铝合金材料对照表

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铝合金常用材料对照表

铝合金常用材料对照表
3A21
原LF21
5005

5019

6B02
原LD2-1
7A09
原LC9
5050

6A51
曾用651
7A10
原LC10
5251

6101

7A15
曾用LC15、157
5052

6101A

7A19
曾用919、LC19
5154

6005

7A31
曾用183-1
5154A

6005A

7A33
曾用LB733
TX细分状态代号说明与应用
状态代号
说明与应用
T0
固溶热处理后、经自然时效再通过冷加工的状态
适用于经冷加工提高强度的产品
T1
由高温成型过程冷却,然后自然时效至基本稳定的状态
适用于由高温成型过程冷却后,不再进行冷加工(可进行矫直、矫平,但不影响力学性能极限)的产品
T2
由高温成型过程冷却,经冷加工后自然时效至基本稳定的状态
适用于自O或F状态固溶热处理后,进行人工过时效处理,力学性能及抗腐蚀性能达到了T7X状态的产品
T81
适用于固溶热处理后,经1%左右的冷加工变形提高强度,然后进行人工时效的产品
T87
适用于固溶热处理后,经1%左右的冷加工变形提高强度,然后进行人工时效的
T8
固溶热处理后经冷加工,然后进行人工时效的状态
适用于经冷加工、或矫直、矫平以提高强度的产品
T9
固溶热处理后人工时效,然后进行冷加工的状态
适用于经冷加工提高强度的产品
T10
由高温成型过程冷却后,进行冷加工,然后人工时效的状态

铝合金成分对照表

铝合金成分对照表

International Alloy DesignationsandChemical Composition LimitsforWrought Aluminum andWrought Aluminum Alloys1525 Wilson Boulevard, Arlington, VA 22209With Support for On-line Access From:A luminum E xtruders C ouncilA luminium F ederation of S outh A fricaA ustralian A luminium C ouncil L td.E uropean A luminium A ssociationJ apan A luminium A ssociationA lro S.A, R omaniaRevised: February 2009Supersedes: April 2006© Copyright 2009, The Aluminum Association, Inc.Unauthorized reproduction and sale by photocopy or any other method is illegal.Use of the InformationThe Aluminum Association has used its best efforts in compiling the information contained in this publication. Although the Association believes that its compilation procedures are reliable, it does not warrant, either expressly or impliedly, the accuracy or completeness of this information. The Aluminum Association assumes no responsibility or liability for the use of the information herein.All Aluminum Association published standards, data, specifications and other material are reviewed at least every five years and revised, reaffirmed or withdrawn. Users are advised to contact The Aluminum Association to ascertain whether the information in this publication has been superseded in the interim between publication and proposed use.CONTENTSPage FOREWORD (i)SIGNATORIES TO THE DECLARATION OF ACCORD ..................................... ii-iii REGISTERED DESIGNATIONS AND CHEMICAL COMPOSITION LIMITS .... 1-13 Footnotes .. (14)TABLE OF NOMINAL DENSITIES FOR ACTIVE ALLOYS ............................. 15-20 TABLE OF INACTIVE ALLOY DESIGNATIONS ............................................. 21-22 Table of Chemical Composition Limits for Inactive Original Alloys (23)CROSS REFERENCES OF INTERNATIONAL DESIGNATIONS— DECLARATION OF ACCORD (DOA) TO ISO (24)RECOMMENDATION TO THE DECLARATION OF ACCORD (25)Footnotes (26)Appendix A—Use of Designations (27)Appendix B—Deactivation of Registered Alloys (27)Appendix C—General Guidelines for Determining Compliancewith "Sale of Alloy" and "Commercial Quantity" forPurposes of Registering Wrought Aluminum andWrought Aluminum Alloys (27)DECLARATION OF ACCORD (28)FOREWORDL isted herein are designations and chemical composition limits for wrought aluminum and wrought aluminum alloys registered with The Aluminum Association. Numerical designations are assigned in accordance with the Recommendation—International Designation System for Wrought Aluminum and Wrought Aluminum Alloys, which is printed on pages 25 through 27. Additions may be made in accordance with the rules outlined in the Declaration of Accord printed on page 28, and alloys will be deleted when no longer in commercial use (see table of inactive alloys printed on pages 21-22).S ince the International Designation System for Wrought Aluminum and Wrought Aluminum Alloys is based on USA's national standard "American National Standard Alloy and Temper Designation System for Aluminum ANSI H35.1," the system limits introduction of experimental alloy compositions to USA registrations. An experimental alloy registered by USA under this system is indicated by the prefix "X" and is subject to the following rules:1. A composition shall not be designated as experimental ("X") for more than five years.2. During its experimental status, the registering organization may request changes in thecomposition limit of the alloy, provided that it does not invalidate any assigned designation.3. The "X" is dropped when the alloy is no longer experimental.4. An experimental composition that is inactivated shall retain the prefix "X" for the duration ofits inactive status. If reactivated, the "X" shall be removed.S ome of the registered alloys may be the subject of patent or patent applications, and their listing herein is not to be construed in any way as the granting of a license under such patent right.A list of the organizations that are signatories to the Declaration of Accord on the Recommendation is printed on pages ii-iii.SIGNATORIES TO THE DECLARATION OF ACCORDThe following organizations are signatories to the Declaration of Accord on an International Alloy Designation System for Wrought Aluminum and Wrought Aluminum Alloys which is printed on page 28 of this publication.The Aluminum Association Inc. USA 1525 Wilson BoulevardSuite 600Arlington, VA 22209USAAFA Association Francaise de l’Aluminium FRANCE 17, rue Hamelin75016 ParisFRANCEAll-Russian Institute of Aviation Materials (VIAM) RUSSIA 17 Radio Ulitza105005 MoscowRUSSIAwww.viam.ruAlro S.A. ROMANIA 116 Pitesti Street230048 SlatinaROMANIAwww.alro.roAluminium Association of Canada CANADA 1010 Sherbrooke Street West, Suite 1600Montreal, Quebec H3A2R7CANADAwww.aac.aluminium.qc.caAluminium Center Belgium BELGIUM Z.I. Research Park 3101731 ZellikBELGIUMwww.aluminiumcenter.beAluminium Federation Limited UK National Metalforming Centre47 Birmingham RoadWest Bromwich B70 6PYUNITED KINGDOMAluminium Federation of South Africa SOUTH AFRICA P. O. Box 423Isando, 1600REPUBLIC OF SOUTH AFRICA.zaAluminium – Verband Schweiz SWITZERLAND Hallenstrasse 15PostfachCH-8024 ZurichSWITZERLANDwww.alu.chAssociacão Brasileira do Aluminio—ABAL BRAZIL Rua Humberto 1, No. 220-4o.AndarSao Pãulo-SPCEP 04018-030BRAZIL.brAssociation for the Dutch NETHERLANDS Metallurgic Industry (VNMI)P.O. Box 190NL-2700 AD ZoetermeerNETHERLANDSwww.vnmi.nlAssomet - Associazione Nazionale ITALY Industrie Metalli non FerrosiVia dei Missaglia, 97I-20142 MilanoITALYwww.assomet.itAustralian Aluminium Council Limited AUSTRALIA Level 1, Dickson SquareP. O. Box 63Dickson, ACT 2602AUSTRALIA.auAustrian Non-Ferrous Metals Federation AUSTRIA Wiedner Hauptstrasse 63/3317Postfach 338A-1045 ViennaAUSTRIAwww.nemetall.atCentro Nacional de Investigaciones SPAIN Metalurgicas (CENIM)Avenida Gregorio del Amo, 8Ciudad Universitaria28040 MadridSPAINwww.cenim.csic.esChina Nonferrous Metals Techno-Economic CHINA Research InstituteNo. 9 Xizhang Hutong, Xizhimennei StreetBejing, 100035PEOPLES REPUBLIC OF CHINAEuropean Aluminium Association EAA Avenue de Broqueville, 12B-1150 BrusselsBELGIUMiiEuropean Organization for ASD-STAN Aerospace Standardization270, Avenue de Tervuren1150, BrusselsBELGIUMGesamtverband der Aluminium- GERMANY industrie e.V. (GDA)Am Bonneshof 5D-40474 DusseldorfGERMANYwww.aluinfo.deInstitute of Non-Ferrous Metals POLAND Light Metals Divison32-050 SkawinaUl. Pilsudskiego 19POLANDwww.imn.gliwice.plInstituto Mexicano del Alumino, A.C. MEXICO Francisco PetrarcaNo. 133 Piso 9MEXICO, 11560, DF.mx IRAM-Instituto Argentino De ARGENTINA NormalizacionPeru 556C1068AABBuenos AiresARGENTINA.arJapan Aluminium Association JAPAN Tsukamoto-Sozan Building2-15, Ginza 4-ChomeChuo-ku, Tokyo 104-0061JAPANwww.aluminum.or.jpSwedish Aluminium Association SWEDEN Aluminiumriket SverigeFramtidsvagen 21ASE-351 96 VaxjoSWEDENSignatories (Continued)iiiCALCULATED NOMINAL DENSITIES FOR ACTIVEWROUGHT ALUMINUM AND WROUGHT ALUMINUM ALLOYSDensity is dependent upon composition and nominal density is determined by computation rather than by a weight method. The values shown below have been computed in accordance with the Aluminum and Aluminum Alloy Density Calculation Procedure appearing on pages 2-12 and 2-13 of Aluminum Standards and Data. These calculated densities are nominal values and should not be specified as engineering requirements but may be used in calculating nominal values for weight per unit length, weight per unit area, covering area, etc.Limiting the expression of nominal density to the number of decimal places indicated is based on the fact that composition variations are discernible from one cast to another for most alloys. The expression of nominal density to more decimal places than allowed by the following implies higher precision than is justified and should not be used.1. Alloys listed below which have a minimum aluminum content of 99.35% or greater have nominal densityvalues which are rounded in the US customary system (lbs/in3) to the nearest multiple of 0.0005 and in the metric system [(kg/m3) x 103] to the nearest multiple of 0.005.2. Alloys listed below which have a minimum aluminum content of less than 99.35% have nominal densityvalues which are rounded in the US customary system (lbs/in3) to the nearest multiple of 0.001 and in the metric system [(kg/m3) x 103] to the nearest multiple of 0.01.The US customary (lbs/in3) unit values are derived from metric values and subsequently rounded and are not to be back-converted to metric values.Density Designation lbs/in.3(kg/m3) x 103 1050 0.0975 2.7051050A 0.0975 2.7051060 0.0975 2.7051065 0.0975 2.7001070 0.0975 2.7001070A 0.0975 2.7001080 0.0975 2.7001080A 0.0975 2.7001085 0.0975 2.7001090 0.0975 2.7001098 0.0975 2.7001100 0.098 2.711100A 0.098 2.711200 0.098 2.701200A 0.098 2.711300 0.098 2.711110 0.098 2.701120 0.098 2.711230 0.098 2.701230A 0.098 2.701235 0.0975 2.7051435 0.0980 2.7101145 0.0975 2.7001345 0.0975 2.7051445 0.0975 2.7001150 0.0975 2.7051350 0.0975 2.7051350A 0.0975 2.7001450 0.0975 2.7051370 0.0975 2.7001275 0.0975 2.7051185 0.0975 2.700Density Designation lbs/in.3(kg/m3) x 103 1285 0.0975 2.7001385 0.0975 2.7001188 0.0975 2.7001190 0.0975 2.7001290 0.0975 2.7001193 0.0975 2.7001198 0.0975 2.7001199 0.0975 2.7002001 0.102 2.822002 0.099 2.732004 0.102 2.822005 0.102 2.832006 0.099 2.742007 0.102 2.822007A 0.102 2.81+2007B 0.102 2.81 2008 0.098 2.722009 0.099 2.752010 0.098 2.722011 0.102 2.832011A 0.102 2.822111 0.102 2.832111A 0.102 2.832111B 0.102 2.832012 0.102 2.822013 0.099 2.732014 0.101 2.802014A 0.101 2.802214 0.101 2.802015 0.102 2.832016 0.101 2.792017 0.101 2.79Density Designation lbs/in.3(kg/m3) x 103 2017A 0.101 2.792117 0.099 2.752018 0.102 2.822218 0.101 2.812618 0.100 2.762618A 0.100 2.772219 0.103 2.842319 0.103 2.842419 0.102 2.842519 0.102 2.822021 0.103 2.842022 0.101 2.802023 0.100 2.772024 0.100 2.782024A 0.100 2.772124 0.100 2.782224 0.100 2.772224A 0.100 2.782324 0.100 2.772424 0.100 2.772524 0.100 2.782025 0.101 2.812026 0.100 2.772027 0.101 2.792028 0.102 2.83+2028A 0.101 2.80+2028B 0.102 2.81+2028C 0.102 2.82 2030 0.102 2.812031 0.100 2.772032 0.100 2.762034 0.101 2.792036 0.100 2.752037 0.099 2.742038 0.099 2.732039 0.101 2.812139 0.102 2.812040 0.102 2.81+2041 0.103 2.84+2044 0.102 2.81+2045 0.102 2.82 2050 0.098 2.702056 0.100 2.782090 0.093 2.592091 0.093 2.582094 0.098 2.722095 0.098 2.702195 0.098 2.712196 0.095 2.632097 0.096 2.652197 0.095 2.642297 0.096 2.65Density Designation lbs/in.3(kg/m3) x 103 2397 0.096 2.652098 0.097 2.702198 0.097 2.692099 0.095 2.632199 0.095 2.643002 0.098 2.703102 0.098 2.713003 0.099 2.733103 0.099 2.733103A 0.098 2.723103B 0.098 2.733203 0.098 2.733403 0.099 2.733004 0.098 2.723004A 0.098 2.713104 0.098 2.723204 0.098 2.713304 0.098 2.723005 0.098 2.733005A 0.099 2.733105 0.098 2.723105A 0.098 2.713105B 0.098 2.723007 0.098 2.723107 0.098 2.723207 0.098 2.713207A 0.098 2.723307 0.098 2.723009 0.099 2.733010 0.098 2.723110 0.098 2.723011 0.099 2.733012 0.098 2.72+3012A 0.098 2.72 3013 0.099 2.743014 0.099 2.753015 0.098 2.723016 0.098 2.723017 0.099 2.733019 0.099 2.733020 0.099 2.733025 0.098 2.723026 0.098 2.723030 0.098 2.723130 0.098 2.714004 0.096 2.654104 0.096 2.654006 0.098 2.714007 0.099 2.744008 0.096 2.674009 0.097 2.704010 0.096 2.67Density Designation lbs/in.3(kg/m3) x 103 4013 0.098 2.714014 0.097 2.704015 0.098 2.71+4015A 0.098 2.71+4115 0.098 2.72 4016 0.099 2.734017 0.098 2.724018 0.096 2.674019 0.099 2.744020 0.098 2.714026 0.099 2.734032 0.097 2.684043 0.097 2.694043A 0.097 2.694343 0.097 2.684643 0.097 2.694044 0.097 2.674045 0.096 2.674145 0.099 2.744145A 0.099 2.744046 0.096 2.664047 0.096 2.664047A 0.096 2.664147 0.096 2.665005 0.098 2.705005A 0.097 2.695205 0.097 2.705305 0.097 2.695505 0.097 2.695605 0.097 2.695006 0.098 2.715106 0.098 2.715010 0.098 2.715110 0.097 2.695110A 0.098 2.705210 0.097 2.695310 0.097 2.695016 0.097 2.705017 0.097 2.695018 0.096 2.675018A 0.097 2.675019 0.096 2.655019A 0.096 2.655119 0.096 2.655119A 0.096 2.655021 0.097 2.685022 0.096 2.665023 0.095 2.64+ 5024 0.096 2.65 5026 0.097 2.695027 0.096 2.655040 0.098 2.72Density Designation lbs/in.3(kg/m3) x 103 5140 0.098 2.715041 0.097 2.675042 0.096 2.675043 0.098 2.725049 0.097 2.705149 0.097 2.695249 0.097 2.705349 0.097 2.705449 0.097 2.705050 0.097 2.695050A 0.097 2.695150 0.097 2.685051 0.097 2.695051A 0.097 2.695151 0.097 2.685251 0.097 2.695251A 0.097 2.695351 0.097 2.685451 0.097 2.685052 0.097 2.685252 0.096 2.675352 0.097 2.675154 0.096 2.665154A 0.096 2.675154B 0.096 2.67+ 5154C 0.096 2.66 5254 0.096 2.665354 0.097 2.695454 0.097 2.695554 0.097 2.695654 0.096 2.665654A 0.096 2.665754 0.097 2.675954 0.096 2.665056 0.095 2.645356 0.096 2.645356A 0.096 2.645456 0.096 2.665456A 0.096 2.665456B 0.096 2.665556 0.096 2.665556A 0.096 2.655556B 0.096 2.655556C 0.096 2.665257 0.097 2.705457 0.097 2.695557 0.097 2.705657 0.097 2.695058 0.097 2.675059 0.096 2.665070 0.097 2.685180 0.097 2.70Density Designation lbs/in.3(kg/m3) x 103 5180A 0.097 2.705082 0.096 2.655182 0.096 2.655083 0.096 2.665183 0.096 2.665183A 0.096 2.665283 0.096 2.655283A 0.096 2.655283B 0.096 2.665383 0.096 2.665483 0.096 2.665086 0.096 2.665186 0.096 2.665087 0.096 2.665187 0.096 2.665088 0.096 2.656101 0.097 2.706101A 0.097 2.696101B 0.097 2.706201 0.097 2.696201A 0.097 2.696401 0.097 2.696501 0.098 2.706002 0.097 2.706003 0.097 2.706103 0.098 2.706005 0.097 2.706005A 0.098 2.706005B 0.097 2.706005C 0.098 2.706105 0.097 2.706205 0.098 2.716006 0.098 2.706106 0.098 2.706206 0.098 2.716306 0.097 2.706008 0.098 2.706009 0.098 2.716010 0.098 2.716110 0.098 2.716110A 0.098 2.716011 0.099 2.736111 0.098 2.716012 0.099 2.746012A 0.099 2.746013 0.098 2.716113 0.098 2.716014 0.098 2.706015 0.097 2.696016 0.098 2.706016A 0.098 2.706116 0.097 2.70Density Designation lbs/in.3(kg/m3) x 103 6018 0.099 2.746019 0.098 2.716020 0.099 2.736021 0.098 2.726022 0.097 2.696023 0.099 2.736024 0.098 2.726025 0.097 2.706026 0.099 2.74+6028 0.099 2.74 6033 0.099 2.736040 0.099 2.73+6041 0.099 2.73+6042 0.098 2.72+6043 0.098 2.72 6151 0.098 2.716351 0.098 2.716351A 0.098 2.716451 0.098 2.706951 0.098 2.706053 0.097 2.696056 0.098 2.726156 0.098 2.726060 0.097 2.706160 0.097 2.706260 0.098 2.706360 0.098 2.706460 0.097 2.706560 0.098 2.706061 0.098 2.706061A 0.098 2.706261 0.098 2.706162 0.097 2.706262 0.098 2.726262A 0.098 2.726063 0.097 2.706063A 0.097 2.706463 0.097 2.696463A 0.097 2.696763 0.097 2.696963 0.097 2.70+6064 0.098 2.72+6064A 0.098 2.72 6065 0.098 2.726066 0.098 2.726069 0.098 2.706070 0.098 2.716081 0.097 2.706181 0.097 2.696181A 0.098 2.706082 0.098 2.706082A 0.098 2.70Density Designation lbs/in.3(kg/m3) x 103 6182 0.098 2.716091 0.097 2.706092 0.098 2.707003 0.101 2.807004 0.100 2.777204 0.100 2.787005 0.100 2.777108 0.100 2.787108A 0.101 2.787009 0.101 2.807010 0.102 2.827012 0.101 2.817014 0.101 2.797015 0.100 2.777016 0.100 2.787116 0.101 2.787017 0.100 2.767018 0.101 2.797019 0.100 2.767019A 0.100 2.757020 0.100 2.787021 0.101 2.787022 0.100 2.777122 0.100 2.767023 0.100 2.787024 0.100 2.777025 0.100 2.777026 0.100 2.787028 0.100 2.777029 0.100 2.777129 0.100 2.787229 0.100 2.777030 0.101 2.797031 0.099 2.747032 0.102 2.827033 0.101 2.797034 0.105 2.907035 0.099 2.75+7035A 0.099 2.75 7036 0.104 2.887136 0.104 2.88+7037 0.103 2.85 7039 0.099 2.747040 0.102 2.827140 0.102 2.83+7041 0.101 2.80 7046 0.102 2.827046A 0.102 2.817049 0.103 2.847049A 0.103 2.847149 0.103 2.847249 0.103 2.84Density Designation lbs/in.3(kg/m3) x 103 7349 0.103 2.857449 0.103 2.857050 0.102 2.837050A 0.102 2.827150 0.102 2.837250 0.102 2.827055 0.103 2.86+7155 0.104 2.87 7056 0.104 2.877060 0.103 2.857064 0.103 2.857068 0.103 2.857168 0.103 2.867072 0.098 2.727075 0.101 2.817175 0.101 2.807475 0.101 2.817076 0.102 2.847178 0.102 2.837278 0.102 2.837278A 0.102 2.827081 0.102 2.837085 0.103 2.857090 0.103 2.857093 0.103 2.867095 0.104 2.898005 0.098 2.718006 0.099 2.748007 0.100 2.768008 0.099 2.748010 0.098 2.728011 0.098 2.718011A 0.098 2.718111 0.098 2.718211 0.098 2.728112 0.098 2.728014 0.099 2.738015 0.098 2.728016 0.098 2.728017 0.098 2.718018 0.098 2.728019 0.106 2.928021 0.098 2.738021A 0.098 2.728021B 0.098 2.728022 0.102 2.838023 0.099 2.748024 0.088 2.438025 0.098 2.71+8026 0.099 2.73 8030 0.098 2.718130 0.098 2.71Density Designation lbs/in.3(kg/m3) x 103 8040 0.098 2.718050 0.099 2.738150 0.098 2.738076A 0.098 2.718176 0.098 2.718077 0.098 2.708079 0.098 2.728090 0.092 2.548091 0.092 2.548093 0.092 2.55Density Designation lbs/in.3(kg/m3) x 103PREVIOUSLY ASSIGNED BUT PRESENTLY INACTIVE ALLOY DESIGNATIONS12DATEDESIGNATION RECLASSIFIED103081988-05-23103582005-04-13104082005-04-13104582005-04-131130 1966-09-091330 1964-12-181135 1997-02-031335 1966-09-091245 1966-09-091250 1988-05-231055 1988-05-231160 1958-04-22(Superseded by 1060)1260 2005-04-131360 1965-12-091165 1966-07-121170 1997-02-031270 1966-07-12107581988-05-231175 1997-02-031180 1997-02-031187 1958-09-10(Superseded by 1188)1095 1988-05-231197 1958-09-10(Superseded by 1199)109981965-12-09200381997-11-28X231681965-03-31X2119 1966-03-072020 1974-11-012225 1966-07-12204882005-04-132053 1983-11-09208082005-06-02X209682000-12-083303 1997-02-033205 1965-11-05300682005-04-133008 1996-03-153018 1998-01-164001 1965-11-054101 1965-11-054002 1981-05-29X4003 1975-01-27X4005 1977-06-01401182005-06-024012 1965-11-054543 1997-02-03DATEDESIGNATION RECLASSIFIED4245 1968-08-19(Redesignated 4048)404882005-04-13X5002 1963-06-035004 1967-04-265105 1960-04-285405 1966-07-125007 1968-05-135008 1968-05-135009 1968-05-135011 1967-04-26X5012 1970-06-305013 1996-10-02501481997-11-28X5015 1968-08-19X5020 1977-08-04X5220 1962-01-11502582005-06-025034 1973-08-095039 1975-11-245250 2005-04-135050B 1996-03-155152 1963-06-03X5452 1971-06-175552 1997-02-035652 2005-04-135053 1968-08-19X5153 1967-04-265854 1996-10-02X5055 1956-10-195155 1971-07-145056A141992-02-215357 2005-04-135757 1963-05-145857 1963-06-105957 1963-06-03X508081963-10-225280 1996-10-02X5084 1965-04-27X5184 1965-04-27X5085 1977-08-04X5090 1977-07-18509182000-04-26600181955-07-086301 2005-04-13600482005-04-13600782005-04-13601781997-02-03PREVIOUSLY ASSIGNED BUT PRESENTLY INACTIVE ALLOY DESIGNATIONS12 (continued)DATE DESIGNATION RECLASSIFIED605181963-12-12X6251 1965-03-316253 2002-05-22X6161 1963-06-03606281964-09-04X6163 1964-12-186263 1955-07-126363 1964-12-186563 1967-04-266663 1967-04-266863 1996-10-02X6064181965-03-31X6067 1974-11-016071 1966-07-126090 1992-06-01700181997-02-037002 1966-07-127104 1988-05-23X7006 1963-09-10X710681980-04-16X7007 1972-02-16700882005-04-13 7109 1996-03-15701181999-06-17701381997-02-037027 1996-06-26X7038 1967-04-267139 1966-09-097146 1997-02-037051 1996-10-027070 1988-05-23X7272 1965-03-317472 1997-02-03X7275 1963-06-03727782000-11-067079 1989-03-22 7179 1989-06-06X7279 1963-06-03X7080 1971-01-04709181997-02-03 800181997-02-03X8002 1964-12-18X8003 1964-12-188004 1996-10-02800982000-06-198212 1967-04-268013 1971-11-01802082005-04-138DATE DESIGNATION RECLASSIFIED8177 1997-02-03828082005-04-13X8380 1964-12-18X8480 1964-12-18808181997-02-03X8090A 1989-01-13X8092 1991-10-24X8192 1991-10-24CROSS REFERENCE OF INTERNATIONAL DESIGNATIONS DECLARATION OF ACCORD (DOA) TO ISO*DOA DESIGNATIONFORMER ISODESIGNATIONDOADESIGNATIONFORMER ISODESIGNATIONDOADESIGNATIONFORMER ISODESIGNATION1050A Al99.5 3105 AlMn0.5Mg0.5 6101 E-AlMgSi1350 E-Al99.5 4043 AlSi5 6101A E-AlMgSi(A) 1060 Al99.6 4043A AlSi5(A) 6005 AlSiMg1070A Al99.7 4047 AlSi12 6005A AlSiMg(A)1370 E-Al99.7 4047A AlSi12(A) 6351 AlSi1Mg0.5Mn 1080A Al99.8(A) 5005 AlMg1(B) 6060 AlMgSi1100 Al99.0Cu 5019 AlMg5 6061 AlMg1SiCu1200 Al99.0 5050 AlMg1.5(C) 6262 AlMg1SiPb2011 AlCu6BiPb 5251 AlMg2 6063 AlMg0.7Si2014 AlCu4SiMg 5052 AlMg2.5 6063A AlMg0.7Si(A) 2014A AlCu4SiMg(A) 5154 AlMg3.5 6181 AlSi1Mg0.82017 AlCu4MgSi 5154A AlMg3.5(A) 6082 AlSi1MgMn2017A AlCu4MgSi(A) 5454 AlMg3Mn 7005 AlZn4.5Mg1.5Mn 2117 AlCu2.5Mg 5554 AlMg3Mn(A) 7010 AlZn6MgCu2219 AlCu6Mn 5754 AlMg3 7020 AlZn4.5Mg1 2024 AlCu4Mg1 5056 AlMg5Cr 7049A AlZn8MgCu2030 AlCu4PbMg 5356 AlMg5Cr(A) 7050 AlZn6CuMgZr 3003 AlMn1Cu 5456 AlMg5Mn1 7075 AlZn5.5MgCu 3103 AlMn1 5083 AlMg4.5Mn0.7 7475 AlZn5.5MgCu(A) 3004 AlMn1Mg1 5183 AlMg4.5Mn0.7(A) 7178 AlZn7MgCu3005 AlMn1Mg0.5 5086 AlMg4*Source: ISO 209-1.NOTE: This table is included for informational purposes only. ISO 209-1 has been withdrawn and replaced by ISO 209 which references the Teal Sheets as the normative reference and the source for international alloy designations.The Aluminum Association RECOMMENDATION 15 December 1970 1525 Wilson Boulevard INTERNATIONAL DESIGNATION SYSTEM Revised March 2008 Arlington, VA 22209 FOR WROUGHT ALUMINUM AND WROUGHT ALUMINUM ALLOYSU.S.A.This Recommendation is based on the numerical designation system for wrought aluminum and wrought aluminum alloys which was adopted in the U.S.A. in 1954, andbecame its national standard in 1957. This Recommendation was officially adopted by the International Signatories of the Declaration of Accord on December 15, 1970.Designations in accordance with this Recommendation may be used by any country, but there is no obligation to use them. For use, see Appendixes A, B, and C.A numerical designation assigned in conformance with this Recommendation should only be used to indicate an aluminum or an aluminum alloy having chemicalcomposition limits identical to those registered with the Signatories to the Declaration of Accord on an International Alloy Designation System for Wrought Aluminum andWrought Aluminum Alloys.1. ScopeThis recommendation describes a four-digit numerical system for designating wroughtaluminum and wrought aluminum alloys.2. Alloy GroupsThe first of the four digits in the designation indicates the alloy group as follows:Aluminum, 99.00 percent and greater (1xxx)Aluminum alloys grouped by major alloying elements1,2,3Copper (2xxx)Manganese (3xxx)Silicon (4xxx)Magnesium (5xxx)Magnesium and Silicon (6xxx)Zinc (7xxx)Other elements (8xxx)Unused series (9xxx)3. 1xxx GroupThe designation assigned shall be in the 1xxx group whenever the minimum aluminumcontent is specified as 99.00 percent and greater. In the 1xxx group, the last two of the fourdigits in the designation indicate the minimum aluminum percentage4. These digits are thesame as the two digits to the right of the decimal point in minimum aluminum percentagewhen it is expressed to the nearest 0.01 percent. The second digit in the alloy designationindicates alloy modifications in impurity limits or alloying elements. If the second digit in thedesignation is zero, it indicates unalloyed aluminum having natural impurity limits; integers 1through 9, which are assigned consecutively as needed, indicate special control of one ormore individual impurities or alloying elements.4. 2xxx-8xxx GroupsThe alloy designation in the 2xxx through 8xxx groups is determined by the alloying element(Mg2Si for 6xxx alloys) present in the greatest mean percentage. If the greatest meanpercentage is common to more than one alloying element, choice of group will be in order ofgroup sequence Cu, Mn, Si, Mg, Mg2Si, Zn or Others. In the 2xxx through 8xxx alloy groupsthe last two of the four digits in the designation have no special significance but serve only toidentify the different aluminum alloys in the group. The second digit in the alloy designationindicates the original alloy5 and alloy modifications; integers 1 through 9, which are assignedconsecutively, indicate alloy modifications.5. ModificationsA modification of the original alloy 5 is limited to any one or a combination of the following:(a) Change of not more than the following amounts in the arithmetic mean of thelimits for an individual alloying element or combination of elements expressedas an alloying element or both:Arithmetic Mean of Limits for Alloying Elements in Original Alloy Maximum ChangeUp through 1.0 percent 0.15Over 1.0 through 2.0 percent 0.20Over 2.0 through 3.0 percent 0.25Over 3.0 through 4.0 percent 0.30Over 4.0 through 5.0 percent 0.35Over 5.0 through 6.0 percent 0.40Over 6.0 percent 0.50To determine compliance when maximum and minimum limits are specified for a combination of two or more elements in one alloy composition, the arithmetic mean of such combination is compared to the sum of the mean values of the same individual elements, or any combination thereof, in another alloy composition.(b) Addition or deletion of not more than one alloying element with limits having anarithmetic mean of not more than 0.30 percent, or addition or deletion of not morethan one combination of elements expressed as an alloying element with limitshaving a combined arithmetic mean of not more than 0.40 percent.(c) Substitution of one alloying element for another element serving the samepurpose.(d) Change in limits for impurities expressed singly or as a combination.(e) Change in limits for grain refining elements.(f) Maximum iron or silicon limits of 0.12 percent and 0.10 percent, or less,respectively, reflecting high purity base metal.An alloy should not be registered as a modification if it meets the requirements for a national variation.6. National VariationsNational variations of wrought aluminum and wrought aluminum alloys registered by another country in accordance with this Recommendation are identified by a serial letter after the numerical designation. The serial letters are assigned in alphabetical sequence starting withA for the first national variation registered, but omitting I, O, and Q.A national variation has composition limits which are similar but not identical to a modificationor an original alloy registered by another country, with differences such as:(a) Differences in arithmetic mean of limits for an individual alloying element orcombination of elements expressed as an alloying element, or both, notexceeding the following amounts:Arithmetic Mean of Limits for AlloyingElements in Original Alloy or ModificationMaximumDifferenceUp through 1.0 percent 0.15Over 1.0 through 2.0 percent 0.20Over 2.0 through 3.0 percent 0.25Over 3.0 through 4.0 percent 0.30Over 4.0 through 5.0 percent 0.35Over 5.0 through 6.0 percent 0.40Over 6.0 percent 0.50To determine compliance when maximum and minimum limits are specified for acombination of two or more elements in one alloy composition, the arithmetic mean ofsuch combination is compared to the sum of the mean values of the same individualelements, or any combination thereof, in another alloy composition.(b) Substitution of one alloying element for another element serving the samepurpose.(c) Different limits of impurities except for low iron. Iron maximum of 0.12 percent orless, reflecting high purity base metal, should be considered an alloy modification.See 5(f).(d) Different limits on grain refining elements.(e) Inclusion of a minimum limit for iron or silicon, or both.An alloy meeting these requirements should not be registered as a new alloy or alloymodification.See footnotes on page 2625See footnotes on page 14.。

铝合金牌号对照表

铝合金牌号对照表

0.15
0.81.2
0.040.35
0.25
0.15
0.05
0.15
高品质合金产品,强度虽不能与2系 余量 列或7系列相比,加工性能极佳、易
焊接及电镀性、抗腐蚀性、韧性高
及加工后不变形,易于抛光、上色
膜容易、氧化效果极佳。
0.4
0.5
1.22.0
0.3
2.1- 0.18- 5.12.9 0.28 6.1
类别
1XXX系纯铝及 铝合金
(应用广泛的 牌号)
2XXX系铝铜合 金
(应用广泛的 牌号)
3XXX系铝锰合 金
5XXX系铝镁合 金
(应用广泛的 牌号)
6XXX系铝硅合 金
(应用广泛的 牌号)
7XXX系铝锌合 金
(应用广泛的 牌号)
中国 GB/T3190-1996
新牌号
旧牌号
1050 1060 1070 1100
1.21.8
0.01 0.25 0.15
0.15
0.15
92.6 以上
有高强度和好疲劳强度,被广泛用在 航空结构上,尤其是机翼与机身结构 下的受到张力的地方
0.6
0.7
0.05- 1.00.2 1.5
--
-- 0.1
0.05
0.15
97 用于加工需要有良好的成形性能\ 以上 高的抗蚀性可焊接性好的零部件
6082
7075 7A04 7A09 7A52 7A05
LD31
状态T6硬度:HB90-110
AlSiMgMn 延伸率:11
AlZn5.5MgCu 抗拉强度 σb(Mpa)≧572
LC4 LC9 LC52
条件屈服强度σ0.2(Mpa)≧503 硬度:HB 150

各国铝合金牌号对照

各国铝合金牌号对照

表1 各国Al-Si(Mg)系铸造铝合金牌号近似对照
表2 各国Al-Si-Cu-(Mg,Ni)系铸造铝合金牌号近似对照。

表3 各国Al-Si-Cu-(Mg,Ni)系铸造铝合金牌号近似对照
表4 各国Al-Cu-(Mn,Mg)系铸造铝合金牌号近似对照
表5 各国Al-Mg-(Si,Mn)系铸造铝合金牌号近似对照
表6 各国Al-Zn-Mg和Al-Sn-(Cu,Ni)系铸造铝合金牌号近似对照
表7 各国Al-Zn-Mg和Al-Sn-(Cu,Ni)系铸造铝合金牌号近似对照
注:1.括号内仅表示合金类型,非标准牌号。

2.德国牌号开头冠以“G”或“GK_”(表中省略):括号内为德国的材料号。

压铸铝合金的牌号及化学成分(GB/T15115—1994)。

铝合金常用材料对照表

铝合金常用材料对照表

5A03
原LF3
1A30
原L4-1
2014

5A05
原LF5
1100
代LF5-1
2014A

5B05
原LF10
1200
代L5
2214

5A06
原LF6
1235

2017

5B06
原LF14
2A01
原LY1
2017A

5A12
原LF12
2A02
原LY2
2117

5A13
原LF13
2A04
原LY4
2218

5A03
原LF3
1A30
原L4-1
2014

5A05
原LF5
1100
代LF5-1
2014A

5B05
原LF10
1200
代L5
2214

5A06
原LF6
1235

2017

5B06
原LF14
2A01
原LY1
2017A

5A12
原LF12
2A02
原LY2
2117

5A13
原LF13
2A04
原LY4
2218

6060

7003
原LC12
5754

6061
原LD30
7005

5056
原LF5-1
6063
原LD31
7020

5356

6063A

最全面铝合金牌号对照表

最全面铝合金牌号对照表

类别中国美国英国日本法国德国前苏联GB ASTM BS JIS NF DIN ГОСТ工业纯铝1A99 1199 A199.99R A99 1A97 A199.98R A97 1A95 A95 1A80 1080(1A) 1080 1080A A199.90 A8 1A50 1050 1050(1B) 1050 1050A A199.50 A5 防锈铝5A02 5052 NS4 5052 5052 A1Mg2.5 Amg 5A03 NS5 AMg3 5A05 5056 NB6 5056 A1Mg5 AMg5V 5A30 5456 NG61 5556 5957 硬铝2A01 2036 2117 2117 AlCu2.5Mg0.5 D18 2A11 HF15 2017 2017S AlCuMg1 D1 2A12 2124 2024 2024 AlCuMg2 D16AVTV 2B16 2319 锻铝2A80 2N01 AK4 2A90 2218 2018 AK2 2A14 2014 2014 2014 AlCuSiMn AK8 超硬铝7A09 7175 7075 7075 AlZnMgCu1.5 V95P 铸造铝合金ZAlSi7Mn 356.2 LM25 AC4C G-AlSi7Mg ZAlSi12 413.2 LM6 AC3A A-S12-Y4 G-Al12 AL2 ZAlSi5Cu1Mg 355.2 AL5 ZAlSi2Cu2Mg1 413.0 AC8A G-Al12(Cu) ZAlCu5Mn AL19 ZAlCu5MnCdVA 201.0 ZAlMg10 520.2 LM10 AG11 G-AlMg10 AL8 ZAlMg5Si G-AlMg5Si AL13 中、美常用铝合金牌号对照表中国CHINA美国THE UNITED STATESL1-L6 、L5-11070 、1060 、1050 、1030 、1100 LY11 、LY12 、LY12017 、2024 、2117 LD10 、LD52014 、2214LD72618LD9 、LD82018 、2218LY16 、LY172219 、2021LF213003LF2 、LF3 、LF45052 、5154 、5083 LF5 、LF11 、LF6 、LF5-15456 、5056LD2 、LD2-1 、LD2-2 、LD30 、LD316165 、6061 、6055 、6063 LC6 、LC4 、LC97001 、7178 、7075 LC5 、LC107076 、7175 、7079LD114032中国新旧合金牌号对照表(GB/T 3190-1996)新牌号旧牌号新牌号旧牌号新牌号旧牌号1A99 原LG52B12原LY93003-1A97 原LG42A13原LY133103-1A95 -2A14原LD103004-1A93 原LG32A16原LY163005-1A90 原LG22B16曾用Ly16-13105-1A85 原LG12A17原LY17 4A01原LT1 1080 -2A20 曾用LY20 4A11 原LD11 1080A -2A21 曾用214 4A13 原LT13 1070 -2A25 曾用225 4A17 原LT17 1070A 代L1 2A49 曾用149 4004 -1370 -2A50 原LD5 4032 -1060 代L2 2B50 原LD6 4043 -1050 -2A70 原LD7 4043A -1050A 代L3 2B70 曾用LD7-1 4047 -1A50 原LB2 2A80 原LD8 4047A -1350 -2A90 原LD9 5A01 曾用2101、LF15 1145 -2004 -5A02 原LF2 1035 代L4 2011 -5A03 原LF3 1A30 原L4-1 2014 -5A05 原LF5 1100 代LF5-1 2014A -5B05 原LF10 1200 代L5 2214 -5A06 原LF6 1235 -2017 -5B06 原LF14 2A01 原LY1 2017A -5A12 原LF12 2A02 原LY2 2117 -5A13 原LF13 2A04 原LY4 2218 -5A30 曾用2103、LF16 2A06 原LY6 2618 -5A33 原LF33 2A10 原LY10 2219 曾用LY19、147 5A41 原LT41 2A11 原LY11 2024 -5A43 原LF43 2B11 原LY8 2124 -5A66 原LT66 2A12 原LY12 3A21 原LF21 5005 -5019 -6B02 原LD2-1 7A09 原LC9 5050 -6A51 曾用651 7A10 原LC10 5251 -6101 -7A15 曾用LC15、157 5052 -6101A -7A19 曾用919、LC19 5154 -6005 -7A31 曾用183-1 5154A -6005A -7A33 曾用LB733 5454 -6351 -7A52 曾用LC52、5210 5554 -6060 -7003 原LC12 5754 -6061 原LD30 7005 -5056 原LF5-1 6063 原LD31 7020 -5356 -6063A -7022 -5456 -6070 原LD2-2 7050 -5082 -6181 -7075 -5182 -6082 -7475 -5083 原LF4 7A01 原LB1 8A06 原L6 5183 -7A03 原LC3 8011 曾用LT98 5086 -7A04 原LC4 8090 -6A02 原LD2 7A05 曾用705 --注意:(1)“原”是指化学成分与新牌号等同,且都符合GB3190-82规定的旧牌号。

铝合金材料对照表

铝合金材料对照表

11.0-13.0

铝合金锭化学成份 ALUMINUM ALLOY INGOT CHEMICAL COMPOSITION(%)
GB/T 15115-1994 YL102 YL104 YL108 YL112 YL113 YL117 YL302 (Cu )铜 0.60Max 0.30Max 1.0-2.0 3.0-4.0 1.5-3.5 4.0-5.0 0.10Max (Si)硅 10.0-13.0 8.0-10.5 11.0-13.0 7.5-9.5 9.6-12.0 16.0-18.0 0.8-1.3 (Mg)镁 0.05Max 0.17-0.30 0.4-1.0 0.30Max 0.30Max 0.45-0.65 4.5-5.5 (Zn)锌 0.30Max 0.30Max 1.00Max 1.20Max 1.00Max 1.20Max 0.20Max (Fe)铁 1.20Max 1.00Max 1.00Max 1.20Max 1.20Max 1.20Max 1.20Max (Mn)锰 0.60Max 0.2-0.5 0.3-0.9 0.50Max 0.50Max 0.50MAX 0.1-0.4 (Ni )镍 0.05Max 0.50Max 0.50Max 0.10Max -
0.10Max 0.10Max 0.30Max 0.15Max 0.50Max 0.10Max 1.00Max 0.30Max 0.8-1.5 0.8-1.3 0.10Max
,
铝合金锭化学成份 ALUMINUM ALLOY INGOT CHEMICAL COMPOSITION(%)
ASTM B85-96 A356.1 A356.2 A360 A360.1 A380.0 A380.1 A383 A413.1 A413.2 (Cu )铜 0.25Max 0.10Max 0.60Max 0.60Max 3.0-4.0 3.0-4.0 2.0-3.0 1.00Max 0.10Max (Si)硅 6.5-7.5 6.5-7.5 9.0-10.0 9.0-10.0 7.5-9.5 7.5-9.5 9.5-11.5 11.0-13.0 (Mg)镁 0.25-0.45 0.30-0.45 0.4-0.6 0.45-0.6 0.30Max 0.10Max 0.10Max 0.10Max 0.05Max (Zn)锌 0.35Max 0.05Max 0.50Max 0.40Max 3.00Max 2.90Max 3.00Max 0.40Max 0.05Max (Fe)铁 0.50Max 0.12Max 1.30Max 1.00Max 1.30Max 1.00Max 1.30Max 1.00Max 0.60Max (Mn)锰 0.35Max 0.05Max 0.35Max 0.35Max 0.50Max 0.50Max 0.50Max 0.35Max 0.05Max (Ni )镍 0.50Max 0.50Max 0.50Max 0.50Max 0.30Max 0.50Max 0.05Max

铝合金常用材料对照表

铝合金常用材料对照表

5356

6063A

7022

5456

6070
原LD2-2
7050

5082

6181

7075

5182

6082

7475

5083
原LF4
7A01
原LB1
8A06
原L6
5183

7A03
原LC3
8011
曾用LT98
5086

7A04
原LC4
8090

6A02
原LD2
7A05
曾用705


代 号
名 称
说 明 与 应 用
F
自由加工状态
适用于在成型过程中,对于加工硬化和热处理条件无特殊要求的
产品,该状态产品的力学性能不作规定
O
退火状态
适用于经完全退火获得最低强度的加工产品
H
加工硬化状态
适用于通过加工硬化提高强度的产品,产品在加工硬化后可经过
(也可不经过)使强度有所降低的附加热处理
H代号后面必须根有两位或三位阿拉伯数字
2124
2024
2024
AlCuMg2
D16AVTV
2B16
2319
锻铝
2A80
2N01
AK4
2A90
2218
2018
AK2
2A14
2014
2014
2014
AlCuSiMn
AK8
超硬铝
7A09
7175
7075
7075
AlZnMgCu1.5

(完整word版)铝合金牌号对照

(完整word版)铝合金牌号对照

国内外常用铝及铝合金牌号对照表新旧铝合金材料对比美国标准ASTMB85-96铝合金GB/T 15115-94欧盟标准EN1706:1998合金系 ALLOY SYSTEM 状态 TEMPERL 铝 R 热加工状态 LF 防锈铝合金 (Ai-Mg 、Ai-Mn ), M--退火状态,L Y 硬铝合金 (Ai-Cu-Mg ) Y--加工硬化状态 LC--超硬铝合金 (Ai-Cu-Mg-Zn ) C--淬火状态 LD--锻铝合金 (Ai-Mg-Si&Cu-Mg-Si ) CZ--淬火、自然时效状态 LT--特殊铝合金 CZY--淬火、自然时效,冷作状态 -CS-- 淬火、人工时效状态-CSY--淬火、人工时效,冷作状态 -Y2--半硬状态 -RCS (T5)--风冷、人工时效状态(GB/T16475-1996) 基础状态代号、名称及说明与应用代号名称说明与应用F 自由加工状态 适用于在成型过程中,对于加工硬化和热处理条件无特殊要求的产品,该状态产品的力学性能不作规定 O 退火状态 适用于经完全退火获得最低强度的加工产品 H 加工硬化状态 适用于通过加工硬化提高强度的产品,产品在加工硬化后可经过(也可不经过)使强度有所降低的附加热处理H代号后面必须跟有两位或三位阿拉伯数字W 固溶热处理状态一种不稳定状态,仅适用于经固溶热处理后,室温下自然时效的合金,该状态代号仅表示产品处于自然时效阶段T 热处理状态(不同于F、O、H)适用于热处理后,经过(或不经过)加工硬化达到稳定状态的产品T代号后面必须跟有一个或多位阿拉伯数字HXY 细分状态代号与加工硬化程度细分状态代号加工硬化程度HX1 抗拉强度极限为O与HX2状态的中间值HX2 抗拉强度极限为O与HX4状态的中间值HX3 抗拉强度极限为HX2与HX4状态的中间值HX4 抗拉强度极限为O与HX8状态的中间值HX5 抗拉强度极限为HX4与HX6状态的中间值HX6 抗拉强度极限为HX4与HX8状态的中间值HX7 抗拉强度极限为HX6与HX8状态的中间值HX8 硬状态HX9 超硬状态、最小抗拉强度极限制超过HX8状态至少10兆帕注:当按上表确定的HX1~HX9状态的抗拉强度极限值,不是0或5结尾时,应修约至以0或5结尾的相邻较大值。

国内外常用铝及铝合金牌号对照表

国内外常用铝及铝合金牌号对照表

国内外常用铝及铝合金牌号对照表类中国美国英国日本法国德国前苏联别GB ASTM BS JIS NF DIN ГОСТ工1A99 1199 A199.99R A99业1A97 A199.98R A97纯1A95 A95铝1A80 1080(1A) 1080 1080A A199.90 A8 1A50 1050 1050(1B) 1050 1050A A199.50 A5防5A02 5052 NS4 5052 5052 A1Mg2.5 Amg锈5A03 NS5 AMg3 铝5A05 5056 NB6 5056 A1Mg5 AMg5V 5A30 5456 NG61 5556 59572A01 2036 2117 2117 AlCu2.5Mg0.5 D18硬2A11 HF15 2017 2017S AlCuMg1 D1铝2A12 2124 2024 2024 AlCuMg2 D16AVTV 2B16 2319锻2A80 2N01 AK4 2A90 2218 2018 AK2铝2A14 2014 2014 2014 AlCuSiMn AK8超硬铝7A09 7175 7075 7075 AlZnMgCu1.5 V95P ZAlSi7Mn 356.2 LM25 AC4C G-AlSi7Mg铸ZAlSi12 413.2 LM6 AC3A A-S12-Y4 G-Al12 AL2造ZAlSi5Cu1Mg 355.2 AL5铝ZAlSi2Cu2Mg1 413.0 AC8A G-Al12(Cu)合ZAlCu5Mn AL19 金ZAlCu5MnCdVA 201.0ZAlMg10 520.2 LM10 AG11 G-AlMg10 AL8ZAlMg5Si G-AlMg5Si AL13中、美常用铝合金牌号对照表中国CHINA美国THE UNITED STATESL1-L6 、L5-11070 、1060 、1050 、1030 、1100LY11 、LY12 、LY12017 、2024 、2117LD10 、LD52014 、2214LD72618LD9 、LD82018 、2218LY16 、LY172219 、2021LF213003LF2 、LF3 、LF45052 、5154 、5083LF5 、LF11 、LF6 、LF5-15456 、5056LD2 、LD2-1 、LD2-2 、LD30 、LD316165 、6061 、6055 、6063LC6 、LC4 、LC97001 、7178 、7075LC5 、LC107076 、7175 、7079LD114032变形铝及铝合金牌号对照表中国(GB) 国际(ISO)美国(AA)日本(JIS)原苏联(ΓOCT)德国(DIN)英国(BS)法国(NF)LG5 - 1199 1N99 AB000 Al99.98R S1 - LG2 - 1090 1N90 AB1 Al99.9 - - LG1 Al99.8 1080 A1080 AB2 Al99.8 1A -L1 Al99.7 1070 A1070 A00 Al99.7 - 1070A L2 - 1060 A1060 A0 - - -L3 Al99.5 1050 - A1 Al99.5 1B 1050A L5-1 Al99.0 1100 A1100 A2 Al99.0 3L54 1100 L5 - 1200 A1200 - Al99 1C 1200 LF2 AlMg2.5 5052 A5052 AMr AlMg2.5 N4 5052 LF3 AlMg3 5154 A5154 AMr3 AlMg3 N5 - LF4 AlMg4.5Mn0.7 5038 A5038 AMr4 AlMg4.5Mn N8 5083 LF5-1 AlMg5 5056 A5056 - AlMg5 N6 - LF5 AlMg5Mn0.4 5456 - Amr5 - N61 - LF21 AlMn1Cu 3003 A3003 AMu AlMnCu N3 3003 LD2 - 6165 A6165 AB - - - LD7 AlCu2MgNi 2618 2N01 AK4 - H16 2618A LD9 - 2018 A2018 AK2 - - - LD10 AlCu4SiMg 2014 A2014 AK8 AlCuSiMg - 2014 LD11 - 4032 A4032 AK9 - 38S 4032 LD30 AlMg1SiCu 6061 A6061 AΠ33AlMg1SiCu H20 6061 LD31 AlMg0.7Si 6063 A6063 AΠ31AlMgSi0.5 H19 - LY1 AlCu2.5Mg 2217 A2217 AΠ18AlCu2.5Mg0.5 3L86 - LY11 AlCu4MgSi 2017 A2017 AΠ1AlCuMg1 H15 2017A LY12 AlCu4Mg1 2024 A2024 AΠ16AlCuMg2 GB-24S 2024 LC3 AlZn7MgCu 7174 - B94 - - - LC9 AlZn5.5MgCu 7075 A7075 - AlZnMgCu1.5 L95 7075 LC10 - 7079 7N11 - AlZnMgCu0.5 - - LT1 AlSi5 4043 A4043 AK AlSi5 N21 - LT17 AlSi12 4047 A4047 - AlSi12 N2 - LB1 - 7072 A7072 - SlZn1 - -中国新旧合金牌号对照表(GB/T 3190-1996)新牌号旧牌号新牌号旧牌号新牌号旧牌号1A99 原LG52B12原LY93003-1A97 原LG42A13原LY133103-1A95 -2A14原LD103004-1A93 原LG32A16原LY163005-1A90 原LG22B16曾用Ly16-13105-1A85 原LG12A17原LY17 4A01原LT1 1080 -2A20 曾用LY20 4A11 原LD11 1080A -2A21 曾用214 4A13 原LT13 1070 -2A25 曾用225 4A17 原LT17 1070A 代L1 2A49 曾用149 4004 -1370 -2A50 原LD5 4032 -1060 代L2 2B50 原LD6 4043 -1050 -2A70 原LD7 4043A -1050A 代L3 2B70 曾用LD7-1 4047 -1A50 原LB2 2A80 原LD8 4047A -1350 -2A90 原LD9 5A01 曾用2101、LF15 1145 -2004 -5A02 原LF2 1035 代L4 2011 -5A03 原LF3 1A30 原L4-1 2014 -5A05 原LF5 1100 代LF5-1 2014A -5B05 原LF10 1200 代L5 2214 -5A06 原LF6 1235 -2017 -5B06 原LF14 2A01 原LY1 2017A -5A12 原LF12 2A02 原LY2 2117 -5A13 原LF13 2A04 原LY4 2218 -5A30 曾用2103、LF16 2A06 原LY6 2618 -5A33 原LF33 2A10 原LY10 2219 曾用LY19、147 5A41 原LT41 2A11 原LY11 2024 -5A43 原LF43 2B11 原LY8 2124 -5A66 原LT66 2A12 原LY12 3A21 原LF21 5005 -5019 -6B02 原LD2-1 7A09 原LC9 5050 -6A51 曾用651 7A10 原LC10 5251 -6101 -7A15 曾用LC15、157 5052 -6101A -7A19 曾用919、LC19 5154 -6005 -7A31 曾用183-1 5154A -6005A -7A33 曾用LB733 5454 -6351 -7A52 曾用LC52、5210 5554 -6060 -7003 原LC12 5754 -6061 原LD30 7005 -5056 原LF5-1 6063 原LD31 7020 -5356 -6063A -7022 -5456 -6070 原LD2-2 7050 -5082 -6181 -7075 -5182 -6082 -7475 -5083 原LF4 7A01 原LB1 8A06 原L6 5183 -7A03 原LC3 8011 曾用LT985086 -7A04 原LC4 8090 -6A02 原LD2 7A05 曾用705 --注意:(1)“原”是指化学成分与新牌号等同,且都符合GB3190-82规定的旧牌号。

铝材料对照表

铝材料对照表

材料对照表(铝及铝合金)(铝压铸散热器压铸铝散热器压铸变速器外壳)铝及铝合金其它金属材料相比,具有以下一些特点:1、密度小铝及铝合金的密度接近2.7g/,约为铁或铜的1/3。

2、强度高铝及铝合金的强度高。

经过一定程度的冷加工可强化基体强度,部分牌号的铝合金还可以通过热处理进行强化处理。

3、导电导热性好铝的导电导热性能仅次于银、铜和金。

4、耐蚀性好铝的表面易自然生产一层致密牢固的AL2O3保护膜,能很好的保护基体不受腐蚀。

通过人工阳极氧化和着色,可获得良好铸造性能的铸造铝合金或加工塑性好的变形铝合金。

5、易加工添加一定的合金元素后,可获得良好铸造性能的铸造铝合金或加工塑性好的变形铝合金。

类别中国美国英国日本法国德国前苏联GB ASTM BS JIS NF DINГОСТ工业纯铝1A991199A199.99R A99 1A97A199.98R A97 1A95A95 1A801080(1A)10801080A A199.90A8 1A5010501050(1B)10501050A A199.50A5防锈铝5A025052NS450525052A1Mg2.5Amg 5A03NS5AMg3 5A055056NB65056A1Mg5AMg5V常见压铸模具生产问题及分析压铸过程中金属液往外溅产生原因 1. 动,定模间合模不严密,间隙较大 2. 锁模力不够 3. 压铸机动,定模安装板不平行 4. 支板跨度大,压射力致使套板变形,产生喷料。

调整方法 1.重新安装模具 2.加大锁模力 3.调整压铸机,使动,定模安装板相互保持平行 4.在动模上增加支板,增加套板的刚度。

影响压射头使用寿命的因素,主要因素有:1.压射头本身的材料、质量;2.压射头与压射料筒之间的配合间隙;3.模具安装时与压射料筒的同心度;4.冷却问题;5.选用优质压射头润滑油等。

缺陷名:产品表面起皱(一)症状:产品表面形成的不规则褶皱,主要出现在壁较薄的前段部分,如图1所示。

铝合金成分对照表(完整)

铝合金成分对照表(完整)
0.15 余量 0.15 余量 0.15 余量
0.15 余量 0.15 余量 0.15 余量
0.20
AlMn0.5Mg0.5 3.0505 0.6
0.7
0.3 0.30-0.8 0.20-0.8 0.2
0.4 —

0.05
AlMn1Mg0.5 3.0525 0.6
0.7
0.3 1.0-1.5 0.20-0.6 0.1
0.25 0.1

0.05
AlMn1Mg1 3.0526 0.3
0.7 0.25 1.0-1.5 0.8-1.3
0.4
0.1 0.40-1.0 4.0-4.9 0.05-0.25 0.25 0.15

0.05
AlMg5Mn 3.3549 0.2
0.35 0.15 0.20- 4.0-5.0
0.1
0.25 0.1

0.05
0.50
AlMn1
3.0515 0.5
0.7
0.1 0.9-1.5 0.3
0.1
0.2 0.1

0.05
AlMg5
3.3555 0.4
0.5
0.1 0.10-0.6 4.5-5.6 0.2
0.2 0.2
(Mn+Cr)0.10-0.6
0.05
AlMg2Mn0.3 3.3525 0.4
0.5 0.15 0.10- 1.7-2.4 0.15 0.15 0.15

0.05
0.50
AlMg2Mn0.8 3.3527 0.4 0.55 0.1 0.50-1.1 1.6-2.5 0.3
0.4 —

0.05
AlMn1Mg0.5 3.0525 0.6

铝合金新老牌号对照表

铝合金新老牌号对照表

一:中、美常用铝合金牌号对照表中国CHINA 美国THE UNITED STATESL1-L6 、L5-1 1070 、1060 、1050 、1030 、1100 LY11 、LY12 2017 、2024 、2117 LD10 、LD5 2014 、2214LD7 2618LD9 、LD8 2018 、2218LY16 、LY17 2219 、2021LF21 3003LF2 、LF3 、LF4 5052 、5154 、5083 LF5 、LF11 、LF6 、LF5-1 5456 、5056LD2 、LD2-1 、LD2-2 、LD30 、LD31 6165 、6061 6055 ,6063 LC6 、LC4 、LC9 7001 、7178 、7075 LC5 、LC10 7076 、7175 、7079 LD11 4032二:中国新旧合金牌号对照表(GB/T 3190-1996)新牌号旧牌号新牌号旧牌号新牌号旧牌号1A99 原LG5 2B12 原LY9 3003 -1A97 原LG4 2A13 原LY13 3103 -1A95 -2A14 原LD10 3004 -1A93 原LG3 2A16 原LY16 3005 -1A90 原LG2 2B16 曾用Ly16-1 3105 -1A85 原LG1 2A17 原LY17 4A01 原LT1 1080 -2A20 曾用LY20 4A11 原LD11 1080A -2A21 曾用214 4A13 原LT13 1070 - 2A25 曾用225 4A17 原LT171070A 代L1 2A49 曾用149 4004 -1370 -2A50 原LD5 4032 -1060 代L2 2B50 原LD6 4043 -1050 -2A70 原LD7 4043A -1050A 代L3 2B70 曾用LD7-1 4047 -1A50 原LB2 2A80 原LD8 4047A -1350 -2A90 原LD9 5A01 曾用2101、LF151145 - 2004 -5A02 原LF2 1035 代L4 2011 -5A03 原LF31A30 原L4-1 2014 -5A05 原LF5 1100 代L5-1 2014A -5B05 原LF10 1200 代L5 2214 - 5A06 原LF6 1235 -2017 -5B06 原LF142A01 原LY1 2017A -5A12 原LF122A02 原LY2 2117 -5A13 原LF132A04 原LY4 2218 -5A30 曾用2103、LF162A06 原LY6 2618 -5A33 原LF332A10 原LY10 2219 曾用LY19、147 5A41 原LT412A11 原LY11 2024 -5A43 原LF432B11 原LY8 2124 - 5A66 原LT662A12 原LY12 3A21 原LF21 5005 -5019 - 6B02 原LD2-1 7A09 原LC9 5050 -6A51 曾用651 7A10 原LC10 5251 -6101 -7A15 曾用LC15、1575052 -6101A -7A19 曾用919、LC195154 -6005 -7A31 曾用183-1 5154A - 6005A -7A33 曾用LB7335454 -6351 - 7A52 曾用LC52、52105554 -6060 - 7003 原LC12 5754 -6061 原LD30 7005 -5056 原LF5-1 6063 原LD31 7020 -5356 - 6063A -7022 -5456 - 6070 原LD2-2 7050 -5082 - 6181 -7075 -5182 -6082 - 7475 -5083 原LF4 7A01 原LB1 8A06 原L6 5183 -7A03 原LC3 8011 曾用LT98 5086 -7A04 原LC4 8090 -6A02 原LD2 7A05 曾用705注意:(1)“原”是指化学成分与新牌号等同,且都符合GB3190-82规定的旧牌号。

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