世界各国金属材料牌号对照汇总

以下是世界各国金属材料牌号对照汇总，仅供参考：

Q195 = GradeB = SS330 = SPHC = S185 = 1.0035

Q215 = GradeC = CSTypeB = SS330 = SPHC

Q235-A = GradeD = SS440 = S235JR = 1.0038

Q235-B = GradeD = SS440 = S235JO = 1.0114

Q235-C = GradeD = SS440 = S235J2 = 1.0117

Q235-D = SS440 = S235JR =1.0038

Q255-A = Grade 36[250] = SM400A = SS400

Q255-B = Grade 36[250] =SM400B

Q275 = SS Grade 40[275] = SS490 = s275JR =1.0044 = S275JO = 1.0143 = S275J2 = 1.0145 Q295A = Grade 42[290] = SPFC 490 = E295 = 1.0050

Q295B = Grade 42[290] = SPFC 490 = E295 = 1.0050

Q345A = Grade 50[345] = SPFC 590 = E335 = 1.0060

Q345B = Grade 50[345] = SPFC 590 = S355JR = 1.0045

Q345C = Grade 50[345] = SPFC 590 = S355JO = 1.0553

Q345D = Grade 50[345] = SPFC 590 = S355J2 = 1.0577

Q345E = Grade 50[345] = SPFC 590 = S355NL = 1.0546

Q390A = Grade 55[380] = STKT 540

Q390B = Grade 55[380] = STKT 540

Q390C = Grade 55[380] = STKT 540

Q390D = Grade 55[380]

Q390E = Grade 55[380]

Q420A = Grade 60[415] = SEV 295 =S420NL =1.8912 = S420ML = 1.8836

Q420B = Grade 60[415] = SEV 295 =S420NL =1.8912 = S420ML = 1.8836

Q420C = Grade 60[415] = SEV 295 =S420NL =1.8912 = S420ML = 1.8836

Q420D = Grade 60[415] = SEV 295 =S420NL =1.8912 = S420ML = 1.8836

Q420E = Grade 60[415] = SEV 295 =S420NL =1.8912 = S420ML = 1.8836

Q460C = Grade 65[450] = SM 570 = SMA 570W = SMA 570P = S460NL =1.8903 = S460ML = 1.8838

Q460D = Grade 65[450] = SM 570 = SMA 570W = SMA 570P = S460NL =1.8903 = S460ML = 1.8838

Q460E = Grade 65[450] = SM 570 = SMA 570W = SMA 570P = S460NL =1.8903 = S460ML = 1.8838

Q500D = SPFC 980Y = S500Q = 1.8924 = S500QL = 1.8903 = S500QL1 = 1.8984

Q500E = SPFC 980Y = S500Q = 1.8924 = S500QL = 1.8903 = S500QL1 = 1.8984

Q550D = Type8 Grade 80[550] = S550Q = 1.8904 = S550QL = 1.8926 = S550QL1 = 1.8987

Q550E = Type8 Grade 80[550] = S550Q = 1.8904 = S550QL = 1.8926 = S550QL1 = 1.8987

Q620D = S620Q = 1.8914 = S620QL = 1.8927 = S620QL1 = 1.8987

Q620E = S620Q = 1.8914 = S620QL = 1.8927 = S620QL1 = 1.8987

Q690D = 100[690]Type Q = 100W[690W]Type Q = SHY685 = S690Q = 1.8931 = S690QL = 1.8928 = S690QL1 = 1.8988

05F = 1005 = DC05 = 1.0312

08F = 1008 = SPHD = SPHE = DC01 = 1.0330

10F = 1010 = SPHD = SPHE = DC01 = 1.0330

15F = 1015 = S15C

08 = 1008 = SPHE = S10C = DC01 = 1.0330 = DC03 = 1.0347

08Al = 1008 = SPHE = S10C = DC01 = 1.0330 = DC03 = 1.0347 10 = 1010 = S10C = DC01 = 1.0330 = C10C = 1.0214

15 = 1015 = S15C = C15C = 1.0234

20 = 1020 = S20C = C22 = 1.0402 = C20C = 1.0411

25 = 1025 = S25C = C25 = 1.0406

30 = 1030 = S30C = C30 = 1.0528

35 = 1035 = S35C = C35 = 1.0501

40 = 1040 = S40C = C40 = 1.0511

45 = 1045 = S45C = C45 = 1.0503

50 = 1050 = S50C = C50 = 1.0540

55 = 1055 = S55C = C55 = 1.0535

60 = 1060 = S58C = C60 = 1.0601

65 = 1065 = SWRH67B = C66D = 1.0612

70 = 1070 = SWRH72A = SWRH72B = C70D = 1.0615

75 = 1075 = SWRH77A = SWRH77B = C76D = 1.0614

80 = 1080 = SWRH82A = SWRH82B = C80D = 1.0622

85 = 1084 = SWRH82A = SWRH82B = C86D = 1.0616

15Mn/A/E = 1016 = SWRCH16K https://www.sodocs.net/doc/e06457446.html,

20Mn/A/E = 1022 = SWRCH22K = C22 = 1.0402

25Mn/A/E = 1026 = SWRCH22K = C26D = 1.0415

30Mn/A/E = 1030 = SWRCH30K = C30 = 1.0528

35Mn/A/E = 1037 = SWRCH35K = C35 = 1.0501

40Mn/A/E = 1039 = SWRCH40K = C40 = 1.0511

45Mn/A/E = 1046 = SWRCH45K = C45 = 1.0503

50Mn/A/E = 1053 = SWRCH50K = C50 = 1.0540

60Mn/A/E = 1060 = SWRH62B = C60 = 1.0601

65Mn/A/E = 1566 = SWRH67B

70Mn/A/E = 1572 = SWRH72B

C3D2 = 1005

C5D2 = 1005 = 1006 = SWRM6 = C4D = 1.0300

C8D2 = 1008 = SWRM8 = C9D = 1.0304

C10D2 = 1010 = SWRM10 = C10D = 1.0310

C12D2 = 1012 = SWRM12 = C12D = 1.0311

C15D2 = 1015 = SWRM15 = C15D = 1.0413

C18D2 = 1017 = SWRM17 = C18D = 1.0416

C20D2 = 1020 = SWRM20 = C20D = 1.0414

C26D2 = 1025 = 1026 = SWRH27 = C26D = 1.0415 C32D2 = 1030 = SWRH32 = C32D = 1.0530

C36D2 = 1034 = SWRH37 = C38D = 1.0516

C38D2 = 1038 = SWRH37 = C38D = 1.0516

C40D2 = 1040 = SWRH37 = C42D = 1.0541

C42D2A = SWRH42A

C42D2 = 1042 = C42D = 1.0541

C42D2B = 1042 = SWRH42B

C46D2A = SWRH47A

C46D2 = 1045 = C48D = 1.0517

C46D2B = 1045 = SWRH47B

C48D2A = SWRH47A

C48D2 = 1049 = C48D = 1.0517

C48D2B = 1049 = SWRH47B

C50D2A = SWRH47A

C50D2 = 1050 = C50D = 1.0586

C50D2B = 1050 = 1053 = SWRH47B

C52D2A = SWRH52A

C52D2 = 1050 = C52D = 1.0588

C52D2B = 1050 =1053 = SWRH52B

C56D2A = SWRH52A = SWRH57A

C56D2 = 1055 = C56D = 1.0518

C56D2B = 1055 = SWRH52B = SWRH57B

C58D2A = SWRH57A

C58D2 = 1059 = C58D = 1.0609

C58D2B = 1059 =1060 = SWRH57B

C60D2A = SWRH57A

C60D2 = 1059 = C60D = 1.0610

C60D2B = 1059 = 1060 = SWRH57B = SWRH62B C62D2A = SWRS62A

C62D2 = 1064 = C62D = 1.0611

C62D2B = 1064 = 1065 = SWRS62B

C66D2A = SWRS67A

C66D2 = 1064 = C66D = 1.0612

C66D2B = 1065 = SWRS67B = C66D = 1.0612 C68D2A = SWRS67A

C68D2 = 1069 = C68D = 1.0613

C68D2B = 1070 = SWRS67B

C72D2A = SWRS72A

C72D2 = 1069 = C70D = 1.0615

C70D2B = 1070 = SWRS72B

C72D2A = SWRS72A

C72D2 = 1069 = C72D = 1.0617

C72D2B = 1070 = SWRS72B

C76D2A = 1078 = SWRS75A

C76D2 = 1075 = C76D = 1.0614

C76D2B = 1080 = SWRS75B

C78D2A = 1078 = SWRS77A

C78D2 = 1075 = C78D = 1.0620

C78D2B = 1080 = SWRS80B

C80D2A = 1078 = SWRS82A

C80D2 = 1075 = C80D = 1.0622

C82D2A = 1078 = SWRS82A

C82D2 = 1075 = C82D = 1.0626

C82D2B = 1080 = SWRS82B

C86D2A = 1086 = SWRS87A

C86D2 = C86D = 1.0616

C86D2B = 1085 = 1084 =SWRS87B

C88D2A = 1086 = SWRS87A

C88D2 = C88D = 1.0628

C88D2B = 1090 = SWRS87B

C92D2A = 1095 = SWRS92A

C92D2 = C92D = 1.0618

C92D2B = 1090 = SWRS92B

C98D2A = 1095

20Mn2/A = 1524 = SMn420

20Mn2E = 1524 = SMn420 = P355GH = 1.0473 30Mn2/A/E = 1330 = SMn433 = 28Mn6 = 1.1170 35Mn2/A/E = 1335 = SMn438

40Mn2/A/E = 1340 = SMn438

45Mn2/A/E = 1345 = SMnC443

40B/A/E = 1040

45B/A/E = 1045

50B/A/E = 1050

40MnB/A/E = 1541 = 37MnB5 = 1.5538

45MnB/A/E = 1547

15Cr/A/E = 5115 = SCr415 = 17Cr3 = 1.7016

20Cr/A/E = 5120 = SCr420 = 17Cr3 = 1.7016

30Cr/A/E = 5130 = SCr430 = 28Cr4 = 1.7030

35Cr/A/E = 5135 = SCr435 = 34Cr4 = 1.7033

40Cr/A/E = 5140 = SCr440 = 41Cr4 = 1.7035

45Cr/A/E = 5145 = SCr445

50Cr/A/E = 5150

15CrMo/A/E = SCM415 = 18CrMo4 = 1.7243

20CrMo/A/E = 4118 = SCM420 = 18CrMo4 = 1.7243 30CrMo/A/E = 4130 = SCM430 = 25CrMo4 = 1.7218 35CrMo/A/E = 4135 = SCM435 = 34CrMo4 = 1.7220 42CrMo/A/E = 4142 = SXM440 = 42CrMo4 = 1.7225 35CrMoV/A/E = 4135 = SCM435 = 34CrMo4 = 1.7220 50CrV/A/E = 6150 = SUP10 = 51CrV4 = 1.8159

15CrMn/A/E = 5115 = 16MnCr5 = 1.7131

20CrMn/A/E = 5120 = SMnC420 = 20MnCr5 = 1.7147 40CrMn/A/E = 5140 = 41Cr4 = 1.7035

20CrMnMo/A/E = SCM421

40CrMnMo/A/E = 4140 = SCM440 = 42CrMo4 = 1.7225 20CrNi/A/E = 4720 = 18NiCr5-4 = 1.5810

40CrNi/A/E = SNC236

12CrNi2/A/E = 4320 = SNC415 = 10NiCr5-4 = 1.5805

12CrNi3/A/E = E9310 = SNC815 = 15NiCr13 = 1.5752

20CrNi3/A/E = 15NiCr13 = 1.5752

30CrNi3/A/E = SNC631

37CrNi3/A/E = SNC836

20CrNi4/A/E = SNC815 = 15NiCr13 = 1.5752

20CrNiMo/A/E = 8620 = SNCM220 = 20NiCrMo2-2 = 1.6523

40CrNiMoA = 4340 = E4340 = SNCM439 = 36CrNiMo4 = 1.6511

45CrNiMoVA = 4340 = SNCM439 = SNCM447 = 36CrNiMo4 = 1.6511 18Cr2Ni4WA = SNC815 = 15NiCr13 = 1.5752

45H = C45E = 1.1191 = C45R = 1.1201

15CrH = SCr415H

15CrAH = SCr415H

20CrH = 5120H = SCr420H = 17Cr3 = 1.7016

20CrAH = 5120H = SCr420H = 17Cr3 = 1.7016

20Cr1H = 5120H = SCr420H = 17Cr3 = 1.7016

20Cr1AH = 5120H = SCr420H = 17Cr3 = 1.7016

40CrH = 5140H = SCr440H =41Cr4 = 1.7035

40CrAH = 5140H = SCr440H =41Cr4 = 1.7035

45CrH = 5145H = SCr440H =41Cr4 = 1.7035

45CrAH = 5145H = SCr440H =41Cr4 = 1.7035

16CrMnH = 16MnCr5 = 1.7131

20CrMnH = 20MnCr5 = 1.7147

20CrMnAH = 20MnCr5 = 1.7147

45MnBH = 50B44H

45MnBAH = 50B44H

15CrMoH = SCM415H = 18CrMo4 = 1.7243

15CrMoAH = SCM415H = 18CrMo4 = 1.7243

20CrMoH = SCM420H = 20MoCr3 = 1.7320

20CrMoAH = SCM420H = 20MoCr3 = 1.7320

22CrMoH = SCM822H = 22CrMoS3-5 = 1.7333

22CrMoAH = SCM822H = 22CrMoS3-5 = 1.7333

42CrMoH = SCM440H = 42CrMo4 = 1.7225

42CrMoAH = SCM440H = 42CrMo4 = 1.7225

20CrMnMoH = SCM420H

20CrMnMoAH = SCM420H

20CrNiMoH = 8620H = SNCM220H = 20NiCrMo2-2 = 1.6523

20CrNiMoH = 8620H = SNCM220H = 20NiCrMo2-2 = 1.6523

20CrNi2MoH = 4320H = SNCM420H = 20NiCrMoS6-4 = 1.6571 20CrNi2MoAH = 4320H = SNCM420H = 20NiCrMoS6-4 = 1.6571 ML04Al = C4C = 1.0303

ML08Al = 1010 = SWRCH8A = C8C = 1.0213

ML10Al = 1012 = SWRCH10A = C10C = 1.0214

ML10 = 1010 = SWRCH10K = C10C = 1.0214

ML15 = 1015 = SWRCH15K = C15C = 1.0234

ML18 = 1017 = SWRCH18K = C17C = 1.0434

ML20Al = 1020 = SWRCH20A = C20C = 1.0411

ML20 = 1020 = SWRCH20K = C20C = 1.0411

ML18Mn = SWRCH18A = C17E2C = 1.1147

ML20Cr = 5120 = SCr420H = 17Cr3 = 1.7016

ML22Mn = 1022 = SWRCH22A = C17E2C = 1.1147 ML25 = 1025 = SWRCH25K = C20E2C = 1.1152

ML30 = 1030 = SWRCH30K

ML35 = 1035 = SWRCH35K = C35EC = 1.1172

ML40 = 1040 = SWCH40K

ML45 = 1045 = SWRCH45K = C45EC = 1.1192

ML20MnA = SWRCH24K https://www.sodocs.net/doc/e06457446.html,

ML25Mn = 1026 = SWRCH25K

ML30Mn = 1030 = SWRCH30K

ML35Mn = 1035 = SWRCH35K = C35EC = 1.1172 ML37Cr = 5135 = SCr435H = 37Cr4 = 1.7034

ML38CrA = 5135 = SCr440 = 37Cr4 = 1.7034

ML40Cr = 5140 = SCr440 = 41Cr4 = 1.7035

ML20CrMoA = 4118 = SCM420 = 18CrMo4 = 1.7243

ML35CrMo = 4135 = SCM435 = 34CrMo4 = 1.7220

ML42CrMo = 4142 = SCM440 = 42CrMo4 = 1.7225

ML20B = 17B2 = 1.5502

ML28B = 28B2 = 1.5510

ML35B = 33B2 = 1.5514

ML15MnB = 1518 = SWRCHB620 = 17MnB4 = 1.5520

ML20MnB = 20MnB4 = 1.5525

ML35MnB = 37MnB5 = 1.5538

ML37CrB = 36CrB4 = 1.7077

ML40CrNiMoA = 41NiCrMo7-3-2 = 1.6563Y12 = 1109 = 1212 = SUM12 = 10S20 = 1.0726 Y12Pb = 12L13 = SUM22L = 10SPb20 = 1.0722

Y15 = 1213 = SUM22 = 11SMn30 = 1.0715

Y15Pb = 12l14 = sum22l = 11SMnPb30 = 1.0718

Y20 = 1117 = SUM32 = 15SMn13 = 1.0725

Y30 = 1132 = 35S20 = 1.0726

Y35 = 1137 = 35S20 = 1.0726

Y40Mn = 1141 = SUM42 = 38SMn28 = 1.0760

1108 = SUM12 = 10S20 = 1.0721

1146 = SUM42 = 46S20 = 1.0727

1212 = SUM21 = 10S20 = 1.0721

1213 = SUM22 = 11SMn30 = 1.0715

1215 = SUM22 = 11SMn37 = 1.0736

12L14 = SUM22L = 11SMnPb37 = 1.0737Q295GNHL = SPA-C

Q345GNHL = ASTM A690 = A690M = SPA-H = S355J0WP = 1.8945 = S355J2WP = 1.8946

Q235NH = SS Grade 33[230] = SMA400AW = SMA400BW = SMA400CW = S235J0W = 1.8958 = S235J2W = 1.8961

Q295NH = TypeⅢ= E295 = 1.0050

Q355NH = TypeⅢ= SMA490AW = SMA490BW = SMA490CW = S355J0WP = 1.8945 = S355J2WP = 1.8946

Q460NH = TypeⅠ= SMA570W = SMA570P = S460NL = 1.8903 = S460ML = 1.88381Cr17Mn6Ni5N = 201 = SUS201 = X12CrMnNiN17-7-5 = 1.4372

1Cr18Mn8Ni5N = 202 = SUS202 = X12CrMnNiN18-9-5 = 1.4373

1Cr17Ni7 = 301 = SUS301

1Cr18Ni9 = 302 = SUS302 = X2CrNi18-9 = 1.4307

Y1Cr18Ni9 = 303 = SUS303 = X8CrNiS18-9 = 1.4305

Y1Cr18Ni9Se = 303Se = SUS303Se = 303S42

0Cr18Ni9 = 304 = SUS304 = X5CrNi18-10 = 1.4301

00Cr19Ni10 = 304L = SUSU304L = X2CrNi19-11 = 1.4306

0Cr19Ni9N = 304N = SUS304N1 = X5CrNiN19-9 = 1.4315

0Cr19Ni10NbN = XM-21 = SUS304N2

00Cr18Ni10N = 304LN = SUS304LN = X2CrNiN18-10 = 1.4311

1Cr18Ni12 = 305 = SUS305 = X4CrNi18-12 = 1.4303

0Cr23Ni13 = 309S = SUS309S

0Cr25Ni20 = 310S = SUS310S = 310S31

0Cr17Ni12Mo2 = 316 = SUS316 = X5CrNiMo17-12-2 = 1.4401

0Cr17Ni12Mo2N = 316N = SUS316N = X2CrNiMoN17-11-2 = 1.4406

00Cr17Ni14Mo2 = 316L = SUS316L = X2CrNiMo18-14-3 = 1.4435

1Cr18Ni12Mo2Ti = X6CrNiMoTi17-12-2 = 1.4571

0Cr18Ni12Mo2Ti = 316Ti = SUS316Ti = X6CrNiMoTi17-12-2 = 1.4571 0Cr18Ni12Mo2Cu2 = SUS316J1

00Cr18Ni14Mo2Cu2 = SUS316J1L

00Cr17Ni13Mo2N = 316LN = SUS316LN = X2CrNiMoN17-13-3 = 1.4429 0Cr19Ni13Mo3 = 317 = SUS317 = X3CrNiMo17-13-3 = 1.4436

0Cr18Ni12Mo3Ti = X6CrNiMoTi17-12-2 = 1.4571

00Cr19Ni13Mo3 = 317L = SUS317L = X2CrNiMo18-15-4 = 1.4438

0Cr18Ni16Mo5 = S31725 = SUS317J1

1Cr18Ni9Ti = 321 = 321H = SUS321 = X6CrNiTi18-10 = 1.4541

0Cr18Ni10Ti = 321 = SUS321 = X6CrNiTi18-10 = 1.4541

0Cr18Ni11Nb = 347 = SUS347 = X6CrNiNb18-10 = 1.4550

0Cr18Ni9Cu3 = SUSXM7 = X3CrNiCu18-9-4 = 1.4567

0Cr18Ni13Si4 = SUSXM15J1

0Cr26Ni5Mo2 = 329 = SUS329J1

00Cr24Ni6Mo3N = S31803 = SUS329J3L = SUS329J4L

0Cr13Al = 405 = SUS405 = X6CrAl13 = 1.4002

1Cr17 = 430 = SUS430 = X6Cr17 = 1.4016

Y1Cr17 = 430F = SUS430F = X6CrMoS17 = 1.4105

1Cr17Mo = 434 = SUS434 = X6CrMo17-1 = 1.4113

00Cr27Mo = XM-27 = SUSXM27

1Cr15 = 429 = SUS429

00Cr17Mo = SUS430LX

00Cr18Mo2 = 444 = SUS444 = X2CrMoTi18-2 = 1.4521

1Cr12 = 403 = SUS403 = X6Cr13 = 1.4000

0Cr13 = 410S = SUS410S = X6Cr13 = 1.4000

1Cr13 = 410 = SUS410 = X12Cr13 = 1.4006

2Cr13 = 420 = SUS420J1 = X20Cr13 = 1.4021

3Cr13 = 420 = SUS420J2 = X30Cr13 = 1.4028

Y3Cr13 = 420F = SUS420F

4Cr13 = X39Cr13 = 1.4031

1Cr17Ni2 = 431 = SUS431 = X17CrNi16-2 = 1.4057

7Cr17 = 440A = SUS440A = X70CrMo15 = 1.4109

8Cr17 = 440B = SUS440B

9Cr18 = 440C = SUS440C

11Cr17 = 440C = SUS440C = X105CrMo17 = 1.4125

Y11Cr17 = 440F = SUS440F

9Cr18Mo = 440C = SUS440C = X105CrMo17 = 1.4125

0Cr17Ni4Cu4Nb = 630 = SUS630 = X5CrNiCuNb16-4 = 1.4542

0Cr17NiAl = 631 = SUS631 = X7CrNiAl17-7 = 1.4568

0Cr15Ni7Mo2Al = 6325Cr21Mn9Ni4N = EV8(SAE标准) = SUH35 = X53CrMnNiN21-9 = 1.4871 2Cr21Ni2N = SUH37 = X15CrNiSi20-12 = 1.4828

2Cr23Ni13 = 309 = SUH309 = X12CrNi23-13 = 1.4833

2Cr25Ni20 = 310 = SUH310 = X15CrNiSi25-21 = 1.4841

1Cr16Ni35 = SUH330 = X12NiCrSi35-16 = 1.4864

0Cr15Ni25Ti = 660(AISI) = SUH660

2MoAlVB = 660(AISI) = SUH660

0Cr18Ni9 = 304 = SUS304 = X5CrNi18-10 = 1.4301

0Cr23Ni13 = 309S = SUS309S = X12CrNi23-13 = 1.4833

0Cr25Ni20 = 310S = SUS310S = 310S31

0Cr17Ni12Mo2 = 316 = SUS316 = X5CrNiMo17-12-2 = 1.4401 0Cr19Ni13Mo3 = 317 = SUS317 = X2CrNiMo18-14-3 = 1.4435 1Cr18Ni9Ti = 321 = 321H = SUS321 = X6CrNiTi18-10 = 1.4541 0Cr18NiTi = 321 = SUS321 = X8CrNiTi18-10 = 1.4878

0Cr18Ni11Nb = 347 = SUS347 = X6CrNiNb18-10 = 1.4550

0Cr18Ni13Si4 = SUSXM15J1

1Cr20Ni14Si2 = X15CrNiSi20-12 = 1.4828

1Cr25Ni20Si2 = 314 = X8CrNi25-21 = 1.4845

2Cr25N = 446 = SUH446

0Cr13Al = 405 = SUS405 = X6CrAl13 = 1.4002

00Cr12 = SUS410L = X6Cr13 = 1.4000

1Cr17 = 430 = SUS430 = X6Cr17 = 1.4016

1CrMo = 502(AISI)

4Cr9Si2 = HNV3(SAE) = X45CrSi9-3 = 1.4718

4Cr10Si2Mo = SUH3 = X40CrSiMo10-2 - 1.4731

8Cr20Si2Ni= HNV6(SAE)= SUH4

1Cr12Mo = SUS410J1 = X12Cr13 = 1.4006

2Cr12MoVNbN = SUH600

2Cr12NiMoWV = 616 = SUH616

2Cr12NiMo1W1V = 616 = SUH616

1Cr13 = 410 = SUS410 = X12Cr13 = 1.4006

1Cr13Mo = SUS410 = SUS410J1 = X15Cr13 = 1.4024

2Cr13 = 420 = SUS420J1 = X20Cr13 = 1.4021

1Cr17Ni2 = 431 = SUS431 = X17CrNi16-2 = 1.4057

0Cr17Ni4Cu4Nb = 630 = SUS630 = X5CrNiCuNb16-4 = 1.4542

0Cr17Ni7Al = 631 = SUS631 = X7CrNiAl17-7 = 1.4568

1Cr18Ni9Si3 = 302B = SUS302B = X10CrNi18-8 = 1.4310

1Cr19Al3 = SUH21

0Cr11Ti = 409 = SUH409 = X2CrTi12 = 1.4512

1Cr12 = 403 = SUS403 = X12Cr1365 = 1065 = SWRH67B = C66D = 1.0612 70 = 1070 = SWRH72B = C70D = 1.0615

85 = 1084 = SWRH82B = C86D = 1.0616

65Mn = 1566 = SWRH67B

70Mn = 1572 = SWRH72B

55Si2Mn = 9255 = 56Si7= 1.5026

60Si2Mn/A = 9260 = SUP6 = SUP7 = 61SiCr7 = 1.7108

60Si2CrA = 54SiCr6 = 1.7102

60Si2CrVA = 54SiCrV6 = 1.8152

55CrMnA = 5155 = SUP9 = SUP9A = 55Cr3 = 1.7176

60CrMnA = 5160 = SUP9A = 60Cr3 = 1.7177

60CrMnMoA = 4161 = SUP13 = 60CrMo3-3 = 1.7241

50CrVA = 6150 = SUP10 = 51CrV4 = 1.8159

60CrMnBA = 51B60H = SUP11A

55CrSiA = 54SiCr6 = 1.7102

弹簧用1Cr18Ni9 = 302 = SUS302

弹簧用0Cr19Ni10 = 304 = X5CrNi18-10 = 1.4301

弹簧用0Cr17Ni12Mo2 = 316 = SUS316 = X5CrNiMo17-12 = 1.4401

弹簧用0Cr17Ni8Al = 631 = SUS631J1 = X7CrNiAl17-7 = 1.4568GCr15 = 52100 = SUJ2 = B1 = 100Cr6

GCr15SiMn = B3 = 100CrMnSi6-4

GCr18Mo = B5 = 100CrMo7

G20CrMo = 4118H = B22 = 20MnCr4-2

G20CrNiMo = 8620H = SNCM220 = B28 = 20NiCrMo2

G20CrNi2Mo = 4320H = SNCM420 = B29 = 20NiCrMo7

G10CrNi3Mo = 9310H https://www.sodocs.net/doc/e06457446.html,

9Cr18 = SUS440C

9Cr18Mo = 440C = SUS440C = B52 = X108CrMo17

Cr4Mo4V = M50 = B60 = 8-MoCrV42-16

Cr14Mo4 = 440CMODT7/A = SK70 = C70U

T8/A = W1A-8 = SK80 = C80U

T8Mn/A = SK85

T9/A = W1A-81/2 = SK90 = C90U

T10/A = W1A-91/2 = SK105 = C105U

T11/A = W1A-101/2 = SK105 = C105U

T12/A = W1A-111/2 = SK120 = C120U

T13/A = SK140

SM45 = S45C = C45U

SM48 = S48C = C45U

SM50 = S50C = C45U

SM53 = S53C

SM55 = S55CCr06 = SKS8

Cr2 = L3 = SUJ2 = 102Cr6

W = F1 = SKS21

4CrW2Si = SKS41

5CrW2Si = S1 = 50WCrV8

6CrW2Si = 60WCrV8

6CrMnSi2Mo1V = S4

5Cr3M1SiMo1V = S7

Cr12 = D3 = SKD1 = X210Cr12=SVERKER-3

Cr12Mo1V1 = D2 = SKD11 = X153CrMoV12=1.2379=DC11=XW-42=SVERKER-21

Cr12MoV = SKD11

Cr5Mo1V = A2 = SKD12 = X100CrMoV5=RIGOR=XW-10

9Mn2V = O2 = 90MnCrV8

CrWMn = SKS31

9CrWMn = O1 = SKS3 = 95MnCr5=1.2510=GOA=DF-2=ARNE

5CrNiMo = L6 = SKT4 = 55NiCrMoV7

3Cr2w8V = H21 = SKD5 = X30WCrV9-3

4Cr3Mo3Siv = H10 = 32CrMoV12-28

4Cr5MoSiV = H11 = 3KD6 = X37CrMoV5-1

4Cr5MoSiV1 = H13 = SKD61 = X40CrMoV5-1=1.2344=ORVAR SUPREME=8407 4Cr5W2VSi = X35CrWMoV5

3Cr2Mo = P20 = 35CrMo7

3Cr2NiMo = P20+Ni = 40CrMnNiMo8-6-4=1.2738=718

4Cr13=420=S-STAR=1.2083= S136

SM3Cr2Ni1Mo = P20+Ni = 40CrMnNiMo8-6-4W18Cr4V = T1 = SKH2 = HS18-0-1 W18Cr4VCo5 = T4 = SKH3=1.3255

W18Cr4V2Co8 = T5 = SKH4=1.3265

W12Cr4V5Co5 = T15 = SKH10=FAX55

W6Mo5Cr4V2 = M2(标准C) = SKH51 = HS6-5-2=SKH-9=MH51

W6Mo5Cr4V2 = M2(H.C) = SKH52 = HS6-6-2=HS12M

W6Mo5Cr4V3 = M3(级别1) = SKH52=M3-2=1.3344=HM3

CW6Mo5Cr4V3 =M3(级别2) = SKH53 = HS6-5-3=M3-2=1.3344=FAX31

中外金属材料对照表

常用国内外钢材牌号对照表 中国 美国 日本 德国 英国 法国 前苏联 国际标准化组织 GB AST JIS DIN 、DINEN BS 、BSEN NF 、NFEN ΓOCT ISO 630 品 名 牌号 牌号 牌号 牌号 牌号 牌号 牌号 Q195 Cr.B Cr.C SS330 SPHC SPHD S185 040 A10 S185 S185 CT1K П CTlC П CTl ПC Q215A Cr.C Cr.58 SS 330 SPHC 040 A12 CT2K П—2 CT2C П—2 CT2ПC —2 Q235A Cr.D SS400 SM400A 080A15 CT3K П—2 CT3C П—2 CT3ПC —2 E235B Q235B Cr.D SS400 SM400A S235JR S235JRGl S235JRG2 S235JR S235JRGl S235JRG2 S235JR S235JRGl S235JRG2 CT3K П—3 CT3C П—3 CT3ПC —3 E235B Q255A SS400 SM400A CT4K П—2 CT4C П—2 CT4ПC —2 普 通 碳 素 结 构 钢 Q275 SS490 CT5C П—2 CT5ПC —2 E275A

中国 美国 日本 德国 英国 法国 前苏联 国际标准化组织 GB AST JIS DIN 、DINEN BS 、BSEN NF 、NFEN ΓOCT IS0 630 品 名 牌号 牌号 牌号 牌号 牌号 牌号 牌号 08F 1008 1010 SPHD SPHE 040A10 80K П 10 1010 S10C S12C CKl0 040A12 XCl0 10 C101 15 1015 S15C S17C CKl5 Fe360B 08M15 XCl2 Fe306B 15 C15E4 20 1020 S20C S22C C22 IC22 C22 20 25 1025 S25C S28C C25 IC25 C25 25 C25E4 40 1040 S40C S43C C40 IC40 080M40 C40 40 C40E4 45 1045 S45C S48C C45 IC45 080A47 C45 45 C45E4 50 1050 S50C S53C C50 IC50 080M50 C50 50 C50E4 优 质 碳 素 结 构 钢 15Mn 1019 080A15 15r

世界各国钢材牌号对照表

一、我国钢号表示方法概述 钢的牌号简称钢号，是对每一种具体钢产品所取的名称，是人们了解钢的一种共同语言。我国的钢号表示方法，根据国家标准《钢铁产品牌号表示方法》（GB221-79）中规定，采用汉语拼音字母、化学元素符号和阿拉伯数字相结合的方法表示。即： ①钢号中化学元素采用国际化学符号表示，例如Si,Mn,Cr……等。混合稀土元素用“RE”（或“Xt”）表示。 ②产品名称、用途、冶炼和浇注方法等，一般采用汉语拼音的缩写字母表示，见表。 ③钢中主要化学元素含量（%）采用阿拉伯数字表示。表：GB标准钢号中所采用的缩写字母及其涵义

二、我国钢号表示方法的分类说明 1．碳素结构钢 ①由Q+数字+质量等级符号+脱氧方法符号组成。它的钢号冠以“Q”，代表钢材的屈服点，后面的数字表示屈服点数值，单位是MPa例如Q235表示屈服点（σs）为235 MPa的碳素结构钢。 ②必要时钢号后面可标出表示质量等级和脱氧方法的符号。质量等级符号分别为A、B、C、D。脱氧方法符号：F表示沸腾钢；b表示半镇静钢：Z表示镇静钢；TZ表示特殊镇静钢，镇静钢可不标符号，即Z和TZ都可不标。例如Q235-AF表示A级沸腾钢。 ③专门用途的碳素钢，例如桥梁钢、船用钢等，基本上采用碳素结构钢的表示方法，但在钢号最后附加表示用途的字母。 2．优质碳素结构钢 ①钢号开头的两位数字表示钢的碳含量，以平均碳含量的万分之几表示，例如平均碳含量为0.45%的钢，钢号为“45”，它不是

顺序号，所以不能读成45号钢。 ②锰含量较高的优质碳素结构钢，应将锰元素标出，例如50Mn。 ③沸腾钢、半镇静钢及专门用途的优质碳素结构钢应在钢号最后特别标出，例如平均碳含量为0.1%的半镇静钢，其钢号为10b。3．碳素工具钢 ①钢号冠以“T”，以免与其他钢类相混。 ②钢号中的数字表示碳含量，以平均碳含量的千分之几表示。例如“T8”表示平均碳含量为0.8%。 ③锰含量较高者，在钢号最后标出“Mn”，例如“T8Mn”。 ④高级优质碳素工具钢的磷、硫含量，比一般优质碳素工具钢低，在钢号最后加注字母“A”，以示区别，例如“T8MnA”。4．易切削钢 ①钢号冠以“Y”，以区别于优质碳素结构钢。 ②字母“Y”后的数字表示碳含量，以平均碳含量的万分之几表示，例如平均碳含量为0.3%的易切削钢，其钢号为“Y30”。 ③锰含量较高者，亦在钢号后标出“Mn”，例如“Y40Mn”。 5．合金结构钢 ①钢号开头的两位数字表示钢的碳含量，以平均碳含量的万分之几表示，如40Cr。 ②钢中主要合金元素，除个别微合金元素外，一般以百分之几表示。当平均合金含量＜1.5%时，钢号中一般只标出元素符号，而不标明含量，但在特殊情况下易致混淆者，在元素符号后亦可标以数字“1”，例如钢号“12CrMoV”和“12Cr1MoV”，前者铬含量为0.4-0.6%，后者为0.9-1.2%，其余成分全部相同。当合金元素平均含量≥1.5%、≥2.5%、≥3.5%……时，在元素符号后面应标明含量，可相应表示为2、3、4……等。例如18Cr2Ni4WA。 ③钢中的钒V、钛Ti、铝AL、硼B、稀土RE等合金元素，均属微合金元素，虽然含量很低，仍应在钢号中标出。例如20MnVB 钢中。钒为0.07-0.12%，硼为0.001-0.005%。

金属材料材料牌号对照表

C Mn Si 00Cr19Ni10中≤0.030≤2.00≤1.00TP304L 美≤0.0358≤2.00≤0.75TP304LN 美≤0.0358≤2.00≤0.75SUS304L TP 日≤0.030≤2.00≤1.00TP304美≤0.08≤2.00≤0.750Cr18Ni9 中≤0.07≤2.00≤1.00TP304N 美≤0.08≤2.00≤0.75SUS304L TP 日≤0.08≤2.00≤1.00TP304H 美0.04-0.10≤2.00≤0.75SUS304L TP 日0.04-0.10≤2.00≤0.750Cr18Ni10Ti 中≤0.08≤2.00≤1.001Cr18Ni9Ti 中≤0.12≤2.00≤1.00TP321 美≤0.08≤2.00≤0.75TP321H 美0.04-0.10≤2.00≤0.75SUS321 TP 日≤0.08≤2.00≤1.00SUS321H TP 日0.04-0.10≤2.00≤0.750Cr18Ni11Nb 中≤0.08≤2.00≤1.00TP347美≤0.08≤2.00≤0.75TP347H 美0.04-0.10≤2.00≤0.75TP348 美≤0.08≤2.00≤0.75TP348H 美0.04-0.10≤2.00≤0.75SUS347 TP 日≤0.08≤2.00≤1.00SUS347H TP 日0.04-0.10≤2.00≤1.0000Ci17Ni14Mo2中≤0.03≤2.00≤1.00TP316L 美≤0.035≤2.00≤0.75TP316LN 美≤0.035≤2.00≤0.75SUS 316L TP 日≤0.03≤2.00≤1.000Cr18Ni12Mo2Ti 中≤0.08≤2.00≤1.001Cr18Ni12Mo2Ti 中≤0.21≤2.00≤1.000Cr17Ni12Mo2 中≤0.08≤2.00≤1.00TP316 美0.04-0.10 ≤2.00≤0.75TP316H 美≤2.00 ≤0.75TP316N 美≤0.08≤2.00≤0.75SUS 316 TP 日≤0.08≤2.00≤1.00SUS 316H TP 日0.04-0.10≤2.00≤0.7500Ci19Ni13Mo3 中≤0.030≤2.00≤1.00TP317L 美≤0.035≤2.00≤0.75SUS 316L TP 日≤0.030≤2.00≤1.000Ci19Ni13Mo3中≤0.08≤2.00≤1.000Cr18Ni12Mo3Ti 中 ≤0.08≤2.00≤1.00 国别钢号材料类别00-18Cr-8Ni 0-18Cr-8Ni 1-18Cr-8Ni 18Cr-10Ni-Ti 18Cr-10Ni-Cb 00-16Cr-12Ni-2Mo 16Cr-12Ni-2Mo 00-18Cr-13Ni-3Mo

金属材料牌号对照【详尽版】

金属材料代号和牌号大全 内容来源网络，由深圳机械展收集整理！ 更多相关金属材料及金属加工设备展示，就在深圳机械展！ 钢种 中国GB 日本JIS 美国ASTM 德国 牌号牌号标准号钢号钢号材料号标准号 碳素钢板Q235-F SS41 G3101 A36 USt37-2 1.0112 DIN17100 Q235 SS41 G3101 A283-C RSt37-2 1.0114 DIN17100 Q255A SS50 G3101 A283-D (RSt42-2) 1.0134 DIN17100 (A3R) SPV24 G3115 A285-C 20g SB42 G3103 A515.Cr60 HⅡ 1.0425 DIN17155 (15g) SB35 G3103 A515.Cr55 HⅠ 1.0345 DIN17155 (25g) SB46 G3103 A515.Cr65 HⅢ 1.0435 DIN17155 25 SM41A G3103 DIN17100 低合金钢板16Mn SM50-B.C G3106 St52-3 1.0841 DIN17155 16MnR SM41B G3106 A299/A537-Ⅰ.Ⅱ 17Mn4 19Mn5 1.0841 1.8045 16MngC SPV36 G3115 St52-3 15MnVR SPV36 (WELTEN50) G3115 A225Gr.A.B WStE39 1.8930 15MnVgC (A633-GR.B) 15MnVNTR (K-TEN62M) A302-GR.B 18MnMoNbR A533-Gr.A.I 耐热钢板16Mo SB46M G3103 A204-Gr A.B 15 Mo3 1.5414 DIN17155 12CrMo SCMV1 G4109 A387-Gr.2 15CrMo SCMV2 G4109 A387-Gr.12 13 CrMo44 1.7335 DIN17155 12Cr2Mo1 SVMV4 G4109 A387-Gr.22 10 Mo910 1.7362 DIN17155

国内外金属材料牌号对照表

国内外金属材料牌号对照表 国内外常用灰铸铁牌号对照 序号国别铸 1 中国— HT350 HT300 HT250 HT200 HT150 HT100 2 日本— FC350 FC300 FC250 FC200 FC150 FC100 3 美国 NO.60 NO.50 NO.45 NO.35 NO.30 NO.20 — 4 前苏联CЧ40 CЧ3 5 CЧ30 CЧ25 CЧ20 CЧ15 CЧ10 5 德国 GG40 GG35 GG30 GG25 GG20 GG15 — 6 意大利— G35 G30 G25 G20 G15 G10 7 法国 FGL400 FGL350 FGL300 FGL250 FGL200 FGL150 — 8 英国— 350 300 250 200 150 100 9 波兰 Z140 Z135 Z130 Z125 Z120 Z115 — 10 印度 FG400 FG350 FG300 FG260 FG200 FG150 — 11 罗马尼亚 FC400 FC350 FC300 FC250 FC200 FC150 — 12 西班牙— FG35 FG30 FG25 FG20 FG15 — 13 比利时 FGG40 FGG35 FGG30 FGG25 FGG20 FGG15 FGG10 14 澳大利亚 T400 T350 T300 T260 T220 T150 — 15 瑞典 O140 O135 O130 O125 O120 O115 O110 16 匈牙利 OV40 OV35 OV30 OV25 OV20 OV15 — 17 保加利亚— Vch35 Vch30 Vch25 Vch20 Vch15 — 国际标准18 — 350 300 250 200 150 100 (ISO) 泛美标准19 FG400 FG350 FG300 FG250 FG200 FG150 FG100 (COPANT) 20 中国台湾—— FC300 FC250 FC200 FC150 FC100 21 荷兰— GG35 GG30 GG25 GG20 GG15 — 22 卢森堡 FGG40 FGG35 FGG30 FGG25 FGG20 FGG15 — 23 奥地利— GG35 GG30 GG25 GG20 GG15 — 国内外常用球墨铸铁牌号对照

常用金属材料参考手册

Q/NVC 惠州雷士光电科技有限公司企业标准 （技术手册） Q/NVC XXX-2011 常用材料参考手册 --------金属材料 2011年10月1日发布2011年12月1日实施 惠州雷士光电科技有限公司发布

目录 1 范围 2 规范性引用文件 3 术语 4 常用碳素结构钢材 5 弹簧钢 6 镀锌钢板及钢带 7 常用不锈钢 8 铝合金板材 9 压铸铝合金 10 铜合金

常用金属材料参考手册 1 范围 本手册列举了常用钢材、不锈钢材、铝合金、铜合金的标记、性能参数及一般用途。为设计工程师、品检工程师提供依据。 2 规范性引用文件 2.1 GB/T 699《优质碳素结构钢》 2.2 GB/T 700《碳素结构钢》 2.3 GB/T 2518《连续热镀锌钢板及钢带》 2.4 ASTM A666《退火或冷加工奥氏体不锈钢薄板、钢带、厚板和扁钢》2.5 GB/T 16475《变形铝及铝合金状态代号》 2.6 GB/T 1222 《弹簧钢》 3 术语 3.1 抗拉强度（tensile strength）：是金属由均匀塑性变形向局部集中塑性变形过渡的临界值，也是金属在静拉伸条件下的最大承载能力。对于塑性材料，它表征材料最大均匀塑性变形的抗力，拉伸试样在承受最大拉应力之前，变形是均匀一致上的，但超出之后，金属开始出现缩颈现象，即产生集中变形；对于没有(或很小)均匀塑性变形的脆性材料，它反映了材料的断裂抗力。符号为RM，单位为MPA。 3.2 伸长率（elongation）：指金属材料受外力（拉力）作用断裂时，试棒伸长的长度与原来长度的百分比，伸长率按试棒长度的不同分为：短试棒求得的伸长率，代号为δ5，试棒的标距等于5倍直径长试棒求得的伸长率，代号为δ10，试棒的标距等于10倍直径，其中标距为用来测定试样应变或长度变化的试样部分原始长度。 4 常用碳素结构钢材 4.1 标记： 我司常用碳素结构钢建议采用国家标准牌号，具体参考：GB/T699及GB/T700，也可根据日本牌号（宝钢）如下： 厚度 牌号，如Q235、08AL、SPHC、SPHD、SPCC等 名称 4.2 碳素结构钢热轧薄钢板，参考GB/T700

金属材料各国牌号对照99999.doc

百度文库 金属材料各国牌号对照 中国美国德国日本法国英国国际 NF A35-572 GB1220-92 AISI 、 ASTM DIN17440 JIS NF A35-576 ～ BS 970 ISO683/13 DIN17224 582 BS 1449 ISO683/16 NFA35-584 1Cr17MN6Ni5N 201,S2010 SUS201 A-2 1Cr18Mn8Ni5N 202,S20200 SUS202 284S16 A-3 1Cr18Mn10Ni5Mo3N 1Cr17Ni7 301,S30100 SUS301 301S21 14 1Cr18Ni9 302,S30200 X12CrNi188 SUS302 302S25 12 Y1Cr18Ni9 303,S30300 X12CrNiS188 SUS303 303S21 17 Y1Cr18Ni9Se 303Se,S30323 SUS303Se 303S41 17 0Cr18Ni9 304,S30400 X5CrNi189 SUS304 304S15 11 00Cr19Ni10 304L,S30403 X2CrNi189 SUS304L 304S12 10 0Cr19Ni9N SUS304N1 304N,S30451 0Cr19Ni10NbN XM21,S30452 SUS304N2 00Cr18Ni10N X2CrNiN1810 SUS304LN 1Cr18Ni12 305,A30500 X5CrNi1911 SUS305 305S19 13 0Cr23Ni13 309S,S30908 SUS309S 0Cr25Ni20 310S,S31008 SUS310S 0Cr17Ni12Mo2 316,S31600 X5CrNiMo1810 SUS316 316S16 20,20a 1Cr18Ni12Mo2 X10CrNiMoTi1810 320S17 0Cr18Ni12Mo2Ti X10CrNiMoTi1810 320S17 00Cr17Ni14Mo2 316L,S31603 X2CrNiMo1810 SUS316L 316S12 19,19a 0Cr17Ni12Mo2N 316N,S31651 SUS316N 00Cr17Ni13Mo2N X2CrNiMoN1812 SUS316LN 0Cr18Ni12Mo2Cu2 SUS316J1 00Cr18Ni14Mo2Cu2 SUS316JIL 0Cr19Ni13Mo3 317,S31700 SUS317 317S16 25 00Cr19Ni13Mo3 317L,S31703 X2CrNiMo1816 SUS317L 317S12 24 1Cr18Ni12Mo3Ti 0Cr18Ni12Mo3Ti 0Cr18Ni16Mo5 SUS317J1 1Cr18Ni9Ti X10CrNiTi189 0Cr18Ni10Ti 321,S32100 X10CrNiTi189 SUS321 321S12,321S2015 0Cr18Ni11Nb 347,S34700 X10CrNiNb189 SUS347 347S17 16 0Cr18Ni9Cu3 XM7 SUSXM7 D32 ①0Cr18Ni13Si4 XM15,S38100 SUSXM15JI 0Cr26Ni5Mo2 SUS329JI

各国金属牌号及标准对照表

各国铜牌号及标准对照表 中国德国欧洲国际标准美国日本 GB DIN EN ISO UNS JIS KRUZZEICHEN NUMBER Symbol Number Symbol Number Number TU2 OF-Cu 2.0040 Cu-OFE CW009A Cu-OF C10100 C1011 - SE-Cu 2.0070 Cu-HCP CW021A - C10300 - - SE-Cu 2.0070 Cu-PHC CW020A - C10300 - T2 E-Cu58 2.0065 Cu-ETP CW004A Cu-ETP C11000 C1100 TP2 SF-Cu 2.0090 Cu-DHP CW024A Cu-DHP C12200 C1220 - SF-Cu 2.0090 Cu-DHP CW024A Cu-DHP C12200 C1220 - SF-Cu 2.0090 Cu-DHP CW024A Cu-DLP C12200 C1220 TP1 SW-Cu 2.0076 Cu-DLP CW023A Cu-DLP C12000 C1201 H96 CuZn5 2.0220 CuZn5 CE500L CuZn5 C21000 C2100 H90 CuZn10 2.0230 CuZn10 CW501L CuZn10 C22000 C2200 H85 CuZn15 2.0240 CuZn15 CW502L CuZn15 C23000 C2300 H80 CuZn20 2.0250 CuZn20 CW503L CuZn20 C24000 C2400 H70 CuZn30 2.0265 CuZn30 CW505L CuZn30 C26000 C2600 H68 CuZn33 2.0280 CuZn33 CW506L CuZn35 C26800 C2680 H65 CuZn36 2.0335 CuZn36 CW507L CuZn35 C27000 C2700 H63 CuZn37 2.0321 CuZn37 CW508L CuZn37 C27200 C2720 HPb63-3 CuZn36Pb1.5 2.0331 CuZn35Pb1 CW600N CuZn35Pb1 C34000 C3501 HPb63-3 CuZn36Pb1.5 2.0331 CuZn35Pb2 CW601N CuZn34Pb2 C34200 - H62 CuZn40 2.0360 CuZn40 CW509N CuZn40 C28000 C3712 H60 CuZn38Pb1.5 2.0371 CuZn38Pb2 CW608N CuZn37Pb2 C35000 - HPb63-3 CuZn36Pb3 2.0375 CuZn36Pb3 CW603N CuZn36Pb3 C36000 C3601 HPb59-1 CuZn39Pb2 2.0380 CuZn39Pb2 CW612N CuZn38Pb2 C37700 C3771 HPb58-2.5 CuZn39Pb3 2.0401 CuZn39Pb3 CW614N CuZn39Pb3 C38500 C3603 - CuZn40Pb2 2.0402 CuZn40Pb2 CW617N CuZn40Pb2 C38000 C3771 - CuZn28Sn1 2.0470 CuZn28Sn1As CW706R CuZn28Sn1 C68800 C4430 - CuZn31Si1 2.0490 CuZn31Si1 CW708R CuZn31Si1 C44300 - - CuZn20Al2 2.0460 CuZn20Al2As CW702R CuZn20Al2 C68700 C6870 QSn4-0.3 CuSn4 2.1016 CuSn4 CW450K CuSn4 C51100 C5111 - CuSn5 2.1018 CuSn5 CW451K CuSn5 C51000 C5102 QSn6.5-0.1 CuSn6 2.1020 CuSn6 CW452K CuSn6 C51900 C5191 QSn8-0.3 CuSn8 2.1030 CuSn8 CW453K CuSn8 C52100 C5210 BZn12-24 CuNi12Zn24 2.0730 CuNi12Zn24 CW403J CuNi12Zn24 C75700 - BZn12-26 CuNi18Zn27 2.0742 CuNi18Zn27 CW410J CuNi18Zn27 C77000 C7701 BZn18-18 CuNi18Zn20 2.0740 CuNi18Zn20 CW409J CuNi18Zn20 C76400 C7521 - CuNi10Fe1Mn 2.0872 CuNi10Fe1Mn CW352H CuNi10Fe1Mn C70600 C7060 - CuNi30Mn1Fe 2.8820 CuNi30Mn1Fe CW354H CuNi30Mn1Fe C71500 C7150

常用金属材料中日新旧标准牌对照表.doc

1、碳素结构钢 中国现行标准牌号中国旧标准牌号日本旧标准牌号日本现行标准牌号GB700-2006 GB/T700-88 JIS G3101(1987) JIS G3101-2004 等级等级 Q195 Q195 － Q215-A Q215-A SS330 Q215-B Q215-B SS330 Q235-A Q235-A SS400 Q235-B Q235-B SS400 Q235-C Q235-C SS400 Q235-D Q235-D SS400 Q255-A SM400A （ JISG3106-2004 ） Q255-B SM400B （ JISG3106-2004） Q275 SS490 Q275-A － Q275-B － Q275-C SS540 Q275-D SS540 发至：电梯设计部、电梯技术部、扶梯技术部和亚洲研究开发中心各科室标记处数 2、结构钢 中国现行标准牌号中国旧标准牌号日本旧标准牌号日本现行标准牌号GB712-2000 GB712-88 一般强度钢等级一般强度钢等级

A A B B C C D D E E 高强度钢等级高强度钢等级 A32 AH32 A36 AH36 A46 D32 DH32 D36 DH36 D40 E32 EH32 E36 EH36 E40 F32 F36 F40 发至：电梯设计部、电梯技术部、扶梯技术部和亚洲研究开发中心各科室标记处数 3、弹簧钢 日本旧标准牌号 中国现行标准牌号中国旧标准牌号日本现行标准牌号GB1222-84 GB/T1222-75 JISG3506-1956 JISG4801-1984 JISG3506-2004 JISG4801-2005 65 65 －SUP2 SWRH67A －SWRH67B 70 70 SWRH72A －－－SWRH72B SWRS72B(JISG3502-2004)

国内外常用金属材料牌号对照表

国内外常用金属材料牌号对照表 序列号 中国 CHINA GB1220 日本 JAPAN JIS 美国 USA 英国 UK BS970 BS144 9 德国 GERMANY DIN17440 DIN17224 法国 FRANCE NFA35-572 NFA35-576-58 2 NFA35-584 ANSI ASTM 11Cr17Mn6SUS201201-1S2010 0 21Cr18Mn8Ni5 N SUS202202 S2020 284S16X12CrNi177SZ12CN17.07 31Cr17Ni7SUS301301S3010 301S21X12CrNi188Z10CN18.09 41Cr18Ni9SUS302302S3020 302S25X5CrNi189Z6CN180.9 51Cr18Ni9Si3SUS302 B 302B S3021 5 6OCr18Ni9SUS304304S3030 304S15X2CrNi189Z2CN180.9 7O OCr19Ni10SUS304L304S3040 3 304S12Z5CN18.09A2 8OCr19Ni9N SUSNI 304N S30451 X2CrNiN1810Z2CN18.10N 9OOCr18Ni10N SUSLN 304L N S3045 3 X5CrNi1911Z8CN18.12 1 01Cr18Ni12SUS305305 S3050 305S19 1 12Cr23Ni13SUS309309 S3090 1 2Ocr23Ni13SUS309S309S S3090 8 1 3Ocr25Ni20SUS310S310S S3100 8 X5CrNiMo181 2 Z6CND17.12 1 4OCr17Ni12Mo 2 SUS316316S3160316S16 X2CrNiMo181 2 Z2CND17.12

各国无缝钢管牌号标准对照表(1)

各国无缝钢管牌号标准对照表

美国钢铁产品的标准比较多，主要有以下几种： ANSI 美国国家标准 AISI 美国钢铁学会标准 ASTM 美国材料与试验协会标准 ASME 美国机械工程师协会标准 AMS 航天材料规格（美国航空工业最常用的一种材料规格，由SAE制定） API 美国石油学会标准 AWS 美国焊接协会标准 SAE 美国机动车工程师协会标准 MIL 美国军用标准 QQ 美国联邦政府标准 对上述标准难以一一介绍他们的牌号表示方法。本书只对使用比较广泛的ANSI，ASTM，SAE和AISI几种标准的牌号表示方法，作重点介绍。 (一)ANSI（美国国家标准）牌号表示方法 1. 标准代号＋字母类号＋序号＋颁布年份 如：ANSI A58.1?1982 2. 标准代号＋断开号＋原专业标准号＋序号＋颁布年份 如：ANSI/UL 560-1980 3. 如果某个ANSI标准在内容上有补充，其补充件的表示方法是在原标准序号的后面加一英文小写字母。a表示第一次补充，b表示第二次补充。 如：ANSI Z21.17-1979 家用煤气转换燃烧器。 ANSI Z21.17a-1981 家用煤气转换燃烧器第一次补充件 4. 对于经过复审，被重新确认为继续有效的ANSI标准，一般在该标准号后面注确认年份。

如：ANSI B27.6-1972（R 1983），表示1972年的ANSI B27.6标准在1983年复审后，重新确认有效，其内容毫无变化。 5. ANSI标准的分类 ANSI标准采用字母和数字混合分类法。其中，字母表示大类，数字表示小类。如：B—机械，B1—螺纹。ANSI标准一级类目字母代号如下表： (二) ASTM标准中铸铁、铸钢和锻钢表示方法见下表。

各国不锈钢牌号对照表

不锈钢牌号对照表 中国 GB1220-92[84] GB3220-92[84] 日本 JIS 美国 AISI UNS 英国 BS 970 Part4 BS 1449 Part2 德国 DIN 17440 DIN 17224 法国 NFA35-572 NFA35-576~582 NFA35-584 前苏联 TOCT5632 1Cr17Mn6Ni5N SUS201 201 -- -- -- -- 1Cr18Mn8Ni5N SUS202 202 -- -- -- 12×17.T9AH4 -- -- S20200 284S16 -- -- -- 2Cr13Mn9Ni4 -- -- -- -- -- -- 1Cr17Ni7 SUS301 301 -- -- -- -- -- -- S30100 301S21 X12CrNi177 Z12CN17.07 -- 1Cr17Ni8 SUS301J1 -- -- X12CrNi177 -- -- 1Cr18Ni9 SUS302 302 302S25 X12CrNi188 Z10CN18.09 12×18H9 1Cr18Ni9Si3 SUS302B 302B -- -- -- -- Y1Cr18Ni9 SUS303 303 303S21 X12CrNiS188 Z10CNF18.09 -- Y1Cr18Ni9Se SUS303Se 303Se 303S41 -- -- -- 0Cr18Ni9 SUS304 304 304S15 X2CrNi89 Z6CN18.09 08×18B10 00Cr19Ni10 SUS304L 304L 304S12 X2CrNi189 Z2CN18.09 03×18H11 0Cr19Ni9N SUS304N1 304N -- -- Z5CN18.09A2 -- 00Cr19Ni10NbN SUS304N XM21 -- -- -- -- 00Cr18Ni10N SUS304LN -- -- X2CrNiN1810 Z2CN18.10N 1Cr18Ni12 SUS305 S30500 305S19 X5CrNi1911 Z8CN18.12 12×18H12T [0Cr20Ni10] SUS308 308 -- -- -- -- 0Cr23Ni13 SUS309S 309S -- -- -- -- 0Cr25Ni20 SUS310S 310S -- -- -- -- 0Cr17Ni12Mo2N SUS315N 316N,S31651 -- -- -- -- 0Cr17Ni12Mo2 SUS316 316 316S16 X5CrNiMo1812 Z6CND17.12 08×17H12M2T 00Cr17Ni14Mo2 SUS316L 316L 316S12 X2CrNiMo1812 Z2CND17.12 03×17H12M2 0Cr17Ni12Mo2N SUS316N 316N -- -- -- --

常用模具材料牌号对照表

常用模具材料牌号对照表类别中国钢号通用钢号钢材特性 塑胶模具钢 3Cr2Mo P20（美国） 618(瑞典) 预硬塑胶模具钢3Cr2NiMo 718（瑞典） P20+Ni(美国) 超预硬塑胶模具钢 钢 钢 冷作模具钢 CrWMn/SKS31/105W/Cr6高硬度，中等淬透性，价格低廉。 207-255 820-840 下料模、冲头、成型模、搓丝板顶出杆及小型塑料压模等。 9Mn2V/O2/DF-2 具有良好冲载能力，热处理变形小。≤229 780-800 厚度小于6mm 以下的小型冲压模具及切纸机、刀具等。

9CrWMn/O1/SKS3/DF-3/100Mn/CrW4 淬火变形小，具有良好的刃口保持能力，热处理变形小。197-241 820-840 薄片冲压模、手饰压花模等。 9SiCr/X100Cr/MoV51具有高硬度良好的韧性和较好的抗回火稳定性。197-241 860-880 下料模、冲头、搓丝板、压印模、顶出杆等 Cr5Mo1V/A2/SKD12/XW-10/210/Cr12空冷淬硬性铬钢，韧性极佳，高耐磨损性和抗腐蚀能力。≤255 950-1000 拉伸模、压花模、下料模、冲压模、及耐磨塑料模等。 并具有良好堆焊性217-241 880-910 应用于要求热处理变形小而施以火焰加热局部淬火的大型镶块模具及冲压厚度、≤7mm钢板大冲压模具和剪切下料模、切纸刀、 陶土模及轧辊等。 热作模具钢

5CrMnMo淬透性一般，价格较低，淬火后硬度和5CrNiMo相近，而塑性韧性相对低一些。197-241 820-850 用于制造形状简单，厚度小于250毫米的小型热锤锻 模。 5CrNiMo/L6/56Cr/NiMoV7淬火后综合力学性能较好，热强性和淬透性一般 197-241 830-860 用于制造形状简单，工作温度一般，厚度在250~350毫米之间的 中型热锤锻模块。 ≤240 抗 镁锌等金属长寿命压铸模具，部分高寿命耐磨塑料模具。 3Cr2W8V/H21/SKD5较5CrNiMo及H13在高温下有较高强度、硬度及抗回火稳定性，但韧性及抗热疲劳性能，抗熔融金属冲蚀性能不及H13 207-255 1100-1150 用于制造工作温度≥550℃并承受较高的静载荷，而冲击载荷较低的锻造 压力机模或热挤压模具。 塑料模具钢

钢板金属材料牌号对照

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各国无缝钢管牌号标准对照表(1).docx

。 各国无缝钢管牌号标准对照表 钢种 碳素 钢管 低合 金 钢管 低温 钢管 中国 GB 日本 JIS 美国 ASTM 德国 牌号 牌号 标准号 钢号 钢号 材料号 标准号 （Q235 ） GGP G3452 (A53 钢种 F) (St33) 1.0033 DIN1626 STPY41 G3457 A283-D STPG38 G3454 A135-A (St37) 1.0110 DIN1626 A53-A STPG38 G3456 A106-A St37-2 1.0112 DIN17175 STS38 G3455 St35.8 1.0305 DIN1629/4 St35.4 1.030910 A179-C STB30 G3461 St35.8 1.0305 DIN17175 A214-C STB33 G3461 A192 St35.8 1.0305 DIN17175 A226 STB35 G3461 St35.8 1.0305 DIN17175 STPG42 G3454 A315-B (St42) 1.0130 DIN1626 A53-B St42-2 1.0132 20 STPT42 G3456 A106-B St45-8 1.0405 DIN17175 STB42 G3461 A106-B St45-8 1.0405 DIN17175 STS42 G3455 A178-C St45-4 1.0309 DIN1629/4 A210-A-1 16Mn STS49 G3455 St52.4 1.0832 DIN1629/4 STPT49 G3456 A210-C 1.0831 DIN1629/3 St52 15MnV STBL39 G3464 16Mn STPL39 G3460 A333-1.6 15MnV STBL39 G3464 TT St35N 1.0356 SEW680 A334-1.6 09Mn2V A333-7.9 1.0356SEW680 TT St35N A334-7.9 (06A1NbCuN) STPL46 G3460 A333-3.4 1.5637SEW680 STBL G3464 10Ni14 A334-3.4 (20Mn23A1) A333-8 1.5662SEW680 X8Ni9 A334-8 耐热 STPA12 G3458 A335-P1 、A369-FP1 1.5414 DIN17175 16Mo STBA12 、13 G3462 15Mo3 钢管 A250-T1 、 A209-T1

各国硬质合金牌号近似对照

各国硬质合金牌号近似对照

常用的硬质合金以 WC为主要成分，根据是否加入其它碳化物而分为以下几类： （ 1）钨钴类（ WC+Co）硬质合金（ YG） 它由 WC和 Co组成，具有较高的抗弯强度的韧性，导热性好，但耐热性和耐磨性较差，主要用于加工铸铁和有色金属。细晶粒的 YG类硬质合金（如 YG3X、 YG6X），在含钴量相同时，其硬度耐磨性比 YG3、 YG6高，强度和韧性稍差，适用于加工硬铸铁、奥氏体不锈钢、耐热合金、硬青铜等。 （ 2）钨钛钴类（ WC+TiC+Co）硬质合金（ YT） 由于 TiC的硬度和熔点均比 WC高，所以和 YG相比，其硬度、耐磨性、红硬性增大，粘结温度高，抗氧化能力强，而且在高温下会生成 TiO 2,可减少粘结。但导热性能较差，抗弯强度低，所以它适用于加工钢材等韧性材料。 (3) 钨钽钴类（ WC+TaC+Co）硬质合金（ YA） 在 YG类硬质合金的基础上添加 TaC(NbC),提高了常温、高温硬度与强度、抗热冲击性和耐磨性，可用于加工铸铁和不锈钢。 （ 4）钨钛钽钴类（ WC+TiC+TaC+Co） )硬质合金 (YW) 在 YT类硬质合金的基础上添加 TaC(NbC),提高了抗弯强度、冲击韧性、高温硬度、抗氧能力和耐磨性。既可以加工钢，又可加工铸铁及有色金属。因此常称为通用硬质合金（又称为万能硬质合金）。目前主要用于加工耐热钢、高锰钢、不锈钢等难加工材料。 硬质合金和其他硬质材料 编辑：刘钰 - 来自：青岛美华精密工具有限公司 硬质合金和碳-氮化合物--尽管高速钢对于如钻孔、拉削这样的应用仍然非常重要，但大多数的金属切削都是通过硬质合金工具完成的。对于那些非常难于加工的材料，硬质合金现在正逐渐由碳氮化合物、陶瓷制品和超硬材料所替代。渗碳的（或烧结的）硬质合金和碳氮化合物，被世界上大多数一致认为是硬金属，是一系列通过粉末冶金技术制成的非常硬的、耐火、耐磨的合金。微小的硬质合金或者氮化物颗粒在处于烧结温度液体时被金属粘结剂“胶结”。个体硬金属的成分和属性与那些黄铜和高速钢是不同的。 所有的硬金属都是金属陶瓷，是由陶瓷颗粒和金属粘结剂化合而成。很不巧的是（由于错误翻译）陶瓷一词在含义上要么已经指所有带有碳化钛（TiC）基的硬金属或者简单地称其为渗钛碳氮化合物。尽管除了碳之外再没有其他任何一种单一的元素出现在所有的硬金属中，但真正的术语却是“碳化钨”。早期效果较好的品质都是基于碳基础之上，而且在今天也是也是应用最广泛的，如表1所示。 由于非常硬的硬质合金颗粒，特别是碳化钨在富铁基质的出现使得高速钢具有优异的加工能力。从纯碳化钨中制造切削刀具的现代制造方法是基于这项知识之上的。早期的硬质合金在用于工业用途时过于脆弱，但是不久发现将碳化钨粉末与大约10%的金属，如铁、镍或钴，允许压坯在大约1500℃下烧结，在这个过程中生成的产品具有低孔隙率、非常高的硬度，而且相当大的强度。这些性质的组合使得材料理想的适合用来作为切削金属的加工刀具。 用于切削刀具的硬质合金是在1927年被引入商业领域的，尽管重大的发现是在德国，许多后期的开发却是在美国、奥地利、瑞典和其他国家进行的。近年来在硬质合金切削工具中出现了两次“革命”，一次由美国领导，另一次由欧洲领导。它们的变化是由铜焊接硬质合金嵌入变成夹具嵌入，以及涂敷技术的迅速发展。 铜焊接的工具具有这样的优势：它们可以不断地进行重新研磨，直到基本没有硬质合