Maght magnetic? Su'aashani badanaa waxay soo baxdaa markii laga hadlayo birahaan isku midka ah. In kasta oo isticmaalkeeda baahsan, zinc ma aha magnetic. Si ka duwan macdanta birta ama nikkel, qaab dhismeedka atomikada zinc ma leh elektaroonigo aan cillad lahayn, taasoo ka dhigeysa in roogno. Tani waxay ka dhigan tahay inay si daciif ah u celinayso meelaha magnetic-ka halkii laga soo jiidan lahaa iyaga.
Dabeecadda aan magnetic lahayn zinc-ka-magnetic-ka waa wax qiimo leh codsiyada kala duwan, gaar ahaan halka faragelinta magnetic-ka ay tahay in laga fogaadaa. Laga soo bilaabo xaashiyaha isku-darka-u-adkeysiga-elektaroonigga ah ee elektrehagnetic ee elektaroonigga ah ee elektiroonigga ah ee elektiroonigga ah, guryaha gaarka ah ee zinc waxay ka dhigeysaa wax aan lagamamaarmnayn warshadaha casriga ah.
Fahamka dabeecadda zinc-ka-maretic-ka oo keliya ma cadda oo kaliya fikradaha caadiga ah, laakiin waxay sidoo kale muujineysaa muhiimadda hantida noocyada kala duwan ee teknolojiyadda iyo u dhinta soosaarka tuurista .
1. Waa maxay zinc iyo waa maxay magnetism
Zinc, bir buluug ah oo cadaan ah oo leh lambarka atomiga ah 30, wuxuu door muhiim ah ka ciyaaraa warshadaha kala duwan. Waxaa laga helay qaabkeeda macdan ahaan 1746 ee Andreas Marggraf, zinc waxay noqotay mid lagama maarmaan u ah nolosha casriga ah. Sida laga soo xigtay sahanka juquraafi ahaaneed ee Mareykanka, soosaarka adduunka ee caalamiga ah ayaa gaadhay ku dhawaad 13.2 milyan oo metrik ton sanadkii 2020, oo muujinaya muhiimada ay u leedahay adduunka warshadaha.
Fahmitaanka astaamaha magnetic ee agabka ayaa muhiim u ah codsiyada badan, laga bilaabo aaladaha maalin kasta si loo jaro teknolojiyadda-geeska. Sida aan u galno xiriirka zinc ee magnetims, waxaan ka soo bixin doonaa fikradaha xiisaha leh ee ku saabsan sheygan iyo dhibka gaarka ah ee miiska xilliyada.
2. Dabeecadda magnetic magnetic
2.1 Kala-soocidda zinc
Zinc waxay ku dhacday qaybta qalabka dheeman. Kala soocidani waxay u muuqan kartaa mid adag, laakiin waxay si fudud uga dhigan tahay in zinc uu soo bandhigayo cafiska daciifka ah marka la soo bandhigo meelaha magnetic. Hantida Dibcnetic ee zinc waa u nugul u nuglaanta magnetic, oo qiyaastii ah -1.56 × 10⁻⁵ (unugyo yari unugyada ah) heerkulka qolka.
2.2 Jawaabta magnetic
Markii lagu qaado dhul dibadda ah, jawaabta zinc aad ayey uga duwan tahay waxa aan ka eegno agabyada magnetic-ka ee caadiga ah sida birta. Halkii aad soo jiidan lahayd, zinc si daciif ah ayaa uga fogaada isha magnetic. Habdhaqankan waxaa lagu muujin karaa habka Farway, halkaas oo gabal yar oo zinc ah oo ay gashan karto dunta khafiifka ah in xoogaa dib loo celiyo marka magnet adag loo soo dhoweeyo.
Si loo muujiyo habdhaqankan, ka fiirso shaxdan soo socota isbarbardhigaya u nugul:
| noocyada nooca loo | yaqaan 'magnetic-finanka magnetic (χ) | tusaalooyinka |
| Ferromagnetic | Wanaagsan (> 1000) | Birta (χ ≈ 200,000) |
| Paramagnetic | Yar (0 illaa 1) | Aluminium (χ ≈ 2.2 × 10⁻⁵) |
| Dibagnetic | Tilmaanta yar (-1 ilaa 0) | Zinc (χ ≈ -1.56 × 10⁻⁵) |
3. Maxaa Zinc uusan ahayn magnetic
3.1 Qaab dhismeedka atomikada ee zinc
La'aan la'aanta guryaha magnetic ee guryaha magnetic waxaa lagu soo celin karaa qaabeynta elektaroonigga ah. Qabanqaabada elektaroonigga ah ee ku yaal qolalka dibedda ee zinc waxay door muhiim ah ka ciyaarayaan go'aaminta dhaqanka magnetic.
Qaabeynta elektaroonigga ah ee zinc elektaroonigga ah waa [Ar] 3D⊃1; ⁰4s⊃2 ;. Tani waxay ka dhigan tahay dhammaan elektronnada zinc-ka ah ee zinc-ka ah waa la isku xirayaa, oo aan lahayn elektronno aan lagaraneyn oo aan la-tareyn oo ku yaal dibadda orbital. Maqnaanshaha elektaroonigga aan go'nayn ayaa fure u ah fahamka sababta zinc uusan soo bandhigin guryaha magnetic.
Si loo arko tan, aynu isbarbar dhigno qaabeynta elektaroonigga ah ee zinc-ka ah oo leh sheyga magnetic:
| elektroonikada | elektaroonigga elektroonikada | ah |
| Curiye bir ah | [Ar] 3D⊃1; ⁰4s⊃2; | 0 |
| Feerayn | [Ar] 3D⁶4s⊃2; | 4 |
3.2 daqiiqad magnetic ah zinc
Sababo la xiriira elektronkeeda lammaanaha ah, zinc waxay leedahay daqiiqad magnetic oo eber ah. Tani waxay si tartiib tartiib ah ula tacaalisaa agabyada ferramagnetic sida birta, kuwaas oo leh elektronno aan la jaanqabin oo ku habboon garoonka magnetic, abuurista daqiiqad bir ah oo bir ah.
Waqtiga magnetic (μ) ee atomka waxaa lagu xisaabin karaa iyadoo la adeegsanayo qaaciddada:
μ = √ [n (n + 2)] μb
Meesha N waa tirada elektaroonigga aan caadiga ahayn iyo μB waa Bohr Magnton (9.274 × 10⁻⊃2; ⁴ j / t).
Loogu talagalay zinc: n = 0, marka μ = 0 for birta: n = 4, marka μ 4.90 μ 4.90 μ 4.90 μ 4.90 μ 4.90 μ 4.90 μ 4.90 μB
4. Waxyaabaha saameeya astaamaha magnetic-ka zinc
4.1 Daahirnimada iyo ciladaha
In kasta oo zinc saafiga ahi uu yahay Diagnetic, nijaasta ayaa mararka qaarkood wax ka beddeli kara dhaqanka magnetic. Qiyaasta qaarkood ayaa laga yaabaa inay abuuraan waqtiyo magnetic oo maxalli ah, taasoo horseedi kara daciifnimo daciif ah dabeecadda paramagnetic. Si kastaba ha noqotee, saamayntani caadi ahaan waa wax yar oo aad u yar oo aan weli aan laga fiirsaneyn ee codsiyada maalinlaha ah.
Daraasad lagu daabacay joornaalka magnetism-ka iyo agab magnetic (2018) waxay ogaadeen in zinc nanopartarticles oo ay ka dhaleen 5% manganese oo daciif ah heerkulka qolka, oo leh salfsing magtit ah 0.08 EMU / G.
4.2 Heerkulka
Heerkulku wuxuu kaloo door ku yeeshaa dhaqanka zinc ee magnetic. Sida heerkulku kordho, wax saameyn ah oo magnetic ah oo ay sabab u tahay xumaanta ayaa la sii yaraanayaa. Tani waxay dhacdaa maxaa yeelay tamarta kuleylka ayaa carqaladeysa isku-darka elektaroonigga, yareynta wax yar oo magnetic ah.
Xiriirka ka dhexeeya heerkulka iyo u nuglaanta magnetic ee agabyada dheellitirka sida zinc waxay raacaysaa Sharciga Daaweynta:
χ = c / t
Halkee C waa wiigiisu yahay mid joogto ah oo t waa heerkulka buuxa. Zinc, ku tiirsanaanta heerkulka ayaa aad u daciif ah, oo isbadal ka yar 1% in ka badan boqolkiiba 100k ilaa 300k.
5. zinc ma noqon karaa magnetic?
5.1 Aloy
In kasta oo zinc saafiga ahi uusan noqon karin magnetic, oo ku qoran qalabka ferramagnetic-ka wuxuu abuuri karaa xeryo leh guryaha magnetic. Tusaale ahaan, qaar ka mid ah zinc zinc-ka waxaa loo isticmaalaa soo saarista dareemayaasha magnetic. Waxaa muhiim ah in la ogaado in aloy-yadaas ay soo bandhigayaan guryaha magnetic-ka sababo la xiriira waxyaabaha lagu daray, ee aan ahayn zinc lafteeda.
Tusaale u ah aaladda magnetic ee ku saleysan zinc-zinc-ka:
| alkoy | Magaca | hantida magnetic | arjiga |
| Znfe₂o₄ | Zinc ferrite | Ferrimagnetic | Cores magnetic, dareemayaal |
5.2 Xaaladaha Gaarka ah
Xaaladaha gaarka ah ee gaarka ah, xeryahooda ku saleysan zinc-ku-saleysan waxay soo bandhigi karaan astaamaha magnetic:
Zinc ferrite (znfe₂o₄): Isku-xidhkan ayaa muujinaya guryaha ferramagnetic sababa la xiriira jiritaanka macdanta ionga. Waxay leedahay heerkulka dawooyinka ee 10 ° C, oo kor ku xusan oo ay tilmaantami karto.
Zcc oxide-ka ah ee loo yaqaan 'zcc oxide'
6. Codsiyada waxay u adeegsadaan dabeecadda zinc-ka aan magnetic lahayn
6.1 Qaybaha korantada
Nooca zinc-ka ee aan magnetic-ka ahayn waxay ka dhigeysaa mid qiimo leh codsiyada korantada. Waxay si gaar ah waxtar ugu leedahay gaashaandhigga elektaroonigga ah, halkaas oo ay ku xannibi karto meelaha elektrehagnetic ah iyada oo aan laheyn wax labanlaajin. Waxtarka zinc ee loo yaqaan 'zinc' ee gaashaandhigga EMI ee EMI-ga waxaa lagu qiyaasi karaa waxtarka gaashaandhiga
6.2 gaashaanka magnetic
Awoodda zinc ee waxoogaa yar oo magnetic ah ayaa ka dhigaya xulasho aad u fiican oo loogu talagalay codsiyada gaashaandhigga magnetic. Waxaa loo isticmaalaa in lagu ilaaliyo qalabka xasaasiga ah ee faragelinta magnetic magnetic-ka, hubinta waxqabadka saxda ah ee aaladaha kala duwan.
Miis isbarbardhiga ah oo shil ka ah wax ku oolnimada qalabka
| duwan | kala |
| Curiye bir ah | 85-95 |
| Maar | 90-100 |
| Jaandi | 80-90 |
7. Isbarbar dhig zinc to lence to magnetic iyo biraha aan magnetic ahayn
7.1 biraha magnetic
Si ka duwan sida zinc, farqiga ferragagnetic sida birta, nikkel, iyo cobatt soo bandhiga guryaha magnetic xoog leh. Qalabkaani si sahlan ayaa loo gacan qaadi karaa oo lagu hayn karaa magnetkeeda, taasoo ka dhigeysa inay muhiim u yihiin codsiyada sida matoorrada korantada iyo matoorrada.
7.2 Biraha kale ee aan magnetic ahayn
Zinc keli kuma aha dabeecadda aan la-noolaanshadu ahayn. Birta kale ee caanka ah sida naxaasta, dahabka, iyo aluminium sidoo kale ha soo bandhigin guryaha magnetic weyn. Si kastaba ha noqotee, mid kasta oo ka mid ah billadahan ayaa leh astaamo u gaar ah oo ka dhigaya inay ku habboon yihiin codsiyada kala duwan.
Isbarbardhiga guryaha magnetic iyo codsiyada: u nuglaanta
| birta | (χ) | Codsiyada muhiimka ah |
| Curiye bir ah | -1.56 × 10⁻⁵ | Galvanization, Alles, Difaaca |
| Maar | -9.63 × 10⁻⁶ | Xirmooyinka korantada, kuleylka kuleylka |
| Dehab | -3.44 × 10⁻⁵ | Dahabka, elektiroonigga ah, daawo |
| Jaandi | 2.2 × 10⁻⁵ | Aerospace, Dhismaha, Baakadaha |
8. Gunaanad
Si looga jawaabo su'aasha 'ma zinc magnetic? ' Waxaan u bannaynay in zinc saafi ah uusan ahayn magnetic. Dabeecaddeeda dheellitirka ah waxay ka dhigan tahay inay daciif tahay beeraha magnetic halkii laga soo jiidan lahaa iyaga. Hantidan waxay afkoday qaab dhismeedka atomikada zinc, gaar ahaan la'aanta elektaroonig aan la careysi lahayn.
In kasta oo zinc laftiisu aysan jirin magnetic, dabeecadeeda aan magnetic-ka-lahayn waxay cadeyneysaa qiimo badan codsiyada kala duwan. Inaan ka ilaaliyo qalabka xasaasiga ah si loogu adeego saldhigyo u ah alkolo gaar ah, guryaha gaarka ah ee zinc waxay sii wadaan inay ka dhigto cunno muhiim ah teknolojiyadda casriga ah iyo warshadaha casriga ah.
Fahmitaanka astaamaha magnetic ee agabyada sida zinc waxay muhiim u tahay horumarinta tikniyoolajiyadda iyo helitaanka xalka hal-abuurka ah ee caqabadaha injineernimada. Maaddaama cilmi-baaris uu sii socdo, waxaan ka heli karnaa xitaa codsiyo xiiso badan oo loogu talagalay birtaan isku mid ah, magnetic iyo in kale.
Su'aalaha badanaa la isweydiiyo: zinc iyo magnetism
Maght magnetic?
Maya, zinc saafi ah ma aha magnetic. Waxaa loo kala saaraa inay tahay qalab dheeman ah, taas oo macnaheedu yahay inay daciif tahay beeraha magnetic.
Zinc ma noqon karaa magnetic wixii ku jira xaalad kasta oo jirta?
Zinc saafi ah ma noqon karto mid joogto ah magnetic. Si kastaba ha noqotee, markii ay ku shaqeeyaan waxyaabo badan oo ferromagnetic ah ama jiritaanka meelaha magnetic aad u xoog badan, xeryahooda ku saleysan zinc-ku-saleysan waxay soo bandhigi karaan guryaha magnetic-ka daciifka ah.
Waa maxay sababta aan loogu helin zinc magnesto?
Zinc ma aha magnetic sababtuna tahay qaabeynta elektaroonigga ah. Waxay leedahay hoosaad buuxa oo buuxa oo 3D ah, taasoo dhalisay in aan lahayn elektronno aan la-tallin, kuwaas oo lagama maarmaan u ah habdhaqanka ferramagnetic.
Sidee zincku ula falgashaa magnetka?
Zinc daciif ah ayaa ka tanaasulay magnet magnet sababtoo ah dabeecadda dhexmaraheeda awgeed. Cayrintani caadi ahaan waa mid aad u daciif ah oo badanaa laguma arki karo xaaladaha maalinlaha ah.
Ma jiraan wax loo yaqaan 'zinc zinc' oo ah magnetic?
Haa, qaar ka mid ah zinc zinc waxay noqon kartaa magnetic. Tusaale ahaan, encel gaar ah ama zinc-nickel zinc-nickel ah ayaa laga yaabaa inay soo bandhigaan guryaha magnetic sababo la xiriira dabeecadda ferramagnetic ee birta ama nikkel.
Dabeecadda 'zinc' ee aan magnetic lahayn ma leeyahay wax kasta oo la xiriira wax ku ool ah?
Haa. Hantida aan magnetic-ka ahayn ee zinc-ka-magnetic-ka ayaa waxtar u leh codsiyada ay ku jirto faragalinta magnetic-ka oo loo baahan yahay in la yareeyo, sida qaybaha elektiroonigga ah qaarkood ama gaashaanka magnetic.
Imtixaanka Magnet ma loo isticmaali karaa in lagu garto zinc saafi ah?
In kasta oo zinc uusan soo jiidan doonin magnet, baaritaanka magnetka keligiis kuma filna in lagu garto zinc saafi ah. Biro badan oo kale oo aan magnetic ahayn ayaa lagu qaldami karaa zinc. Tijaabooyin dheeri ah ayaa loo baahan yahay aqoonsiga saxda ah.
