Cross-referencing between numeric and alphanumeric temper designations of DIN 17670 and DIN 17671

摘要:

Standard specifications DIN 17670 and DIN 17671 describe difference between alphanumeric and numeric temper designation system for wrought copper alloys. In this article are given cross-reference tables for plates, sheets, strips and tubes of wrought copper and copper alloys.

DIN 17670 Plate, sheet and strip of wrought copper and copper alloys

Copper
Alphanumeric designation Numeric designation
SW-Cu F20 2.0076.10
F22 .10
F25 .26
F30 .30
F37 .32
SF-Cu F20 2.0090.10
F22 .10
F25 .26
F30 .30
F37 .32

Cu - Zn Alloy
Alphanumeric designation Numeric designation
CuZn5 F22 2.0220.10
F27 .26
F33 .30
CuZn10 F24 2.0230.10
F30 .26
F36 .30
CuZn15 F26 2.0240.10
F32 .26
F38 .30
F47 .32
CuZn20 F27 2.0250.10
F33 .26
F40 .30
F50 .32
CuZn28 F28 2.0261.10
F36 .26
F43 .30
F53 .32
CuZn30 F28 2.0265.10
F36 .26
F43 .30
F53 .32
CuZn33 F29 2.0280.10
F39 .26
F44 .30
F54 .32
CuZn37 F30 2.0321.10
K15 .11
F38 .26
F45 .30
F55 .32
F62 .34
CuZn36 F30 2.0335.10
K15 .11
F38 .26
F45 .30
F55 .32
F62 .34
CuZn40 F35 2.0360.10
F42 .26
F48 .30

Cu - Zn Alloys with Lead
Alphanumeric designation Numeric designation
CuZn36Pb1,5 F30 2.0331.10
F38 .26
F45 .30
F55 .32
CuZn37Pb0,5 F30 2.0332.10
F38 .26
F45 .30
F55 .32
CuZn38Pb1,5 F35 2.0371.10
F42 .26
F48 .30
F55 .32
CuZn39Pb0,5 F35 2.0372.10
F42 .26
F48 .30
F55 .32
CuZn39Pb2 F37 2.0380.10
F44 .26
F50 .30
F60 32
F67 .34
CuZn40Pb2 F39 2.0402.10
F45 .26
F53 .30
F62 .32

Cu - Al Alloys and Other Alloying Elements
Alphanumeric designation Numeric designation
CuZn20Al F35 2.0460.10
CuZn28Sn F33 2.0470.10
CuZn31Si F38 2.0490.10
F45 .27
F52 .31
F60 .33
CuZn39Sn F35 2.0530.10

Cu - Sn Alloys
Alphanumeric designation Numeric designation
CuSn2 F26 2.1010.10
CuSn6 F35 2.1020.10
F41 .26
F48 .30
F56 .32
F65 .34
F75 .36
CuSn8 F38 2.1030.10
F46 .26
F53 .30
F60 .32
F70 .34
CuSn6Zn F62 2.1080.30
F70 .32
F77 .34

Cu - Ni - Zn Alloys
Alphanumeric designation Numeric designation
CuNi12Zn24 F35 2.0730.10
F42 .26
F48 .30
F55 .32
F62 .34
CuNi12Zn30Pb F50 2.0780.30
F60 .32
CuNi18Zn20 F38 2.0740.10
F44 .26
F53 .30
F62 .32
CuNi25Zn15 F40 2.0750.10
F47 .26
F55 .30

Cu - Ni Alloys
Alphanumeric designation Numeric designation
CuNi5Fe F24 2.0862.10
CuNi10Fe F28 2.0872.10
CuNi20Fe F30 2.0878.10
CuNi25 F30 2.0830.10
CuNi30Fe F32 2.0882.10
CuNi44 F45 2.0842.10

Cu - Al Alloys
Alphanumeric designation Numeric designation
CuAl5 F35 2.0916.10
F45 .30
CuAl8 F38 2.0920.10
CuAl8Fe F45 2.0932.97
CuAl10Ni F56 2.0966.07

Low Alloyed Cu
Alphanumeric designation Numeric designation
CuCoBe F65 2.1285.60
F70 .75
F75 .76
CuCr F38 2.1291.60
F45 .73
CuCrZr F38 2.1293.60
F45 .73
CuNi1,5Si F45 2.0853.60
F60 .73
CuNi2Si F50 2.0855.60
F65 .73

DIN 17671 Tubes of wrought copper and copper alloys

Copper
Alphanumeric designation Numeric designation
SW-Cu p 2.0076.08
Zh .20
F20 .10
F22 .10
F25 .26
F30 .30
F37 .32
SF-Cu p 2.0090.08
zh .20
F20 .10
F22 .10
F25 .26
F30 .30
F37 .32

Cu - Zn Alloy
Alphanumeric designation Numeric designation
CuZn5 p 2.0220.08
F22 .10
F27 .26
F33 .30
CuZn10 p 2.0230.08
F24 .10
F30 .26
F36 .30
CuZn15 p 2.0240.08
F26 .10
F32 .26
F38 .30
CuZn20 p 2.0250.08
F27 .10
F33 .26
F40 .30
CuZn28 p 2.0261.08
F28 .10
F36 .26
F43 .30
CuZn30 p 2.0265.08
F28 .10
F36 .26
F43 .30
CuZn33 p 2.0280.08
F29 .10
F37 .26
F44 .30
F54 .32
CuZn36 p 2.0335.08
F30 .10
F38 .26
F45 .30
F55 .32
CuZn37 p 2.0321.08
zh .20
F30 .10
F38 .26
F45 .30
F55 .32
CuZn40 p 2.0360.08
F35 .10
F42 .26
F48 .30

Cu - Zn Alloys with Pb
Alphanumeric designation Numeric designation
CuZn36Pb1,5 p 2.0331.08
F30 .10
F38 .26
F45 .30
F55 .32
CuZn37Pb0,5 p 2.0332.08
F30 .10
F38 .26
F45 .30
F55 .32
CuZn36Pb3 p 2.0375.08
F35 .10
F41 .26
F47 .30
CuZn38Pb1,5 p 2.0371.08
F34 .10
F41 .26
F48 .30
CuZn39Pb0,5 p 2.0372.08
F35 .10
F42 .26
F48 .30
CuZn39Pb3 p 2.0380.08
zh .20
F37 .10
F44 .26
F51 .30
CuZn40Pb2 p 2.0402.08
zh .20
F37 .10
F44 .26
F51 .30

Cu - Zn and other Alloying Elements
Alphanumeric designation Numeric designation
CuZn20Al p 2.0460.08
F35 .10
CuZn31Si p 2.0490.08
F45 .27
F50 .31
CuZn35Ni p 2.0540.08
F50 .27
F55 .31
CuZn37Al p 2.0510.08
F40 .09
F45 .27
F50 .31
CuZn40Al1 p 2.0561.08
F40 .09
F45 .27
F50 .31
CuZn40Al2 p 2.0550.08
F55 .97
F60 .31
CuZn40Ni p 2.0571.08
F45 .27
F50 .31
CuZn40Mn p 2.0572.08
F45 .27
F50 .31
CuZn40MnPb p 2.0580.08
F40 .09
F45 .27
F50 .31

Cu - Sn Alloys
Alphanumeric designation Numeric designation
CuSn2 p 2.1010.08
F28 .10
CuSn6 p 2.1020.08
F35 .10
F41 .26
F50 .30
F52 .32
CuSn8 p 2.1030.08
F40 .10
F46 .26
F50 .30

Cu - Ni - Zn Alloys
Alphanumeric designation Numeric designation
CuNi12Zn24 p 2.0730.08
F35 .10
F43 .26
F50 .30
CuNi18Zn20 p 2.0740.08
F38 .10
F45 .26
F55 .30

Cu - Ni Alloys
Alphanumeric designation Numeric designation
CuNi5Fe p 2.0862.08
F28 .10
CuNi10Fe p 2.0872.08
F30 .10
CuNi30Fe p 2.0882.08
F37 .10
F50 .26

Cu - Al Alloys
Alphanumeric designation Numeric designation
CuAl5 p 2.0916.08
F35 .10
CuAl8 p 2.0920.08
F38 .10
F50 .30
CuAl8Fe p 2.0932.08
F40 .10
F55 .30
CuAl10Fe p 2.0936.08
F65 .98
CuAl9Mn p 2.0960.08
F45 .97
F58 .98
CuAl10Ni p 2.0966.08
F65 .97
CuAl11Ni p 2.0978.08
F70 .97

Low - Alloyed Copper Alloys
Alphanumeric designation Numeric designation
CuAsP p 2.1491.08
zh .20
F20 .10
F22 .10
F25 .26
F30 .30
F37 .32
CuMn2 p 2.1363.08
F30 .10
CuMn5 p 2.1366.08
F36 .10
CuSi2Mn p 2.1522.08
F30 .10
F34 .26
F40 .30
CuSi3Mn p 2.1525.08
F35 .10
F45 .26
CuSP p 2.1498.08
F27 .26
CuTeP p 2.1546.08
F27 .26

Low-Alloyed Copper Alloys
Alphanumeric designation Numeric designation
CuAsP F20 2.1491.10
F22 .10
F25 .26
F30 .30
F37 .32
CuMn2 F30 2.1363.10
CuMn5 F36 2.1366.10
CuSi2Mn F30 2.1522.10
F37 .26
F45 .30
CuSi3Mn F36 2.1525.10
F50 .26
F60 .30

搜索钢材指南知识库

输入搜索词:

搜索项

全文
关键字

标题
摘要

With Total Materia finding information about a metal standard specification, its current status and the materials it defines is one click away.

Within seconds it is also possible for you to find related detailed material property data or search equivalent materials starting from the Total Materia standard list.

To get started, click on the standard list button in the menu bar.

solution img

By simply selecting a Standard Development Organization (SDO) and/or typing the standard number, you receive immediate results from the multi-lingual database containing over 30,000 standards.

For example, you can review all metal standards from UNI by selecting this SDO from the popup.

solution img

The result list consists of over 1400 UNI metal standards. Information includes: standard description, year of last issue, current status (valid, replaced, etc.) and a hot link to the materials defined by this standard.

solution img

By simply clicking the materials hot link, you can see a list of metal materials defined by the selected standard.

solution img

From the list of materials, you can review detailed properties and equivalents of each material.

solution img

For you’re a chance to take a test drive of the Total Materia database, we invite you to join a community of over 150,000 registered users through the Total Materia Free Demo.