JIMA Electrolytic Copper Foil

Foil mai fuska biyu na Electrolytic Copper Foil 4.5μm ~ 15μm
Double-gefe goge electrolytic jan karfe tsare ne halin da wani symmetrical tsarin na bangarorin biyu, karfe yawa kusa da ka'idar yawa na jan karfe, sosai low profile na surface, m elongation da tensile ƙarfi, da sauransu.A matsayin mai tattara cathode don batir lithium, yana da kyakkyawan juriya na sanyi / zafi kuma yana iya ƙara tsawon rayuwar baturi.Ana iya amfani da shi sosai a cikin batura don sababbin motocin makamashi, masana'antar 3C da ke wakilta ta wayoyi masu wayo, kwamfutocin littafin rubutu, da tsarin ajiya na ESS, da sarari.

Tsare-tsaren Juya-Mayya
A matsayin foil na jan karfe da aka juyar da shi, wannan samfurin yana da mafi kyawun aikin etchability.Yana iya gajarta tsarin samarwa yadda ya kamata, cimma mafi girma gudu da sauri micro-etching, da kuma inganta conformance kudi na PCBs.Ana amfani da shi ne a cikin alluna masu yawa da kuma alluna masu girma.

VLP (Mai Ƙarƙashin Bayanan Bayani) Tsararren Tagulla
JIMA Copper yana ba da foil ɗin tagulla na lantarki mai ƙarancin ƙarfi.Idan aka kwatanta da foil na jan ƙarfe na electrolytic na yau da kullun, wannan foil ɗin VLP yana da mafi kyawun lu'ulu'u, waɗanda suke daidai da waɗanda ke da ƙugiya masu lebur, suna da ƙarancin saman 0.55μm, kuma suna da irin wannan cancantar azaman mafi girman kwanciyar hankali da taurin mafi girma.Wannan samfurin yana da amfani ga maɗaukaki da kayan aiki masu sauri, galibi masu sassauƙan allunan kewayawa, babban allon kewayawa, da allunan kewayawa masu kyau.

LP (Ƙaramar Bayanan Bayani) Tsararren Tagulla
Ana amfani da wannan foil ɗin don PCBs masu yawa da kuma allunan da'ira masu girma, waɗanda ke buƙatar ƙarancin fuskar bangon ɗin ya zama ƙasa da na foil ɗin tagulla na yau da kullun don ayyukansu kamar juriya na kwasfa su kasance a babban matakin.Yana cikin wani nau'i na musamman na foil na jan ƙarfe na electrolytic tare da sarrafa rashin ƙarfi.Idan aka kwatanta da foil na jan karfe na electrolytic na yau da kullun, lu'ulu'u na LP jan karfe suna da kyau sosai daidai gwargwado (<2/zm).Suna ɗauke da lu'ulu'u na lamellar maimakon na ginshiƙai, yayin da suke nuna ƙugiya mai lebur da ƙarancin ƙarancin ƙasa.Suna da irin wannan cancantar kamar mafi girman kwanciyar hankali da taurin mafi girma.

HTE (High Zazzabi Electrolytic) Tagulla Foil
Kamfanin ya ɓullo da hatsi mai kyau da ƙarfin ƙarfe mai ƙarfi na ƙarancin ƙarancin ƙasa da aikin ductibility mai zafi.Wannan foil yana fasalta nau'in hatsi masu kyau da inganci kuma yana iya hana fissures sakamakon damuwa mai zafi, don haka ya dace da yadudduka na ciki da na waje na allon multilayered.Tare da ƙarancin ƙarancin ƙarancin ƙasa da ingantaccen etchability, ana amfani da shi don babban yawa da bakin ciki.Tare da ingantacciyar ƙarfi mai ƙarfi, yana taimakawa haɓaka sassauci kuma ana amfani dashi galibi a cikin PCB multilayer da kuma farantin flex.Tare da ingantacciyar juriya da taurin kai, ba a sauƙin tsagewa a gefe ko ninka, yana haɓaka ƙimar ƙimar samfur sosai.

Foil na Copper don Batir Lithium
JIMA Copper ita ce kamfani na farko da ya yi amfani da tsarin PCB wajen samar da foil na jan karfe.Yana gudanar da aiki mai zurfi na sakandare bisa tushen baturin lithium na 6-15μm na jan karfe.Jaririn jan ƙarfe da aka samu ya fi sauƙi kuma ya fi ƙarfin ƙarfi.Idan aka kwatanta da ƙwayoyin baturi masu girmansu iri ɗaya a cikin foil ɗin jan ƙarfe na al'ada, wannan foil ɗin tagulla mai ƙaramin rami ya inganta aiki a fili.Batirin lithium da aka yi da irin wannan foil ɗin tagulla na iya rage nauyinsa;zai iya tabbatar da mannewa na kayan lantarki da masu tarawa, rage girman rikitarwa saboda fadadawa da raguwa cikin sauri da fitarwa, da kuma tabbatar da aminci da amincin batura.Hakanan zai iya daidai da haɓaka ƙarfin baturi da haɓaka ƙarfin baturi, don haka cimma tsayin daka don batirin lithium.
Diamita mai ƙyalƙyali, porosity, nisa, da sauransu na foil ɗin tagulla na micro-rami na iya zama na al'ada don saduwa da ainihin buƙatun abokin ciniki.Diamita na iya zama daga 30μm zuwa 120μm;porosity na iya zama 20% zuwa 70%.Ana iya amfani da shi azaman mai tarawa don batir lithium-ion, batir lithium-ion mai ƙarfi, super capacitors, da sauransu, yayin da kuma ana iya shafa shi a cikin batir nickel-cadmium ko nick-hydrogen.


Lokacin aikawa: Oktoba-22-2021