab joogto ah oo joogto ah muddo dheer si ay daqiiqadahooda magnetic gudaha si tartiib tartiib ah u hagaajiyaan una siman yihiin jihada magnetic field.

- Magnetization-ka joogtada ah ee muddada-dheer waxay soo saari kartaa magnetization sare iyo sifooyinka birlabeedka deggan.

2. magnetization ku meel gaar ah:

Magnetization ku meel gaadhka ah waxaa lagu gaaraa iyadoo si degdeg ah loo magnetization-ka neodymium magnetka iyadoo la soo bandhigayo garaaca birlab xoog leh.

- Marka la eego ficilka garaaca magnetic xooggan ee muddada-gaaban, xilliga magnetic ee magnet neodymium ayaa si dhakhso ah dib u habeyn doona si loo gaaro magnetization.

- Magnetization ku-meel-gaadhka ah wuxuu ku habboon yahay codsiyada halkaas oo magnetization u baahan yahay in lagu dhammeeyo wakhti gaaban, sida xusuusta magnetic, electromagnet ku-meel-gaadhka ah, iwm.

3. magnetization heerar badan:

Magnetization-ka marxalado badan waa habka magnetization neodymium magnets marxalado badan.

- Marxalad kastaa waa magnetized iyadoo si tartiib tartiib ah u kordheysa xoogga goobta magnetka, si heerka magnetization ee magnet neodymium uu si tartiib tartiib ah u kordho marxalad kasta.

- Magnetization heerar badan ayaa wanaajin kara wax soo saarka magnetic field iyo tamarta tamarta ee magnets neodymium.

C. Qalabka Magnetization iyo Habka

1. Noocyada iyo mabaadi'da qalabka magnetization:

- Qalabka magnetic sida caadiga ah waxaa ku jira magnet, sahay koronto iyo nidaamka xakamaynta.

- Qalabka magnetization-ka caadiga ah waxaa ka mid ah gariiradaha korantada, qalabka magnetization, hababka magnetization, iwm.

Qalabka birlabku wuxuu ku shaqeeyaa magnet neodymium isagoo soo saaraya goob magnet joogto ah ama kala duwan si loo gaaro habka magnetization-ka.

2. Hagaajinta iyo xakamaynta habka magnetization:

- Hagaajinta habka magnetization-ka waxaa ka mid ah xulashada habka magnetization ee ku habboon iyo xuduudaha si loo kordhiyo saameynta magnetization ee magnet neodymium.

- Xakamaynta habka magnetization waxay u baahan tahay si loo hubiyo xasiloonida iyo joogteynta goobta magnetic si loo hubiyo xakamaynta iyo joogtaynta tayada magnetization.

- Hagaajinta iyo xakamaynta habka magnetization-ka ayaa ah mid muhiimad weyn leh si loo hubiyo xasilloonida waxqabadka iyo joogtaynta magnets neodymium.

Ⅲ.Gabagabada magnetized neodymium magnetized

A. Muhiimadda iyo Rajada Magnetization ee Neodymium Magnets

1. Neodymium magnets ayaa si weyn loogu isticmaalaa warshadaha casriga ah, oo ay ku jiraan matoorada, koronto-dhaliyeyaasha, baabuurta korontada, kaydinta magnetic iyo meelo kale.

2. Habka magnetization ee magnetka neodymium wuxuu saameyn muhiim ah ku leeyahay waxqabadkiisa iyo xasilloonida, wuxuuna si toos ah u go'aamin karaa waxtarkiisa iyo qiimaha codsiyada kala duwan.

3. Iyadoo horumarinta joogtada ah ee tignoolajiyada, baahida loo qabo waxqabadka sare iyo saxda ah ee neodymium magnets ayaa sii kordhaya, iyo tiknoolajiyada magnetization waxay sii wadi doontaa horumarinta iyo hagaajinta.

B. Soo koob qodobbada muhiimka ah ee magnetization ee magnets neodymium

Magnetization 1. Magnetization waxa loola jeedaa habka samaynta alaabada birlabeedka ah ama qalabka birlabaysan ee aan magnetized lahayn iyada oo loo marayo goob birlab ah oo dibadda ah.

2. Magnetization of neodymium magnets waxaa lagu gaari karaa by waqti dheer magnetization taagan, magnetization ku meel gaar ah iyo magnetization heer-kala duwan.

3. Xulashada iyo hagaajinta qalabka magnetization iyo habka ayaa saameyn muhiim ah ku leh saameynta magnetization ee magnets neodymium, waxaana lagama maarmaan ah in la hubiyo xasilloonida iyo joogteynta goobta magnetic.

4. Habka magnetization ee magnetka neodymium wuxuu saameyn muhiim ah ku leeyahay waxqabadkiisa iyo xasilloonida, wuxuuna si toos ah u go'aamin karaa waxtarkiisa iyo qiimaha codsiyada kala duwan.

5. Iyadoo horumarinta joogtada ah ee tignoolajiyada, baahida loo qabo waxqabadka sare iyo saxda ah ee neodymium magnets ayaa sii kordhaya, iyo tiknoolajiyada magnetization waxay sii wadi doontaa horumarinta iyo hagaajinta.

Marka la soo koobo, habka magnetization ee magnets neodymium waa tallaabo geedi socodka muhiimka ah, taas oo saameyn muhiim ah ku leh waxqabadka iyo xasiloonida magnets neodymium. Horumarinta iyo tayaynta tignoolajiyada magnetization-ka ayaa sii horumarin doona codsiga iyo rajada suuqa ee magnets neodymium.

Haddii aad raadinayso adhululubo magnet,magnets gaar ah oo la habeeyayWaxaad dooran kartaa shirkadeena Fullzen Co, Ltd.

Waxaan bixin karnaa adeegyada OEM/ODM ee alaabtayada. Alaabta waxaa loo habayn karaa iyadoo loo eegayo shuruudahaaga shakhsi ahaaneed, oo ay ku jiraan cabbirka, Qaabka, waxqabadka, iyo dahaarka. fadlan noo soo bandhig dukumeentigaaga naqshadeynta ama noo sheeg fikradahaaga kooxdayada R&D ayaa sameyn doona inta soo hartay.


Waqtiga boostada: Juun-23-2023