欧标材质标准(EN12164)化学成份

EN12165-1998 CH中文版欧洲标准 EN12165-1998 CH铜及铜合金化学成分及未加工锻坯BS EN 12165:19981 范围此欧洲标准规定了直管圆形铜棒及铜合金的成分要求、特性要求及尺寸公差，尤其用于铸造中的。

该标准同样也适用于规则多变形的铜棒，空心棒、矩形棒及用于锻造的剖面。

样品程序，即查证是否符合本标准要求的测试方法，且规定了交货条件。

This European Standard specifies the composition,property requirements and dimensionaltolerances for copper and copper alloy round rod supplied instraight lengths, specifically intended for forging. This standard is also applicable to regular polygonal rod, hollow rod, rectangular bar and profiles intended for forging. The sampling procedures, the methods of testfor verification of conformity to the requirements of this standard, and the delivery conditions are also specified.2 参考标准(略)EN 1655, Copper and copper alloys, Declarations of conformity.prEN 1976, Copper and copper alloys,Cast unwrought copper products.EN 10003-1, Metallic materials,Brinell hardness test, Part 1: Test method.EN 10204, Metallic products, Types of inspection documents.EN ISO 6509:1995, Corrosion of metals and alloys,Determination of dezincification resistance of brass.(ISO 6509:1981)ISO 1811-2, Copper and copper alloys, Selection and preparation of samples for chemical analysis,Part 2: Sampling of wrought products and castings. ISO 6507-1, Metallic materials, Hardness test,Vickers test, Part 1: HV 5 to HV 100. NOTE Informative references to documents used in the preparation of this standard, and cited at the appropriate places in the text, are listed in a bibliography; see annex A. 3 定义因标准需要，提供下述定义:For the purposes of this standard, the following definitions apply:3.1 锻造金属坯料经锤打或挤压产生变形而获得锻件，包括平面之间的锤打。

各国铜牌号及标准对照表各国铜牌号及标准对照表铜合⾦牌号对照表⼀、铅黄铜牌号对照表⼆、普通黄铜牌号对照表三、紫铜牌号对照表常⽤铜合⾦牌号化学成分--中国牌号⼀、铅黄铜系列⼆、普通黄铜系列三、紫铜系列⼀、铅黄铜系列⼆、普通黄铜系列三、紫铜系列⼀、铅黄铜系列⼆、普通黄铜系列三、紫铜系列⼀、铅黄铜系列⼆、普通黄铜系列三、紫铜系列⼀、铅黄铜系列⼆、普通黄铜系列三、紫铜系列⼀、铅黄铜系列⼆、普通黄铜系列三、紫铜系列英国标准化学成分对照表标准号：BSG017-1981欧标材质标准（EN12164）化学成份成份牌号Cu铜Al铝Fe铁Ni镍Pb铅Sn锡 Zn锌其他密度（g/㎝3）CuZn21Si3P (CW724R) 76 ≤0.09 其余CuZn40 (CW509L) 60.5 ≤0.2 其余CuZn42 (CW510L) 58 ≤0.2 其余CuZn38As (CW511L) 62.5 ≤0.2 其余CuZn36Pb3 (CW603N) 60-62 ＜0.05 ＜0.3 ＜0.3 2.5-3.5 ＜0.2 其余0.2 8.5 CuZn38Pb4 (CW609N) 57-59 ＜0.05 ＜0.3 ＜0.3 3.5-4.2 ＜0.3 其余0.2 8.4 CuZn39Pb3 (CW614N) 57-59 ＜0.05 ＜0.3 ＜0.3 2.5-3.5 ＜0.3 其余0.2 8.4 CuZn40Pb2 (CW617N) 57-59 ＜0.05 ＜0.3 ＜0.3 1.6-2.5 ＜0.3 其余0.2 8.4 CuZn37Pb2 (CW606N) 61-62 ＜0.05 ＜0.2 ＜0.3 1.6-2.5 ＜0.2 其余0.2 8.4 CuZn38Pb2 (CW608N) 60-61 ＜0.05 ＜0.2 ＜0.3 1.6-2.5 ＜0.2 其余0.2 8.4 CuZn39Pb2 (CW612N) 59-60 ＜0.05 ＜0.3＜0.3 1.6-2.5 ＜0.3 其余0.2 8.4 CuZn35Pb1 (CW600N) 62.5-64 ＜0.05 ＜0.1 ＜0.3 0.9-1.6 ＜0.1 其余＜0.1 8.5 CuZn35Pb2 (CW601N) 62-63.5 ＜0.05 ＜0.1 ＜0.3 1.6-2.5 ＜0.1 其余＜0.1 8.5 CuZn38Pb1 (CW607N) 60-61 ＜0.05 ＜0.2 ＜0.3 0.8-1.8＜0.2 其余＜0.2 8.4 CuZn39Pb0.5(CW610N) 59-60.5 ＜0.05 ＜0.2 ＜0.3 0.2-0.8 ＜0.2 其余＜0.2 8.4 CuZn39Pb1 (CW611N) 59-60 ＜0.05 ＜0.2 ＜0.3 0.8-1.6 ＜0.2 其余＜0.2 8.4 CuZn36Pb2As(CW602N) 61-63 ＜0.05 ＜0.1 ＜0.3 1.7-2.8 ＜0.1 其余＜0.2 8.4注：CuZn36Pb2As(CW602N) As砷含量：0.02-0.05；Mn含量<0.1。

ICS 77.150.30Kupfer und Kupferlegierungen – Stangen für die spanendeBearbeitung (enthält Änderung A1:2000)European Standard EN 12164:1998 + Amendment A1:2000 has the status of a DIN Standard.A comma is used as the decimal marker.National forewordThis standard has been prepared by CEN/TC 133.The responsible German body involved in its preparation was the Normen ausschuss Nichteisen metalle (Nonferrous Metals Standards Committee), Technical Committee Stangen, Drähte und Profile .AmendmentsThis standard differs from the April 1998 edition in that it has been editorially revised and alloys CuZn39Pb2Sn and CuZn40Pb2 have been dropped.Previous editions DIN 1714: 1936-02; DIN 1756: 1925-07, 1933-12, 1943-03, 1963-07, 1969-07;DIN 1758: 1925-07, 1933-12, 1941-09; DIN 1761: 1925-07, 1939-12, 1963-07, 1969-07;DIN 1763: 1925-07, 1941-09, 1963-07, 1969-07; DIN 1767: 1925-07, 1954-06; DIN 1773: 1927-07;DIN 1776: 1929-12, 1936-01, 1939-01, 1941-07; DIN 1782: 1929-12, 1935-01, 1963-07, 1969-07;DIN 17672-1: 1957-04, 1961-08, 1969-02, 1974-06, 1983-12; DIN 17672-2: 1961-08, 1969-06, 1974-06;DIN EN 12164: 1998-04.Ref.No.DIN EN 12164:2000-09English price group 15Sales No.111502.01DEUTSCHE NORM September 2000EN 12164{Continued on pages 2 and 3.EN comprises 35 pages.©No part of this standard may be reproduced without the prior permission ofDIN Deutsches Institut für Normung e.V., Berlin. Beuth Verlag GmbH , 10772 Berlin, Germany,has the exclusive right of sale for German Standards (DIN-Normen).Copper and copper alloys – Rod for freemachining purposes(includes Amendment A1:2000)English version of DIN EN 12164:1998 + A1:2000Supersedes April 1998 edition.Page2DIN EN12164:2000-09*)December 1983 edition, withdrawn in April 1998.Page3 DIN EN12164:2000-09English versionICS 77.150.30Central Secretariat: rue de Stassart 36, B-1050 BrusselsEuropean Committee for StandardizationComité Européen de NormalisationEuropäisches Komitee für NormungCopper and copper alloys – Rod for free machining purposes(includes Amendment A1:2000)©2000.CEN –All rights of exploitation in any form and by any meansreserved worldwide for CEN national members.Ref. No. EN 12164:1998 + A1:2000 ECuivre et alliages de cuivre – Barrespour décolletage (amendementA1:2000 inclus)Kupfer und Kupferlegierungen –Stangen für die spanende Bearbei-tung (enthält Änderung A1:2000)This European Standard was approved by CEN on 1997-12-26 and AmendmentA1 on 2000-04-22.CEN members are bound to comply with the CEN/CENELEC Internal Regulationswhich stipulate the conditions for giving this European Standard the status of anational standard without any alteration.Up-to-date lists and bibliographical references concerning such national stand-ards may be obtained on application to the Central Secretariat or to any CENmember.The European Standards exist in three official versions (English, French, German).A version in any other language made by translation under the responsibility of aCEN member into its own language and notified to the Central Secretariat has thesame status as the official versions.CEN members are the national standards bodies of Austria, Belgium, the CzechRepublic, Denmark, Finland, France, Germany, Greece, Iceland, Ireland, Italy,Luxembourg, the Netherlands, Norway, Portugal, Spain, Sweden, Switzerland,and the United Kingdom.ÈÉËEN 12164May 2000January 1998+ A1Page2EN12164:1998 + A1:2000Foreword to EN12164:1998This European Standard has been prepared by Technical Committee CEN/TC 133 ‘Copper and copper alloys’, the Secretariat of which is held by DIN.Within its programme of work, Technical Committee CEN/TC 133 requested CEN/TC 133/WG 4 ‘Rod/bar, wire, profiles’ to prepare the following standard:EN12164Copper and copper alloys – Rod for free machining purposesThis is one of a series of European Standards for copper and copper alloy products in rod, wire and profile form. Other products are specified as follows:EN12163Copper and copper alloys – Rod for general purposesEN12165Copper and copper alloys – Wrought and unwrought forging stockEN12166Copper and copper alloys – Wire for general purposesEN12167Copper and copper alloys – Profiles and rectangular bar for general purposesEN12168Copper and copper alloys – Hollow rod for free machining purposesThis European Standard shall be given the status of a national standard, either by publication of an identical text or by endorsement, and conflicting national standards withdrawn, by July 1998 at the latest.In accordance with the CEN/CENELEC Internal Regulations, the national standards organizations of the follow-ing countries are bound to implement this European Standard:Austria, Belgium, the Czech Republic, Denmark, Finland, France, Germany, Greece, Iceland, Ireland, Italy, Luxembourg, the Netherlands, Norway, Portugal, Spain, Sweden, Switzerland, and the United Kingdom. Foreword to EN12164:1998/A1:2000This amendment to EN12164:1998 has been prepared by Technical Committee CEN/TC 133 ‘Copper and copper alloys’, the Secretariat of which is held by DIN.This amendment shall be given the status of a national standard, either by publication of an identical text or by endorsement, and conflicting national standards withdrawn, by November 2000 at the latest.In accordance with the CEN/CENELEC Internal Regulations, the national standards organizations of the follow-ing countries are bound to implement this European Standard:Austria, Belgium, the Czech Republic, Denmark, Finland, France, Germany, Greece, Iceland, Ireland, Italy, Luxembourg, the Netherlands, Norway, Portugal, Spain, Sweden, Switzerland, and the United Kingdom.Page3EN12164:1998 + A1:2000Foreword to EN12164:19982 Foreword to EN12164:1998/A1:20002 Introduction5Page4EN12164:1998 + A1:2000Page5EN12164:1998 + A1:2000Requirements were previously included in this standard for two alloys, namely CuZn39Pb2Sn(CW613N) and CuZn40Pb2Sn (CW619N), which because of their higher permitted levels of tin,iron and aluminium, had inferior machinability to CuZn39Pb2 (CW612N) and CuZn40Pb2(CW617N) respectively. In view of this, CEN/TC133 decided to withdraw these alloys from the standard but allowed sufficient time for their phasing out from production. These alloys,CuZn39Pb2Sn (CW613N) and CuZn40Pb2Sn (CW619N), were deleted from the standard on1January 2000.Page6EN12164:1998 + A1:2000Page7 EN12164:1998 + A1:2000。

Tableau 6 — Composition des alliages de cuivre-zinc-plombDésignation du matériauComposition% (teneur en masse)Massevolumique a)g/cm3Symbole NuméroÉlément Cu Al As Fe Mn Ni Pb Sn ZnTotalautresapprox.Alliages du Groupe A — Ces alliages présentent une usinabilité excellente mais une capacité très limitée à être travaillés à froid.CuZn36Pb3CW603N min.60,0—————2,5—Reste—8,5 max.62,00,05—0,3—0,33,50,2—0,2CuZn39Pb3CW614N min.57,0—————2,5—Reste—8,4 max.59,00,05—0,3—0,33,50,3—0,2CuZn40Pb2CW617Nmin.57,0—————1,6—Reste—8,4 max.59,00,05—0,3—0,32,50,3—0,2Alliages du Groupe B — Ces alliages présentent une bonne usinabilité et une certaine aptitude à être travaillés à froid.CuZn37Pb2CW606N min.61,0—————1,6—Reste—8,4 max.62,00,05—0,2—0,32,50,2—0,2CuZn38Pb2CW608N min.60,0—————1,6—Reste—8,4 max.61,00,05—0,2—0,32,50,2—0,2CuZn39Pb2CW612N min.59,0—————1,6—Reste—8,4 max.60,00,05—0,3—0,32,50,3—0,2Alliages du Groupe C — Ces alliages sont usinables et présentent une bonne à très bonne aptitude à être travaillés à froid.CuZn35Pb1CW600N min.62,5—————0,8—Reste—8,5 max.64,00,05—0,1—0,31,60,1—0,1CuZn35Pb2CW601N min.62,0—————1,6—Reste—8,5 max.63,50,05—0,1—0,32,50,1—0,1CuZn38Pb1CW607N min.60,0—————0,8—Reste—8,4 max.61,00,05—0,2—0,31,60,2—0,2CuZn39Pb0,5CW610N min.59,0—————0,2—Reste—8,4 max.60,50,05—0,2—0,30,80,2—0,2CuZn39Pb1CW611N min.59,0—————0,8—Reste—8,4 max.60,00,05—0,2—0,31,60,2—0,2Alliage du Groupe D — Cet alliage est résistant à la dézincification et présente une bonne usinabilité et une certaine aptitude à être travaillé à froid.CuZn36Pb2As CW602N min.61,0—0,02———1,7—Reste—8,4 max.63,00,050,150,10,10,32,80,1—0,2a)Pour information seulement.Afnor, Normes en ligne pour: DE DIETRICH THERMIQUE le 13/08/2012 à 10:32 NF EN 12164:2011-08EN 12164:2011 (F)17Tableau 12 — Propriétés mécaniques des barres en alliage cuivre-zinc-plombDésignations Diamètre Dimension sur plats Résistanceà la tractionLimiteconventionnelled'élasticitéà 0,2 %Allongement a)DuretéMatériau mm mmR mN/mm2(MPa)R p 0,2N/mm2(MPa)A100 mm%A11,3%A%HBSymbole NuméroÉtatmétallurgiquedeau-dessusdejusqu’àet y comprisdeau-dessusdejusqu’àet y comprismin.min.max.min.min.min.min.max.CuZn36Pb2As CW602NM Tous Tous Brut de fabricationR2806—805—60280—200—2530——H0706—805—60——————70110 R3206—605—50320200——1520——H0906—605—50——————90135 R4004—154—13400250——58——H1054—154—13——————105—CuZn35Pb1 CuZn35Pb2 CuZn36Pb3 CuZn37Pb2CW600NCW601NCW603NCW606NM Tous Tous Brut de fabricationR34010—8010—60340—280——20——H07010—8010—60——————70120 R4002—252—20400200—4812——H1002—252—20——————100140 R4802—142—10480350—358——H1252—142—10——————125—CuZn38Pb1 CuZn38Pb2 CuZn39Pb0,5 CuZn39Pb1 CuZn39Pb2CW607NCW608NCW610NCW611NCW612NM Tous Tous Brut de fabricationR3606—805—60360—300—1520——H0706—805—60——————70100 R4102—402—35410230—81012——H1002—402—35——————100145 R5002—142—10500350—358——H1202—142—10——————120—CuZn39Pb3 CuZn40Pb2CW614NCW617NM Tous Tous Brut de fabricationR3606—805—60360—320—1520——H0906—805—60——————90125 R4302—402—35430220—6810——H1102—402—35——————110160 R5002—142—10500350——35——H1352—142—10——————135—a)Voir 8.2.3.Afnor, Normes en ligne pour: DE DIETRICH THERMIQUE le 13/08/2012 à 10:32 NF EN 12164:2011-08EN 12164:2011 (F)23。

EN10216-5(欧盟标准)压力用途无缝钢管.交货技术条件.第5部分:不锈钢管1 范围 (4)2 参考标准 (4)3 术语和定义 (5)3.1 测验类型 (5)3.2 雇佣者 (5)4 符号 (6)5 分类和定义 (6)5.1 分类 (6)5.2 定义 (6)6 采购商须提供的信息 (6)6.2 选项 (6)6.3 定单样本 (7)7.生产工艺 (7)7.1 炼钢工艺 (7)7.2 管子制造工艺与交货技术条件 (8)8. 要求 (9)8.1 总述 (9)8.2 化学成分 (9)8.3 机械性能 (17)8.4晶间腐蚀 (29)8.5 表观及soundness (29)8.6直度 (30)8.7 管端处理 (30)8.8 尺寸，质量和公差 (30)9 检验 (32)9.1 检验类型 (32)9.2 检验文件 (32)9.3 检验和实验的摘要 (33)10 取样 (33)10.1 试验单位 (33)10.2 样品及试样的准备 (33)11 试验方法 (35)11.1 化学成分分析 (35)11.2 拉伸试验 (35)11.3 工艺试验 (36)11.4 冲击试验 (37)11.5 晶间腐蚀试验 (38)11.6 渗漏试验 (38)11.7 尺寸检验 (38)11.8 外观检验 (39)11.9 无损探伤 (39)11.10 材料验证 (39)11.11 重新试验，分类和重新生产 (39)12 标码 (39)12.1 标码的要求 (39)12.2 额外标码要求 (40)13 吊装和包装 (40)前言这份标准（EN10216-5:2004）是由ECISS/TC 29”钢管和管件”技术委员会起草的，这个委员会的秘书处由UNI任命的。

在2005年3月以前，这份欧盟标准以具有与国家标准等同的地位，以典型文本或者背书的形式出版，与国家标准相冲突的地方以此标准为准。

这份标准已经在欧盟委员会和欧盟自由贸易协定的托管下交给了CEN，实质上达到了EU指令97/23/EC的要求。

欧洲材料及焊接材料标准概况欧洲材料及焊接材料标准概况欧洲标准（EN）被欧盟及其成员国作为该国的国家标准强制执⾏以来，对我国及其他国家在标准应⽤和修订⽅⾯都起了积极的参考和借鉴作⽤。

⽬前欧洲标准越来越受到国际范围的认可，其中⼤多数标准已被等同等效地转化为国际标准（ISO）。

本⽂就部分铁基材料及焊接填充材料的欧洲标准从修订、内容、应⽤和相应的ISO标准之间关的系作概括性介绍。

⼀、部分原材料和焊接材料欧洲标准的制订⼤部分原材料和焊接材料欧洲标准是在1992-1998年间由欧洲标准化委员会起草并制订的，最终由各成员国投票表决，⼀经通过，该标准的原国家标准就将废⽌，执⾏统⼀的欧洲标准。

从内容上看，其来源由三部分组成，⼀部分是前欧洲标准（EU），EU标准是欧盟的主要成员国在四、五⼗年的历史进程中形成的⼀系列标准性的技术⽂件，所以较为熟悉并易被各成员国所接受；如前欧洲标准EU20（钢的概念、分类）转化成欧洲标准EN10020（钢的概念、分类）。

第⼆部分是德国⼯业标准（DIN），由于德国在欧盟中的经济地位和其在冶⾦、焊接技术⽅⾯的出众表现，将DIN标准的内容作为⽬前的欧洲标准。

如德国标准DIN8575（热强钢的⽓体保护焊焊丝）转化成欧洲标准EN12070（热强钢的⽓体保护焊焊丝）；第三部分是将ISO ⽅⾯现有标准等同等效地采纳为欧洲标准，如国际标准ISO13916（焊接时预热、层间和保护温度的测量）转化为欧洲标准EN ISO13916（焊接时预热、层间和保护温度的测量）。

从现有欧洲标准来看，在制订时都尽量采纳或参照现有ISO标准，并在标记⽅法、内容上与ISO标准具有⼀致性，⽐ISO相应标准更细、更具体。

⼆、部分原材料欧洲标准的内容简介欧洲标准中涉及到可焊接的铁基材料常⽤标准如下：欧洲标准相关国际标准标准号题⽬出版时间标准号题⽬出版时间EN10025热扎⾮合⾦结构钢1993ISO4995热轧结构钢板1993EN10113正⽕、热机械扎制的细晶粒结构钢1993ISO4996热轧⾼强度结构⽤钢板1999 EN10137调质细晶粒结构钢1992EN10028压⼒容器⽤钢1992ISO9328压⼒容器⽤钢板和钢带—技术供货条件1991 EN10088⾼合⾦耐腐蚀钢1995以常⽤⾮合⾦结构钢和压⼒容器⽤钢为例，从符号标记、化学成份上对EN 标准和ISO标准对⽐：符号标记化学成份（熔炼分析）EN标准ISO标准EN标准ISO标准C Mn Si S P C Mn Si S PEN10025 S235J2G3ISO4995HR235 B0.17 1.4-0.0350.0350.18 1.2-0.0350.035EN10028-2 P235GH ISO9328PH2650.200.5-1.30.350.0350..030.20.5-1.40.350.0350.03EN10028-2 13CrMoV4-5ISO932814CrMo4 50.08-0.180.4-1.00.15/0.350.0350.030.08-0.180.4-1.00.350.0350.03都采⽤了标准号+附加符号的标记⽅法，从材料的标记则反映了材料的⽤途、强度性能、质量等级、供货状态，如EN10025S235J2G3中，S—结构⽤钢、235—16mm以下屈服强度的最低值为235Mpa、J2G3—质量等级（冲击功和供货状态），⽽ISO4995 HR235 B中，HR—热扎状态、235—屈服强度的最低值为235Mpa、B—质量等级。