EN 573-3:2003

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Aluminium and aluminium alloys - Chemical composition and form of wrought products - Part 3: Chemical compositionAluminium und Aluminiumlegierungen - Chemische Zusammensetzung und Form von Halbzeug - Teil 3: Chemische ZusammensetzungAluminium et alliages d'aluminium - Composition chimique et forme des produits corroyés - Partie 3: Composition chimiqueAluminium and aluminium alloys - Chemical composition and form of wrought products - Part 3: Chemical composition77.150.10Aluminijski izdelkiAluminium products77.040.30Kemijska analiza kovinChemical analysis of metalsICS:Ta slovenski standard je istoveten z:EN 573-3:2003SIST EN 573-3:2004en01-junij-2004SIST EN 573-3:2004SLOVENSKI
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SIST EN 573-3:2004



EUROPEAN STANDARDNORME EUROPÉENNEEUROPÄISCHE NORMEN 573-3July 2003ICS 77.120.10; 77.150.10Supersedes EN 573-3:1994English versionAluminium and aluminium alloys - Chemical composition andform of wrought products - Part 3: Chemical compositionAluminium et alliages d'aluminium - Composition chimiqueet forme des produits corroyés - Partie 3: CompositionchimiqueAluminium und Aluminiumlegierungen - ChemischeZusammensetzung und Form von Halbzeug - Teil 3:Chemische ZusammensetzungThis European Standard was approved by CEN on 23 May 2003.CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this EuropeanStandard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such nationalstandards may be obtained on application to the Management Centre or to any CEN member.This European Standard exists in three official versions (English, French, German). A version in any other language made by translationunder the responsibility of a CEN member into its own language and notified to the Management Centre has the same status as the officialversions.CEN members are the national standards bodies of Austria, Belgium, Czech Republic, Denmark, Finland, France, Germany, Greece,Hungary, Iceland, Ireland, Italy, Luxembourg, Malta, Netherlands, Norway, Portugal, Slovakia, Spain, Sweden, Switzerland and UnitedKingdom.EUROPEAN COMMITTEE FOR STANDARDIZATIONCOMITÉ EUROPÉEN DE NORMALISATIONEUROPÄISCHES KOMITEE FÜR NORMUNGManagement Centre: rue de Stassart, 36
B-1050 Brussels© 2003 CENAll rights of exploitation in any form and by any means reservedworldwide for CEN national Members.Ref. No. EN 573-3:2003 ESIST EN 573-3:2004



EN 573-3:2003 (E)2ContentsPageForeword.31Scope.52Normative references.53Chemical composition limits.54Writing rules.65Alloy designations.66Sequence of elements.67Rounding rules for determination of compliance.78Footnotes to Tables 1 to 8.7Annex A (normative)
Guidelines for the registration of new wrought aluminium and aluminium alloysin CEN/TC 132 standards and for the elimination of existing alloys from these standards.17A.1General principles.17A.2Rules for registration of new alloys.17A.3Procedure for registration of new alloys.18A.4Modification of the rating of an alloy from “Class A” to “Class B”.18A.5Deletion of alloys from EN 573-3 and EN 573-4.18Bibliography.19SIST EN 573-3:2004



EN 573-3:2003 (E)3ForewordThis document (EN 573-3:2003) has been prepared by Technical Committee CEN/TC 132 “Aluminium andaluminium alloys”, the secretariat of which is held by AFNOR.This European Standard shall be given the status of a national standard, either by publication of an identical text orby endorsement, at the latest by January 2004, and conflicting national standards shall be withdrawn at the latestby January 2004.Within its programme of work, Technical Committee CEN/TC 132 has been entrusted to prepare the followingstandard:EN 573-3, Aluminium and aluminium alloys – Chemical composition and form of wrought products –Part 3: Chemical composition.This standard is part of a set of five standards. The other standards deal with:EN 573-1, Aluminium and aluminium alloys – Chemical composition and form of wrought products –Part 1: Numerical designation system.EN 573-2, Aluminium and aluminium alloys – Chemical composition and form of wrought products –Part 2: Chemical symbol based designation system.EN 573-4, Aluminium and aluminium alloys – Chemical composition and form of wrought products – Part 4: Formsof products.prEN 573-5, Aluminium and aluminium alloys – Chemical composition and form of wrought products –Part 5: Codification of standardized wrought products.Annex A is normative.This document includes a Bibliography.This document supersedes EN 573-3:1994.CEN/TC 132 has decided to revise this standard every two years if necessary.The following technical modifications have been introduced during the revision: clause 1: note modified; clause 6: titanium appears now after zinc; gallium and vanadium added; clause 8 added: notes for Tables 1 to 8; Tables 1 to 8: the column “Ti” appears now after the columns “Zn”; Table 3: alloys EN AW-3005A and EN AW-3105B added;Table 4: alloy EN AW-4014 deleted; alloys EN AW-4016, EN AW-4017 and EN AW-4018 added; Table 5: alloys EN AW-5119A, EN AW-5449, EN AW-5654A, EN AW-5356A, EN AW-5456B, EN AW-5556B,EN AW-5183A, EN AW-5383, EN AW-5186 and EN AW-5187 added;SIST EN 573-3:2004



EN 573-3:2003 (E)4 Table 6: alloys EN AW-6008 and EN AW-6016 added; Table 8: alloys EN AW-8021B and EN AW-8015 added; annex A added: Guidelines for the registration of new wrought aluminium and aluminium alloys in CEN/TC 132standards and for the elimination of existing alloys from these standards.According to the CEN/CENELEC Internal Regulations, the national standards organizations of the followingcountries are bound to implement this European Standard: Austria, Belgium, Czech Republic, Denmark, Finland,France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Luxembourg, Malta, Netherlands, Norway, Portugal,Slovakia, Spain, Sweden, Switzerland and the United Kingdom.SIST EN 573-3:2004



EN 573-3:2003 (E)51 ScopeThis European Standard specifies the chemical composition limits of wrought aluminium and aluminium alloys.The chemical composition limits of aluminium and aluminium alloys specified herein are completely identical withthose registered with the Aluminum Association, Washington D.C. 20006, USA, for the corresponding alloys.NOTESome of the products listed in the present standard can be subject to patent or patent applications, and their listingherein should not be construed in any way as the granting of a licence under such patent rights.CEN/TC 132 affirms it is its policy that in the case when a patentee refuses to grant licences on a standardised product underreasonable and not discriminatory conditions, then this product shall be excluded from the corresponding standard.2 Normative referencesThis European Standard incorporates by dated or undated reference, provisions from other publications. Thesenormative references are cited at the appropriate places in the text, and the publications are listed hereafter. Fordated references, subsequent amendments to or revisions of any of these publications apply to this EuropeanStandard only when incorporated in it by amendment or revision. For undated references the latest edition of thepublication referred to applies (including amendements).EN 573-1, Aluminium and aluminium alloys – Chemical composition and form of wrought products –Part 1: Numerical designation system.EN 573-2, Aluminium and aluminium alloys – Chemical composition and form of wrought products –Part 2: Chemical symbol based designation system.EN 573-4:1994, Aluminium and aluminium alloys – Chemical composition and form of wrought products – Part 4:Forms of products.3 Chemical composition limitsThe chemical composition of aluminium and aluminium alloys is specified in percentage by mass in Tables 1 to 8.Limits are expressed as a maximum unless shown as a range or a minimum.Aluminium is specified as a minimum for unalloyed aluminium, and as a remainder for aluminium alloys.Except for “aluminium” and “others”, analysis is normally made for elements for which specific limits are shown.Tables 1 to 8 shall be updated made according to the procedure specified in annex A.SIST EN 573-3:2004



EN 573-3:2003 (E)64 Writing rules4.1Standard limits for alloying elements and impurities are expressed in percentage by mass to the followingdecimal places: less than 0,001 %.0,000X; 0,001 % but less than 0,01 %.0,00X; 0,01 % but less than 0,10 %: unalloyed aluminium made by a refining process.0,0XX; others.0,0X; 0,10 % to 0,55 %.0,XX; over 0,55 %.0,X; X,X; XX, X.Exception: combined Fe + Si limits for 1xxx designations shall be expressed as 0,XX or 1,XX.4.2The aluminium content for unalloyed aluminium made by a refining process is the difference between100,00 % and the sum of all other metallic elements present in amounts of 0,0010 % or more each, expressed tothe third decimal place before determining the sum, which is rounded to the second decimal place beforesubtracting.For unalloyed aluminium not made by a refining process, the aluminium content is the difference between100,00 % and the sum of all other metallic elements present in amounts of 0,010 % or more each expressed to thesecond decimal place before determining the sum.5 Alloy designationsThe four-figure numerical and the alternative chemical symbol based alloy designation systems are specifiedrespectively in EN 573-1 and EN 573-2.Both the four figure and the chemical symbol based designations are indicated in Tables 1 to 8.The International four figure system is the preferred one. The chemical symbol based designations are indicated forreference only.6 Sequence of elementsStandard limits for alloying elements and impurities are expressed in the following sequence: silicon, iron, copper,manganese, magnesium, chromium, nickel, zinc, titanium, gallium, vanadium, etc., other elements each, otherelements total, aluminium.Additional specified elements having limits are inserted in alphabetical order of their chemical symbols betweenzinc and titanium, or are specified in footnotes in Tables 1 to 8 and listed in clause 8.SIST EN 573-3:2004



EN 573-3:2003 (E)77 Rounding rules for determination of complianceIn recording chemical analysis test results, the number representing the result for any element specified in thisstandard shall be expressed to the same number of decimal places as the corresponding number in this standard.For unalloyed aluminium, the aluminium content is derived as described in 4.2.The following rounding rules shall be used for determination of compliance with this standard:a) when the figure immediately after the last figure to be retained is less than 5, the last figure to be retainedremains unchanged;b) when the figure immediately after the last figure to be retained is greater than 5, or equal to 5 and followed byat least one figure other than zero, the last figure to be retained is increased by one;c) when the figure immediately after the last figure to be retained is equal to 5 and followed by zeros only, the lastfigure to be retained remains unchanged if even and is increased by one if odd.8 Footnotes to Tables 1 to 81The sum of those “Others” metallic elements 0,010 % or more each, expressed to the second decimal place before determining the sum.2The aluminium content for unalloyed aluminium not made by a refining process is the difference between 100,00 % and the sum of all othermetallic elements present in amounts of 0,010 % or more each, expressed to the second decimal place before determining the sum.3The aluminium content for unalloyed aluminium made by a refining process is the difference between 100,00 % and the sum of all othermetallic elements present in amounts of 0,0010 % or more each, expressed to the third decimal before determining the sum, which is roundedto the second decimal place before subtracting.40,0003 max. Be for welding electrode and filler wire only.50,20-0,6 Bi; 0,20-0,6 Pb.6Zr+Ti limit of 0,20 maximum may be used for extruded and forged products if mutually agreed by supplier or manufacturer and purchaser.70,40-0,7 Bi; 0,40-0,7 Pb.8Zr+Ti limit of 0,25 maximum may be used for extruded and forged products if mutually agreed by supplier or manufacturer and purchaser.90,08-0,20 Zr; 0,08-0,25 Zr+Ti.100,25-0,40 Ag.110,20 Bi; 0,8-1,5 Pb; 0,20 Sn.122,2-2,7 Li.131,7-2,3 Li.14Includes listed elements for which no specific limit is shown.150,003 max. Pb.160,40-0,7 Bi; 0,40-1,2 Pb.170,20 max. Zr+Ti.180,0005 % max Be for welding electrode, welding rod and filler wire.NOTENumbers have been used to indicate footnotes in this table, in order to remain consistent with the system used inthe Aluminum Association "Teal Sheets" [1].SIST EN 573-3:2004



EN 573-3:2003 (E)8Table 1 — Aluminium – 1000 seriesAlloy designationSiFeCuMnMgCrNiZnTiGaVRemarksOthers 14AluminiumNumericalChemical symbolsEachTotal 1min.EN AW-1199EN AW-Al 99,990,0060,0060,0060,0020,006--0,0060,0020,0050,005-0,002-99,99 3EN AW-1098EN AW-Al 99,980,0100,0060,003----0,0150,003---0,003-99,98 3EN AW-1198EN AW-Al 99,98(A)0,0100,0060,0060,006---0,0100,0060,006--0,003-99,98 3EN AW-1090EN AW-Al 99,900,070,070,020,010,01--0,030,010,030,05-0,01-99,90 2EN AW-1085EN AW-Al 99,850,100,120,030,020,02--0,030,020,030,05-0,01-99,85 2EN AW-1080AEN AW-Al 99,8(A)0,150,150,030,020,02--0,060,020,03--0,02-99,80 2EN AW-1070AEN AW-Al 99,70,200,250,030,030,03--0,070,03---0,03-99,70 2EN AW-1370EN AW-EAl 99,70,100,250,020,010,020,01-0,04-0,03-0,02 B; 0,02 V + Ti0,020,1099,70 2EN AW-1060EN AW-Al 99,60,250,350,050,030,03--0,050,03-0,05-0,03-99,60 2EN AW-1050AEN AW-Al 99,50,250,400,050,050,05--0,070,05---0,03-99,50 2EN AW-1350EN AW-EAl 99,50,100,400,050,01-0,01-0,05-0,03-0,05 B; 0,02 V + Ti0,030,1099,50 2EN AW-1350AEN AW-EAl 99,5(A)0,250,400,02-0,05--0,05---0,03 Cr + Mn + Ti + V0,03-99,50 2EN AW-1450EN AW-Al 99,5Ti0,250,400,050,050,05--0,070,10-0,20---0,03-99,50 2EN AW-1235EN AW-Al 99,350,65 Si + Fe0,050,050,05--0,100,06-0,05-0,03-99,35 2EN AW-1200EN AW-Al 99,01,00 Si + Fe0,050,05---0,100,05---0,050,1599,00 2EN AW-1200AEN AW-Al 99,0(A)1,00 Si + Fe0,100,300,300,10-0,10----0,050,1599,00 2EN AW-1100EN AW-Al 99,0Cu0,95 Si + Fe0,05-0,200,05---0,10---40,050,1599,00 2SIST EN 573-3:2004



EN 573-3:2003 (E)9Table 2 — Aluminium alloys- 2000 series- Al CuAlloy designationSiFeCuMnMgCrNiZnTiGaVRemarksOthers 14AluminiumNumericalChemical symbolsEachTotal 1min.EN AW-2001EN AW-Al Cu5.5MgMn0,200,205,2-6,00,15-0,500,20-0,450,100,050,100,20--0,05 Zr 150,050,15RemainderEN AW-2007EN AW-Al Cu4PbMgMn0,80,83,3-4,60,50-1,00,40-1,80,100,200,80,20--110,100,30RemainderEN AW-2011EN AW-Al Cu6BiPb0,400,75,0-6,0----0,30---50,050,15RemainderEN AW-2011AEN AW-Al Cu6BiPb(A)0,400,504,5-6,0----0,30---50,050,15RemainderEN AW-2014EN AW-Al Cu4SiMg0,50-1,20,73,9-5,00,40-1,20,20-0,80,10-0,250,15--60,050,15RemainderEN AW-2014AEN AW-Al Cu4SiMg(A)0,50-0,90,503,9-5,00,40-1,20,20-0,80,100,100,250,15--0,20 Zr+Ti0,050,15RemainderEN AW-2214EN AW-Al Cu4SiMg(B)0,50-1,20,303,9-5,00,40-1,20,20-0,80,10-0,250,15--60,050,15RemainderEN AW-2017AEN AW-Al Cu4MgSi(A)0,20-0,80,73,5-4,50,40-1,00,40-1,00,10-0,25---0,25 Zr+Ti0,050,15RemainderEN AW-2117EN AW-Al Cu2,5Mg0,80,72,2-3,00,200,20-0,500,10-0,25----0,050,15RemainderEN AW-2618AEN AW-Al Cu2Mg1,5Ni0,15-0,250,9-1,41,8-2,70,251,2-1,8-0,8-1,40,150,20--0,25 Zr+Ti0,050,15RemainderEN AW-2219EN AW-Al Cu6Mn0,200,305,8-6,80,20-0,400,02--0,100,02-0,10-0,05-0,150,10-0,25 Zr0,050,15RemainderEN AW 2319EN AW-Al Cu6Mn(A)0,200,305,8-6,80,20-0,400,02--0,100,10-0,20-0,05-0,150,10-0,25 Zr 40,050,15RemainderEN AW-2024EN AW-Al Cu4Mg10,500,503,8-4,90,30-0,91,2-1,80,10-0,250,15--60,050,15RemainderEN AW-2124EN AW-Al Cu4Mg1(A)0,200,303,8-4,90,30-0,91,2-1,80,10-0,250,15--60,050,15RemainderEN AW-2030EN AW-Al Cu4PbMg0,80,73,3-4,50,20-1,00,50-1,30,10-0,500,20--0,20 Bi; 0,8-1,5 Pb0,100,30RemainderEN AW-2031EN AW-Al Cu2,5NiMg0,50-1,30,6-1,21,8-2,80,500,6-1,2-0,6-1,40,200,20---0,050,15RemainderEN AW-2091EN AW-Al Cu2Li2Mg1,50,200,301,8-2,50,101,1-1,90,10-0,250,10--0,04-0,16 Zr 130,050,15RemainderSIST EN 573-3:2004



EN 573-3:2003 (E)10Table 3 — Aluminium alloys- 3000 series- Al MnAlloy designationSiFeCuMnMgCrNiZnTiGaVRemarksOthers 14AluminiumNumericalChemical SymbolsEachTotal 1min.EN AW-3002EN AW-Al Mn0,2Mg0,10,080,100,150,05-0,250,05-0,20--0,050,03-0,05-0,030,10RemainderEN AW-3102EN AW-Al Mn0,20,400,70,100,05-0,40---0,300,10---0,050,15RemainderEN AW-3003EN AW-Al Mn1Cu0,60,70,05-0,201,0-1,5---0,10----0,050,15RemainderEN AW-3103EN AW-Al Mn10,500,70,100,9-1,50,300,10-0,20---0,10 Zr+Ti0,050,15RemainderEN AW-3103AEN AW-Al Mn1(A)0,500,70,100,7-1,40,300,10-0,200,10--0,10 Zr+Ti0,050,15RemainderEN AW-3004EN AW-Al Mn1Mg10,300,70,251,0-1,50,8-1,3--0,25----0,050,15RemainderEN AW-3104EN AW-Al Mn1Mg1Cu0,60,80,05-0,250,8-1,40,8-1,3--0,250,100,050,05-0,050,15RemainderEN AW-3005EN AW-Al Mn1Mg0,50,60,70,301,0-1,50,20-0,60,10-0,250,10---0,050,15RemainderEN AW-3005AEN AW-Al Mn1Mg0,5(A)0,70,80,301,0-1,50,20-0,60,10-0,400,10---0,050,15RemainderEN AW-3105EN AW-Al Mn0,5Mg0,50,60,70,300,30-0,80,20-0,80,20-0,400,10---0,050,15RemainderEN AW-3105AEN AW-Al Mn0,5Mg0,5 (A)0,60,70,300,30-0,80,20-0,80,20-0,250,10---0,050,15RemainderEN AW-3105BEN AW-Al Mn0,6Mg0,50,70,90,300,30-0,90,20-0,80,20-0,500,10--0,10 Pb0,050,15RemainderEN AW-3207EN AW-Al Mn0,60,300,450,100,40-0,80,10--0,10----0,050,10RemainderEN AW-3207AEN AW-Al Mn0,6(A)0,35
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