SAE J 466-1989 Magnesium Wrought Alloys《锻造镁合金》.pdf

1、SAE Technical Standards Board Rules provide that: “This report is published by SAE to advance the state of technical and engineering sciences. The use of this report is entirelyvoluntary, and its applicability and suitability for any particular use, including any patent infringement arising therefro

2、m, is the sole responsibility of the user.”SAE reviews each technical report at least every five years at which time it may be reaffirmed, revised, or cancelled. SAE invites your written comments and suggestions.QUESTIONS REGARDING THIS DOCUMENT: (412) 772-8512 FAX: (412) 776-0243TO PLACE A DOCUMENT

3、 ORDER; (412) 776-4970 FAX: (412) 776-0790SAE WEB ADDRESS http:/www.sae.orgCopyright 1989 Society of Automotive Engineers, Inc.All rights reserved. Printed in U.S.A.SURFACEVEHICLE400 Commonwealth Drive, Warrendale, PA 15096-0001STANDARDSubmitted for recognition as an American National StandardJ466RE

4、AF.DEC89Issued 1940-01Reaffirmed 1989-12Superceding J466 JAN89MAGNESIUM WROUGHT ALLOYSForewordThis Document has not changed other than to put it into the new SAE Technical Standards BoardFormat.1. ScopeThis SAE Standard covers the most common magnesium alloys used in wrought forms, and listschemical

5、 composition and minimum mechanical properties for the various forms. A general indication of theusage of the various materials is also provided.1.1 IntroductionMagnesium wrought alloys are produced and fabricated by all the common productionmethods such as rolling, extrusion, and forging. Forms ava

6、ilable are sheet, plate, wire, rod, bar, shapes,tubes, forgings, and impact extrusions. Magnesium alloys can be formed by bending, drawing, spinning, andpressing. The work is generally done hot except for simple operations. When done hot, magnesium alloyshave exceptional workability. The temperature

7、 used varies from 300750F (149399C), depending onoperation, alloy, and condition. All of the wrought alloys can be joined by adhesive bonding, spot welding,riveting, and bolting. Most of them are readily fusion welded and some do not require stress relief afterwelding. As with the cast alloys, all w

8、rought alloys machine readily.The temper designations used for wrought magnesium are similar to those used for aluminum alloys. Temperdesignations are covered by ASTM B 296-67 (1972), Recommended Practice for Temper Designations ofMagnesium Alloys, Cast and Wrought. Mechanical properties are obtaine

9、d by standard ASTM procedures.The tensile and compressive yield strength is taken at an offset of 0.2% from the initial modulus line.Table 1 lists similar ASTM, AMS, Military, and Federal specifications covering the SAE wrought alloys in thisSAE Standard.SAE J466 Reaffirmed DEC89-2-2. References2.1

10、Applicable PublicationsThis Document has not changed other than to put it into the new SAE TechnicalStandards Board Format.2.1.1 ASTM PUBLICATIONSAvailable from ASTM, 100 Barr Harbor Drive, West Conshohocken, PA 19428-2959ASTM B 90-70Specification for Magnesium-Alloy Sheet and PlateASTM B 107-70Spec

11、ification for Magnesium-Alloy Extruded Bars, Rods, Shapes, Tubes, and WireASTM B 296Recommended Practice for Temper Designations of Magnesium Alloys, Cast and WroughtTABLE 1SIMILAR SPECIFICATIONS OF MAGNESIUM WROUGHT ALLOYSAlloy DesignationForm ASTM AMSMilitaryorFederalUNSASTMandSAEOldSAEM11311 AZ31

12、B 510 Sheet and plate B90 4375, 4376, 4377 QQ-M-44Bar, rod, shapes B107 QQ-M-31Tube B107 WW-T-825Forgings B91 QQ-M-40M11610 AZ61A 520 Bar, rod, shapes B107 4350 QQ-M-31Tube B107 4350 WW-T-825Wire (welding rod) Mil-R-6944Forgings B91 4358(1)1. Noncurrent specifications.QQ-M-40M11800 AZ80A 523 Bar, ro

13、d, shapes B107 QQ-M-31Forgings B91 4360(1) QQ-M-40M14141 LA141A Sheet and plate B90 M13310 HK31A 507 Sheet and plate B90 4384, 4385 Mil-M-26075M13210 HM21A Sheet and plate B90 4383, 4390 Mil-M-8917Forgings 4363 QQ-M-40M13312 HM31A Bar, rod, shapes 4388, 4389 Mil-M-8916M15100 M1A 522 Bar, rod, shapes

14、 B107 QQ-M-31Forgings QQ-M-40M16100 ZE10A 534 Sheet and plate B90 Mil-M-46037M16400 ZK40A Bar, rod, shapes B107 M16600 ZK60A 524 Bar, rod, shapes B107 4352 QQ-M-31Tube B107 4352 WW-T-825Forgings B91 4362 QQ-M-40SAE J466 Reaffirmed DEC89-3-3. Sheet And Plate:3.1 IntroductionMagnesium alloy sheet is r

15、olled to a thickness of 0.006-0.249 in (0.15-6.32 mm). Plate is0.250in (6.35 mm) or over in thickness. Dimensional tolerances used are the same as for aluminum alloys andare given in the current issue of ASTM B 90-70.Magnesium sheet and plate is flattened thermally and can be obtained commercially,

16、with smaller flatnesstolerances than for most other metals. One grade of specially flattened plate is used extensively as toolingplate. The annealed condition (0) is used for maximum formability and ductility. The cold rolled and partiallyannealed condition (H24) has better strength and less ductili

17、ty than the 0 temper. Tensile properties of thesheet and alloys covered by this standard are given in Table 3 and the chemical composition limits are given inTable 2.TABLE 2COMPOSITION OF WROUGHT MAGNESIUM ALLOYSAlloy Designation Elements, weight %UNSASTMandSAEOldSAE AlMnmin Zn ZrRareEarths ThCa,max

18、Cu,maxFe,maxNa,maxNi,maxSi,maxTotal OtherElements,maxM11311 AZ31B 510 2.53.5 0.20 0.61.4 0.04 0.05 0.005 0.005 0.10 0.30M11610 AZ61A 520 5.87.2 0.15 0.401.5 0.05 0.005 0.005 0.10 0.30M11800 AZ80A 523 7.89.2 0.12 0.200.8 0.05 0.005 0.005 0.10 0.30M13310 HK31A 507 0.30 max 0.401.0 2.54.0 0.10 0.01 0.3

19、0M13210 HM21A 0.451.1 1.52.5 0.30M13312 HM31A 1.2 2.53.5 0.30M14141(1)1. LA141 contains 1315% LI.LA141A 1.01.5 0.15 0.04 0.005 0.005 0.005 0.10 0.30M15100 M1A 522 1.2 0.30 0.05 0.01 0.10 0.30M16100 ZE10A 534 1.01.5 0.120.22(2)2. Rare earth elements are in the form of mischmetal. 0.30M16400 ZK40A 3.5

20、4.5 0.45 min 0.30M16600 ZK60A 524 4.86.2 0.45 min 0.30SAE J466 Reaffirmed DEC89-4-3.2 General DataAlloy M11311 is the most commonly used of the sheet alloys and is available in either theannealed (0) or cold rolled and partially annealed (H24 and H26) conditions. M11311 alloy can be formedand welded

21、 readily. It has found widespread use. Applications most familiar in the automotive field would beits use in truck bodies, ramps, and dockboards and the various places such as patterns, jigs, and fixtures inwhich tooling plate has been used.TABLE 3MINIMUM MECHANICAL PROPERTIES OF MAGNESIUM ALLOY SHE

22、ET AND PLATEAlloy DesignationTemperThicknessin (mm)Tensile Strengthpsi (MPa)Yield Strength0.2% Offset,psi (MPa)Elongation in2 in (50.8 mm),%UNSASTMandSAEOldSAEM11311 AZ31B 510 0 0.0160.250 (0.4112.70) 32 000 (221)(1)1. Maximum tensile strength shall be 40 000 psi (276 MPa). 120.2512.000 (12.7350.80)

23、 32 000 (221)(1) 102.0013.000 (50.8376.20) 32 000 (221)(1) 9H24 0.0160.249 (0.416.32) 39 000 (269) 29 000 (200) 60.374 (6.359.50) 38 000 (262) 26 000 (179) 80.500 (9.5212.70) 37 000 (255) 24 000 (165) 80.5011.000 (12.7325.40) 36 000 (248) 22 900 (152) 81.0012.000 (25.4350.80) 34 000 (234) 20 000 (13

24、8) 82.0013.000 (50.8376.20) 34 000 (234) 18 000 (124) 8H26 0.2500.374 (6.359.50) 39 000 (269) 27 000 (186) 60.500 (9.5212.70) 38 000 (262) 26 000 (179) 60.5010.750 (12.7319.05) 37 000 (255) 25 000 (172) 60.7511.000 (19.0825.40) 37 000 (255) 23 000 (159) 61.0011.500 (25.4338.10) 35 000 (241) 22 000 (

25、152) 61.5012.000 (38.1350.80) 35 000 (241) 21 000 (145) 6M13310 HK31A 507 0 0.0160.250 (0.416.35) 30 000 (207)(2)2. Maximum tensile strength shall be 38 000 psi (262 MPa). 120.2510.500 (6.3812.70) 30 000 (207) 16 000 (110) 120.5011.000 (12.7325.40) 30 000 (207) 15 000 (103) 121.0013.000 (25.4376.20)

26、 29 000 (200) 14 000 (97) 12H24 0.0160.125 (0.413.18) 34 000 (234) 26 000 (179) 40.1260.250 (3.206.35) 34 000 (234) 24 000 (165) 40.2511.000 (6.3825.40) 34 000 (234) 23 000 (159) 41.0013.000 (25.4376.20) 33 000 (228) 23 000 (159) 4M13210 HM21A T8 0.0160.250 (0.416.35) 33 000 (228) 18 000 (124) 60.25

27、10.500 (6.3812.70) 32 000 (221) 21 000 (145) 60.5013.000 (12.7376.20) 30 000 (207) 21 000 (145) 6M14141 LA141A T7 0.0100.090 (0.252.29) 19 000 (131) 15 000 (103) 100.0910.250 (2.316.35) 19 000 (131) 14 000 (97) 100.2512.000 (6.3850.80) 18 000 (124) 13 000 (90) 10M16100 ZE10A 534 -0 0.0160.060 (0.411

28、.52) 30 000 (207) 18 000 (124) 150.0610.250 (1.556.35) 30 000 (207) 15 000 (103) 150.2510.500 (6.3812.70) 29 000 (200) 12 000 (83) 12H24 0.0160.125 (0.413.18) 36 000 (248) 25 000 (172) 40.1260.188 (3.204.78) 34 000 (234) 22 000 (152) 40.1890.250 (4.806.35) 31 000 (214) 20 000 (138) 4SAE J466 Reaffir

29、med DEC89-5-M16100 is not as strong as M11311. It has good formability and excellent weldability and does not requirestress relieving after welding. It is used in place of M11311 primarily in tanks and large structures where stressrelieving would be a problem. It is available in either the annealed

30、(0) or cold rolled and partially annealed(H24) conditions.M13310 was developed primarily for elevated temperature use in the 300700 F (149371 C) range. It ismore costly than M11311 and M16100. M13310 alloy has excellent weldability and good formability. It isavailable in either the annealed (0) or c

31、old rolled and partially annealed (H24) conditions. It has been usedprimarily in aircraft and missiles. M13210 was also developed for elevated temperature use in aircraft,missiles, and electronics.M14141, containing 14% Li, is the only magnesium alloy with a body-centered cubic rather than hexagonal

32、-close-packed crystal structure. It was developed as a very ductile and highly formable alloy.4. Extrusions4.1 IntroductionMagnesium alloys in general are extruded to size without subsequent drawing operations.Some sizing or shaving has been used to get better tolerances than can be obtained by extr

33、usion. Wire, rod,bar, tubes, and special shaped sections are produced as extrusions. Dimensional tolerances on the variousforms are given in the current issue of ASTM B 107-70.Magnesium alloys produced as extrusions are available in the as-extruded (F) condition. In some alloys anincrease in strengt

34、h is obtained by artificial aging to the extruded and aged (T5) condition. Minimummechanical properties of the SAE extrusion alloys are shown in Table 4. The chemical composition of the SAEalloys used for extrusions is given in Table 2.TABLE 4MINIMUM MECHANICAL PROPERTIES OF MAGNESIUM ALLOY EXTRUSIO

35、NSAlloy DesignationFormDia or Thickness,in (mm)Cross Sectional Area,in2 (cm2)Minimum PropertiesUNSASTMandSAEOldSAE TemperTensile Strength,psi (MPa)Yield Strength0.2% Offset,psi (MPa)Elongation in2 in (50.8mm),%M11311 AZ31B 510 F Bars, rods, shapes0.249 (6.32) and under All 35 000 (241) 21 000 (145)

36、70.2501.499 (6.3538.07) All 35 000 (241) 22 000 (152) 71.5002.499 (38.1063.47)All 34 000 (234) 22 000 (152) 72.5004.999 (63.50126.97)All 32 000 (221) 20 000 (138) 7Hollow shapes All All 32 000 (221) 16 000 (110) 8Tubes 0.0280.250 (0.716.35) 6.000 (38.71) and under32 000 (221) 16 000 (110) 80.2512.49

37、9 (6.3863.47) 6.000 (38.71) and under32 000 (221) 16 000 (110) 4M11610 AZ61A 520 F Bars, rods, shapes0.249 (6.32) and under All 38 000 (262) 21 000 (145) 80.2502.499 (6.3563.47) All 39 000 (269) 24 000 (165) 92.5004.999 (63.50126.97)All 40 000 (276) 22 000 (152) 7Hollow shapes All All 36 000 (248) 1

38、6 000 (110) 7Tubes 0.0280.750 (0.7119.05) 6.000 (38.71) and under36 000 (248) 16 000 (110) 7SAE J466 Reaffirmed DEC89-6-4.2 General DataM11311, M11610, and M11800 contain aluminum and zinc as the principal alloying elements.M11311-F has moderate strength, good ductility, and good weldability. It is

39、used where maximum strength isnot a requirement. M11610-F has slightly better strength than M11311 but less than M11800. It has beensupplanted to a large degree by the higher strength alloys, although still widely used as welding wire. M11800has the highest strength of these three alloys. Low ductil

40、ity has caused it to be replaced largely by M16600.Alloy M11800 is not as weldable as M11311 and M11610, which have excellent welding characteristics.M11311 has been used in truck bodies, ramps, and docks, and with tooling plate in making jigs and fixtures.M11800 AZ80A 523 F Bars, rods, shapes0.249

41、(6.32) and under All 43 000 (296) 28 000 (193) 90.2501.499 (6.3538.07) All 43 000 (296) 28 000 (193) 81.5002.499 (38.1063.47)All 43 000 (296) 28 000 (193) 62.5004.999 (63.50126.97)All 42 000 (290) 27 000 (186) 4T5 Bars, rods, shapes0.249 (6.32) and under All 47 000 (324) 30 000 (207) 40.2502.499 (6.

42、3563.47) All 48 000 (331) 33 000 (228) 42.5004.999 (63.50126.97) All 45 000 (310) 30 000 (207) 2M13312 HM31A T5 Bars, rods, shapesUnder 1.000 (25.40) All 37 000 (255) 26 000 (179) 41.0003.999 (25.40101.57)All 37 000 (255) 26 000 (179) 4M15100 M1A 522 F Bars, rods, shapes0.249 (6.32) and under All 30

43、 000 (207) (1) 20.2501.499 (6.3538.07) All 32 000 (221) (1) 31.5004.999 (38.10126.97)All 29 000 (200) (1) 2Hollow shapes All All 28 000 (193) (1) 2Tubes 0.0280.750 (0.7119.05) 6.000 (38.71) and under28 000 (193) (1) 2M16400 ZK40A T5 Bars, rods, shapes, and wiresAll 4.999 (32.25) and under40 000 (276

44、) 37 000 (255) 4Hollow shapes All All 40 000 (276) 37 000 (255) 4Tubes 0.0620.500 (1.5712.70) 3.000 (19.35) and under40 000 (276) 36 000 (248) 4M16600 ZK60A 523 F Bars, rods, shapesAll 4.999 (32.25) and under43 000 (296) 31 000 (214) 4Hollow shapes All All 40 000 (276) 28 000 (193) 5Tubes 0.0280.750

45、 (0.7119.05) 3.000 (19.35) and under40 000 (276) 28 000 (193) 5524 T5 Bars, rods, shapesAll 4.999 (32.25) and under45 000 (310) 36 000 (248) 4Hollow shapes All All 46 000 (317) 38 000 (262) 4Tubes 0.0280.250 (0.716.35) 3.000 (19.35) and under46 000 (317) 38 000 (262) 41. Not required.TABLE 4MINIMUM

46、MECHANICAL PROPERTIES OF MAGNESIUM ALLOY EXTRUSIONS (CONTINUED)Alloy DesignationFormDia or Thickness,in (mm)Cross Sectional Area,in2 (cm2)Minimum PropertiesUNSASTMandSAEOldSAE TemperTensile Strength,psi (MPa)Yield Strength0.2% Offset,psi (MPa)Elongation in2 in (50.8mm),%SAE J466 Reaffirmed DEC89-7-M

47、15100 has excellent weldability and good corrosion resistance. It is a low strength alloy with good ductility. Ithas been replaced for most applications by M11311.M16600 combines high strength with good ductility and toughness. However, it has limited weldability.M16600 costs more than M11311, M1661

48、0, M11800, and M15100. It has been used primarily in militaryapplications and aircraft. M13312 alloy was developed for use at elevated temperatures in the range of 300800F (149427C). M16400 possesses high yield strength and has better extrusion characteristics thanM16610.5. Forgings5.1 IntroductionMagnesium alloys are available as both hammer forgings and press forgings. The strongeralloys are too tender at hot working temperature to stand the shock of hammer forging and must be workedslowly u