CS251916B1 - Aluminium foil - Google Patents

Aluminium foil Download PDF

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Publication number
CS251916B1
CS251916B1 CS823569A CS356982A CS251916B1 CS 251916 B1 CS251916 B1 CS 251916B1 CS 823569 A CS823569 A CS 823569A CS 356982 A CS356982 A CS 356982A CS 251916 B1 CS251916 B1 CS 251916B1
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CS
Czechoslovakia
Prior art keywords
aluminum
aluminum foil
minutes
temperature
aluminium foil
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CS823569A
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Czech (cs)
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CS356982A1 (en
Inventor
Otto Michalek
Roland Loebelt
Monika Troschke
Original Assignee
Otto Michalek
Roland Loebelt
Monika Troschke
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Application filed by Otto Michalek, Roland Loebelt, Monika Troschke filed Critical Otto Michalek
Publication of CS356982A1 publication Critical patent/CS356982A1/en
Publication of CS251916B1 publication Critical patent/CS251916B1/en

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01GCAPACITORS; CAPACITORS, RECTIFIERS, DETECTORS, SWITCHING DEVICES, LIGHT-SENSITIVE OR TEMPERATURE-SENSITIVE DEVICES OF THE ELECTROLYTIC TYPE
    • H01G9/00Electrolytic capacitors, rectifiers, detectors, switching devices, light-sensitive or temperature-sensitive devices; Processes of their manufacture
    • H01G9/004Details
    • H01G9/04Electrodes or formation of dielectric layers thereon
    • H01G9/042Electrodes or formation of dielectric layers thereon characterised by the material
    • H01G9/0425Electrodes or formation of dielectric layers thereon characterised by the material specially adapted for cathode
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22FCHANGING THE PHYSICAL STRUCTURE OF NON-FERROUS METALS AND NON-FERROUS ALLOYS
    • C22F1/00Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working
    • C22F1/04Changing the physical structure of non-ferrous metals or alloys by heat treatment or by hot or cold working of aluminium or alloys based thereon

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Power Engineering (AREA)
  • Thermal Sciences (AREA)
  • Physics & Mathematics (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • ing And Chemical Polishing (AREA)
  • Metal Rolling (AREA)
  • Fixed Capacitors And Capacitor Manufacturing Machines (AREA)
  • Crystals, And After-Treatments Of Crystals (AREA)

Description

11

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HaKOHeq, flajibHeňnn-rii ηθαοοτητοκ coctoht b tom, hto b npoyecce npwmaHHH mepo-XOB3TOCTH y»e H3BeCTHbIM aJDCMHHH6BbIM (jKUIbraM nOJiyqaiOT, B aaBHCHMOCTH OT npH-MeHeHHB KHCJioro hjih neňTpajibHoro 3ΐιεκτροιΐΗΤθΒ, OTKHOHHioiiwecH fípyr ot flpyrab 3HaHHTejibHoft Mepe ynenbHbie gmkocth naontaflěň, πρηπεΜ Ka»flaa $ojibra npHMe-HHeMa Tojibxo b orpaHHneHHOň Mepe b cooTBeTCTBHH c Μ6το«ομ H3roTOBJieHHH.HaKOHeq, flajibHeňnn-RII ηθαοοτητοκ coctoht b that HTO b npoyecce npwmaHHH MEPO-XOB3TOCTH y »e H3BeCTHbIM aJDCMHHH6BbIM (jKUIbraM nOJiyqaiOT B aaBHCHMOCTH OT NPH MeHeHHB KHCJioro hjih neňTpajibHoro 3ΐιεκτροιΐΗΤθΒ, OTKHOHHioiiwecH fípyr ot flpyrab 3HaHHTejibHoft Mepe ynenbHbie gmkocth naontaflěň, πρηπεΜ Ka» flaa $ ojibra npHMe-HHeMa Tojibxo b orpaHHNHHOH Mepe b cooTBeTCTBHH c Μ6το «ομ H3roTOBJieHHH.

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H3J1OWEHHE CyPlECTBA H3OBPETEHHH B ocHOBe Η3θ6ρβτβΗΗ« ji&kht pemaeMaH τεχΗπηεεκβΗ 3aflana ηβγοτοβττητβ ajnoMH-HHeByiO φΟΠΒΓγ pflR 3JieKTpOJIHTHHeCKHX KOHfleHCaTOpOB, nOCpeflCTBOM κοτοροή H3 6e-raioT noBbuneHHH mbctkocth, npHBOjvJmeň κ ποΜβχβΜ ηβμοτοηημχ ηβτομ3τοβ, η οτρκ-uaTejibHoro bjihhhhh 3φφεκτΗΒΗοετΗ 3JieKTpojiHTa, a Tarate oCecnemreaioT ΗβτοτοΒ^IneHHe BbicoKomepoxoBaTOft xaTOflHOň Φολβγη c bmcokoíí ynejibHoň eMKOCTb» nnomaflH1ΠΟ pa3JlHHHblM XHMHHeCKHM η/ηΠΗ 3JieKTpOXHMHHeCKHM MeTOflaM npHflaHHH fflepOXOBa“TOCTH. COrJiaCHO H3O6peTeHHK) 3ΤΟΓΟ flOCTHraiOT ΤβΜ, ΗΤΟ ΠρΗΜεΗΗεΜΗΗ flJIH HSrOTOBJíeHHHanioMHHHeBoň Φολβγη ajiioMHHHň aarpyxaeTCfl τβκ, ητο Ráin sneMeHTOB Fe; Μη; Si;AI nÓJiyňáíoT cooTHonienne aTOMHbix προηβΗτοβ 1:1:1:600 flo 1:1:1:400, npeHMy-mecTBeHHo 1:1:1:500 h.. HMeioTCH npoqne nonyTHbie ρηεΜεκτω hkctoto θιβομηηηη noaTOMHOMy προηεΗτγ ť 0,1, πρκηβΜ npoKaTaHHyto ΗβτοτοΒΟ KaTOflHyio 4>ojibry nofl-BGprajoT TaKOň τερΜοοόρβδοτκε b 6ypHOň ra3oeoft βτΜοεφερε 723 ρ,ο 743 Κ, τβκπ το Kaambiň sjigmght oSteMa pynoHa Φοπβγη cocTaejiHeT 6onee 673 Κ b τεηεΗΗε Ηεmghgg 30 MHHyT, ho Ηε 6οηεε 120 ΜΗΗγτ. ΠΡΗΜΕΡ OCyiTECTBJIEHHfl Η30ΕΡΕΤΕΗΗ3 Η3θ6ρετεΗηε ποηροβΗεε noncHneTca πο npHMepy ocymecTBJíeHHH κέοβρετβΗΗΗ. 1,6 t HHCTOro anioMHHHB AI 99,6 aarpyxaMT b njiaBHJibHyro nenb Η προβοαητ anajinsnnaBKH. Πο npHMGpy, b cjiynae nonyneHnoro χημπηθοκογο aHannsa 0,18% Fe; 0,12% Si; 0,002% Cuj 0,001% Mg; 0,01% Mn; 0,01% Tí h 0,01% ZnH3J1OWEHHE CyPlECTBA H3OBPETEHHH B ocHOBe Η3θ6ρβτβΗΗ «it & KHT pemaeMaH τεχΗπηεεκβΗ 3aflana ηβγοτοβττητβ ajnoMH-HHeByiO φΟΠΒΓγ pflR 3JieKTpOJIHTHHeCKHX KOHfleHCaTOpOB, nOCpeflCTBOM κοτοροή H3 6e-raioT noBbuneHHH mbctkocth, npHBOjvJmeň κ ποΜβχβΜ ηβμοτοηημχ ηβτομ3τοβ, η οτρκ-uaTejibHoro bjihhhhh 3φφεκτΗΒΗοετΗ 3JieKTpojiHTa and Tara oCecnemreaioT ΗβτοτοΒ ^ IneHHe BbicoKomepoxoBaTOft xaTOflHOň bολβγη c bmcokoíí ynejibHoň eMKOCTb »nnomaflH1ΠΟ pa3JlHHHblM XHMHHeCKHM η / ηΠΗ 3JieKTpOXHMHHeCKHM MeTOflaM npHflaHHH fflepOXOBa“ TOCTH. COrJiaCHO H3O6peTeHHK) 3ΤΟΓΟ flOCTHraiOT ΤβΜ, Π ΠρΗΜεΗΗεΜΗΗ flJIH HSrOTOBJiHHHanioMHHHeBoň λολβγη ajiioMHHHn aarpyxaeTCfl τβκ, ητο Ráin sneMeHTOB Fe; Μη; Si; AI nÓJiyňáíoT cooTHonienne aTOMHbix προηβΗτοβ 1: 1: 1: 600 flo 1: 1: 1: 400, npeHMy-mecTBeHHo 1: 1: 1: 500 h .. HMeioTCH npoKaTaHHyto ΗβτοτοΒΟ KaTOflHyio 4> ojibry nOFL-BGprajoT TaKOň τερΜοοόρβδοτκε b 6ypHOň ra3oeoft βτΜοεφερε ρ 723, 743 ο Κ, τβκπ το Kaambiň sjigmght oSteMa pynoHa Φοπβγη cocTaejiHeT 6onee 673 Κ b τεηεΗΗε Ηεmghgg 30 MHHyT him Ηε 6οηεε 120 ΜΗΗγτ. ΠΡΗΜΕΡ OCyiTECTBJIEHHfl Η30ΕΡΕΤΕΗΗ3 Η3θ6ρετεΗηε ποηροβΗεε noncHneTca πο npHMepy ocymecTBJíeHHH κέοβρετβΗΗΗ. 1.6 t HHCTOro anioMHHHB AI 99.6 aarpyxaMT b njiaBHJibHyro nenb Η προβοαητ anajinsnnaBKH. Πο npHMGpy, b cjiynae nonyneHnoro χημπηθοκογο aHannsa 0.18% Fe; 0.12% Si; 0.002% Cu 2 0.001% Mg; 0.01% Mn; 0.01% Ti h 0.01% Zn

flo6aBJiaioT 38,6 kg jraraTypbi AlFe c coflepwaHHeM 10,2% Fe; 0,12% Si; 0",003% Cu; 0,01% Mn; 0,01% Mg; 0,01% Ti; 0,01% Zn h 41,0 kg jinraTypbi AlMn c coflepjKaHHeM 16,2% Mn; 0,13% Sí;;0,20% Fe; . 0,01% Mg; 0,005% Cu; 0,01% Ti; 0,01% Zn 251916 -3- η 11,7 kg jiHrarypti AISi c co«ep?KaHneM 12,4% Si; 0,20% Fe; 0,005% Cu; 0,01% Mg; 0,01% Mn; 0,01% Ti; 0,01% Zn.flo6aBJiaioT 38.6 kg jraraTypbi AlFe c coflepwaHHeM 10.2% Fe; 0.12% Si; 0 ", 003% Cu; 0.01% Mn; 0.01% Mg; 0.01% Ti; 0.01% Zn h 41.0 kg jinraTypbi AlMn c coflepjKaHHeM 16.2% Mn; ; 0.20% Fe; 0.01% Mg; 0.005% Cu; 0.01% Ti; 0.01% Zn 251916 -3- η 11.7 kg jiHrarypti AISi c co «ep? KaHneM 12.4 0.20% Fe, 0.005% Cu, 0.01% Mg, 0.01% Mn, 0.01% Ti, 0.01% Zn;

Ilocne pacnnaBneHHn nnraTyp η ηητθηοηβηογο. nepeMeninsaHHH MaTepnana b nnaBHJib-hoíí neMH pacnnae ocBOÓOMflaeTCfl ot okhchmx npHMecett h ra3á no HSBecTHbíM Μβτο-flaM H Η3Γ0Τ0ΒηΗβΤ0Η ΚβΤΒΗΒΗ 3βΓΟΤΟΒΚβ MeTOflOM HenpepblBHOň paSJIHBKH. 3areMH3BeCTHbIM CnOCOSOM npOHSBOflHTCH. ΓΟρΗΡβΗ ΠρΟΚβΤΚβ flO TOmUHHbl 8 mm H XOJIOflHaHπροκβ.τκβ po tojbuhhw, HanpHMep, 0,'5 mn. ·Ilocne pacnnaBneHHn nnraTyp η ηητθηοηβηογο. neeMeninsaHHH MaTepnana b nnaBHJib-hoíí neMH pacnnae ocBOÓOMflaeTCfl ot okhchmx npHMecett h ra3á no HSBecTHbíM Μβτο-flaM H Η3Γ0Τ0ΒηΗβΤ0Η ΚβΤΒΗΒΗβββ MeTOflOM HenpepblBHOn paSJIHBKH. 3areMH3BeCTHbIM CnOCOSOM npOHSBOflHTCH. ΓΟρΗΡβΗ ΠρΟΚβΤΚβ flO TOmUHHbl 8 mm H XOJIOflHaHπροκβ.τκβ after tojbuhhw, HanpHMep, 0, 5 mn. ·

Ilocne peKpHCTajuiH3aij(noHHoro οτμηγβ b TepeHHe 12 h npw TeMnepatype 773 KBHOBb xonoflHO προκβΤΜΒβκτΓ neHTy po TOJWtHbí 0,05 otut Ilocne paapeaaHHH ýojibrnHa pynOHH, HanpuMep; no unipnne 500 mra η no ΗΗβΜβτργ 350 mra pynonbi fíonxHbíCbiTb TepMHHecKH oCpadoraHU b OTWHraTenbHoft πθρη c pup Kyna pněli Boapyxa 2 Λ/snpH TeMtiepaType BO3pyxa 723 K b.TepeHHe 3 h. Ilocne oxnaxpxeHHM ΒΗβ οτμηγα-TenbHoň πθρη anJOMHHHeBan <|>onbra, HaroTOBneHnaa tskhm cnoco6oM, ncnonbsyeMaH mepoxyeMa b χημηρθοκομ 'η/ηηη 3ηβκτρόχΗΜΗΡβεκοΜ BaHHax pna τρβΒπβΗΗΗ xa~TOflHbIX $onbr. IIpeHMymecTBa H3roTOBneHHoíl cornacHO n3o6peTeHwo anwMHHneBoň Φορβγη cóctoht'b tom, pto oHá npHMeHHMa b anexTponHTHPecKHx KOHpeHcaTopax, 6ea HeoSxopHMOňnocne npopecca TpaBnemw TepMOo6pa6oTKn/oTJKnra pna KOHCTpyxTHBHbix papoB cΗΡΗΜβΗΒΠΙΗΜ ρΗβΜΘΤρΟΜ HaMOTKH,^ PTO ρΟΟΤΗΓββΜΒΙ XHMHPeCKHMH H SneKTpOXHMHPeC“KHMH ΜβΤΟρβΜΗ ΤρβΒΠβΗΗΒ ΒΜΟΟΚΗβ 3φφβΚΤΜ ΠΙβρΟΧΟΒβΗΗΗ ee B KHCnbK H HeftTpanb-hhk sneKTponHJrax h coxpáHneMa,pasHOMepnan βΦΦθκτμβηοοτβ οηβκτρΟηκτοΒ orcyr-οτΒΗβΜ oSoráneHHn XHMHPecKHk nerHpyromHX, aneMeHTOB pepes npoponXHTenbHóe.BpeMfl. ΦΟΡΜΥ-ΠΑ H3OSPETEHHH ' - 1. AraoMHHHeBan φοηπΓβ ρπη Η3ΓθτθΒπβΗΗΗ κβτορΗΟή φοηΒΐΉ, npepHasHapeHHoft pnasnexTponHTHPecKHX KOHpeHcaTopoB, cocToameň H3 anioMHHHH ρκοτοτοή 99,6% h ppy-rnx MeTannupecKHX npHMeceň, OTnHParomaaca τθμ, pto οηβΜβΗΤΜ Fe; Mn; Si; AIHaxopaTca b cooTHOmeHHH aTOMHbix npopeHTOB 1:1:1:600 no 1:1:1:400 h npopwenonyTHbie aneMeHTbi phctoto anioMHHHH - b ητομηομ npopeHTe ^0,1 η προκβτβΗ-jnym naroTOBO KaTopHyro iojibry nopBepraioT τβρΜθό6ρβ6οτκβ b 6ypHOň raaoBoň aT'Μοοφερβ 723 po 743 K. 2. AmoMHHneBaH φοηΒΓβ no nyHiery 1, OTnHPaKHuaaca τθμ, pto cooTHomeHHe aroM-Hbix npopeHTOB npeHMymecTBeHHO cocraBnaeT 1:1:1:500. 3. ΑηιοΜΗΗΗβΒβη φοηΒΓβ no nymcTaM 1 h 2, 0TnHPa»maacH τθμ, pto Kaxpwň ane-μθητ 06-beMa pynOHa φοηΒΓΗ cocTaBnaeT 673 K b TepeHHe He MeHee 30 MHHyT, ho He 6onee 120 MHHyT. .Ilocne peKpHCTajuiH3aij (b noHHoro οτμηγβ TepeHHe 12h NPW TeMnepatype 773 KBHOBb xonoflHO προκβΤΜΒβκτΓ nails after TOJWtHbí 0.05 otut Ilocne paapeaaHHH ýojibrnHa pynOHH, HanpuMep; unipnne 500 but no ΗΗβΜβτργ η MRA 350 MRA pynonbi fíonxHbíCbiTb TepMHHecKH oCpadoraHU b OTWHraTenbHoft πθρη c pup KYNA was stretched Boapyxa 2 Λ / snpH TeMtiepaType BO3pyxa b.TepeHHe 723 K for 3 h. Ilocne oxnaxpxeHHM ΒΗβ οτμηγα-TenbHoň πθρη anJOMHHHeBan <|> onbra, HaroTOBneHnaa tskhm cnoco6oM, ncnonbsyeMaH mepoxyeMa χημηρθοκομ b 'η / ηηη 3ηβκτρόχΗΜΗΡβεκοΜ BaHHax PNA τρβΒπβΗΗΗ xa ~ $ TOflHbIX onbr. IIpeHMymecTBa H3roTOBneHHoíl cornacHO n3o6peTeHwo anwMHHneBoň Φορβγη cóctoht'b that pto OHA npHMeHHMa b anexTponHTHPecKHx KOHpeHcaTopax, 6ea HeoSxopHMOňnocne npopecca TpaBnemw TepMOo6pa6oTKn / oTJKnra PNA KOHCTpyxTHBHbix papoB cΗΡΗΜβΗΒΠΙΗΜ ρΗβΜΘΤρΟΜ HaMOTKH, ^ PTO ρΟΟΤΗΓββΜΒΙ XHMHPeCKHMH H SneKTpOXHMHPeC "KHMH βΤΟρβΜΗ ΤρβΒΠβΗΗΒ ΒΜΟΟΚΗβ 3φφβΚΤΜ ΠΙβρΟΧΟΒβΗΗΗ ee KHCnbK B-H HeftTpanb hhk sneKTponHJrax h coxpáHneMa, pasHOMepnan βΦΦθκτμβηοοτβ οηβκτρΟηκτοΒ orcyr-οτΒΗβΜ oSoráneHHn XHMHPecKHk nerHpyromHX, aneMeHTOB Pepes npoponXHTenbHóe.BpeMfl. ΦΟΡΜΥ-ΠΑ H3OSPETEHHH '- first AraoMHHHeBan φοηπΓβ ρπη Η3ΓθτθΒπβΗΗΗ κβτορΗΟή φοηΒΐΉ, npepHasHapeHHoft pnasnexTponHTHPecKHX KOHpeHcaTopoB, cocToameň H3 anioMHHHH ρκοτοτοή 99.6% h-ppy RNX MeTannupecKHX npHMeceň, OTnHParomaaca τθμ, PTO οηβΜβΗΤΜ Fe; Mn; Si; AIHaxopaTca b cooTHOmeHHH aTOMHbix npopeHTOB 1: 1: 1: 600 No 1: 1: 1: 400 h npopwenonyTHbie aneMeHTbi phctoto anioMHHHH - b ≤ 0.1 ητομηομ npopeHTe η προκβτβΗ-jnym naroTOBO KaTopHyro iojibry nopBepraioT τβρΜθό6ρβ6οτκβ b 6ypHOň raaoBoň aT'Μοοφερβ 723 after 743 K. 2. AmoMHHneBaH φοηΒΓβ no nyHiery 1, OTnHPaKHuaaca τθμ, pto cooTHomeHHe aroM-Hbix npopeHTOB npeHMymecTBeHHO cocraBnaeT 1: 1: 1: 500. 3. h, »» ym ym τ h h h h h h h h h h h 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 .

AHHOTAUHH H3O0peTeHHe othochtch k mepoxyeMoft <|>onbre, npMMeHfteMOň κβκ KaTopHaa φοηΒ·*ra b aneKTponHTHPecKHx KOHpeHcaTopax. OHa ponxHa OTnHPaTbca yMeHbmeHHoň «ecTKOCTbio, H36emyTb OTpHpaTenbHoro βΠηη~ηηη 3φφβκτΗΒΗ0<2ΤΗ aneKTponHTa η o6ecnePHTb BbicoKyw ypenbHyio eMKOCTb nnomapHΠΟ pa3JIHPHbIM XHMHPeCKHM η/ηΡΗ ΘΠβΚΤρΟΧΗΜΗΡβΟΚΗΜ ΜβΤΟρβΜ mepOXOBaHHH. 3apa~ηηθ BbinonHHeTcfl τβΜ, pto anioMHHHii, HcnonbsyeMwň pna η3γοτοβηθηηη amoMHHHe-Boň φοηΒΓΗ, 3arpyacaeTCH Tax, pto pjir aneMeHTOB Fe} Mn; Si; AI npeHMymecT- 251916 -4- βθημο flocTurawT cooTHomeHiiH ητομηνχ προιχβΗτοΒ 1:1:1:500 Μ npoqae nonyTHbie3ΠΘΜ6ΗΤΜ WCTOrO flJIWMHHIlH HaXOflHTCH B βΤΟΜΗΟΜ ΠρΟίχβΗΤβ Š0,.l, ΠΡΗΊβΜ ΠρΟΚβ“τβΗΗβκ HaroTOBO κβτοηπβΗ φο.πι>Γβ noneepraeTCH τβρΜοόβρββοτκε b ČypHoň raso-soft βτΜοοφβρβ 723 ao 743 K. Kaawwft aneMeHT oCteMa pynoua Φοπβγη flojwHa coc-TaBHTb 673 K b TeneHHe ne MeHee 30 mmhyt, ho He Conee 120 μηηυτ. ΠρκΒΗβΗΟ κΒΟβρβτΒΗΗβΜ no peaynbTaTSM 3KcnepTH3u, ocymecTBneHHoft BenoMCTBOMno nenaM Η3ο6ρβτβΗκΛ η ' πβτβκτοΒ ΓΠΡ. 251916AHHOTAUHH H3O0peTeHHe othochtch to mepoxyeMoft <|> onbre, npMMeHfteMOn κβκ KaTopHaa φοηΒ · * ra b aneKTponHTHPecKHx KOHpeHcaTopax. OH and ponxHa OTnHPaTbca yMeHbmeHHoň «ecTKOCTbio, H36emyTb OTpHpaTenbHoro βΠηη ~ ηηη 3φφβκτΗΒΗ0 <2ΤΗ aneKTponHTa η o6ecnePHTb BbicoKyw ypenbHyio eMKOCTb nnomapHΠΟ pa3JIHPHbIM XHMHPeCKHM η / ηΡΗ ΘΠβΚΤρΟΧΗΜΗΡβΟΚΗΜ ΜβΤΟρβΜ mepOXOBaHHH. 3apa ~ ηηθ BbinonHHeTcfl τβΜ, pto anioMHHHii, HcnonbsyeMwn pna η3γοτοβηθηηη amoMHHHe-Boon φοηΒΓΗ, 3arpyacaeTCH Tax, pto pjir aneMeHTOB Fe} Mn; Si; AI 251916 npeHMymecT- -4- βθημο flocTurawT cooTHomeHiiH ητομηνχ προιχβΗτοΒ 1: 1: 1: 500 Μ npoqae nonyTHbie3ΠΘΜ6ΗΤΜ WCTOrO flJIWMHHIlH HaXOflHTCH B βΤΟΜΗΟΜ ΠρΟίχβΗΤβ S0 .l, ΠΡΗΊβΜ ΠρΟΚβ "τβΗΗβκ HaroTOBO κβτοηπβΗ φο.πι> Γβ noneepraeTCH τβρΜοόβρββοτκε b Cyphon raso- soft βτΜοοφβρβ 723 and 743 K. Kaawwft aneMeHT oCteMa pynee flojwHa coc-TaBHTb 673 K b TeneHHe no MeHee 30 mmhyt, it He Conee 120 μηηυτ. ΠρκΒΗβΗΟ κΒΟβρβτΒΗΗβΜ no peaynbTaTSM 3KcnepTH3u, ocymecTBneHHoft BenoMCTBOMno nenaM Η3ο6ρβτβΗκΛ η 'πβτβκτοΒ ΓΠΡ. 251916

Claims (3)

-5- PREDMET VYNÁLEZU 1· Hliníková fólie pro výrobu katodové fólie určené proelektrolytické kondensátory, sestávající .z hliníku očistotě 99,6 % hmot. a ostatních kovových příměsí, vyznačujícíse tím, že prvky Pe, Mn, Si, AI jsou v poměru atomových pro-cent od 1 i 1 : 1 : 600 do 1 s 1 s 400 a ostatní doprovodnéprvky v uvedeném hliníku jsou obsaženy v atomových % vmnožství^0,1, přičemž válcováním připravená katodaváfolie se podrobí tepelnému zpracování ve vířící plynovéatmosféře při teplotě 723 až 743 K.SUMMARY OF THE INVENTION 1. An aluminum foil for the production of a cathode foil intended for electrolytic condensers consisting of aluminum having a purity of 99.6% by weight. and other metal impurities, characterized in that the Pe, Mn, Si, Al elements are in the ratio of atomic percentages from 1: 1: 1: 600 to 1 s 1 s 400 and the other accompanying elements in said aluminum are contained in the atomic% amount. 0.1, wherein the cathodic phase prepared by rolling is subjected to a heat treatment in a swirling gas atmosphere at a temperature of 723 to 743 K. 2. Hliníková fólie podle bodu 1, vyznačující se tím, žepoměr vyjádřený v atom. % je s výhodou 1 ι 1 s 1 s 500·2. Aluminum foil according to claim 1, characterized in that the meter is expressed in an atom. % is preferably 1 ι 1 s 1 s 500 · 3, Hliníková fólie podle bodů 1 a 2, vyznačující se tím,ža každá část objemu svitku fólie je vystavena teplotě673 K po dobu nejméně 30 minut a nejvýěe 120 minut. 2519163. An aluminum foil according to claim 1, wherein each portion of the film roll volume is exposed to a temperature of 673 K for at least 30 minutes and at most 120 minutes. 251916
CS823569A 1981-06-30 1982-05-17 Aluminium foil CS251916B1 (en)

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EP0142460B1 (en) * 1983-08-25 1987-09-16 Schweizerische Aluminium Ag Process for producing thin aluminium strips and foils with a predominant dice structure
EP0362127B1 (en) * 1988-09-27 1993-10-06 Alusuisse-Lonza Services Ag Cathode foil for an electrolytic capacitor

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