Home / KNOW HOW / Alloys

Alloys

Below, you can find some of the copper alloys we produce, classified by family (bronze, brass, aluminium bronze, pure copper or with low alloys & nickel copper), together with their approximate connections. They constitute only a few examples of our manufacturing potential so please feel free to contact us for all of your requirements.

((Click on to the button of each family of alloys listed here below to see their equivalent in several international standards))

COPPER ALLOYS

WNr.NFAENDINBSASTM
CC492K CuSn7Zn2Pb3-C-GS
CC492K - EN 1982
LG4
BS 1400
C92410
CC493K Cu Sn 7 Pb 6 Zn 4
NFA 53707
CuSn7Zn4Pb7-C-GS
CC493K - EN 1982
GZ - Cu Sn 7 Zn Pb
WNr. 2.1090 - DIN 1705
Rg7
LG2
(with Sn 6 up to 8 %)
BS 1400
C93200
ASTM B 584
CC480K CuSn10-C-GS
CC480K - EN 1982
G - CuSn 10
WNr. 2.1050 - DIN 1705
CT1
BS 1400
Cu Sn 10 Zn
WNr. 2.1086 - DIN 1705
Rg10
G1
BS 1400
C90500
ASTM B 584
CC481K Cu Sn 12 P
NFA 53707
CuSn11P-C-GS
CC481K - EN 1982
C91600
CC482K CuSn11Pb2-C-GS
CC482K - EN 1982
Cu Sn 12 Pb
WNr. 2.1061 - DIN 1705
C92500
CC483K Cu Sn 12
NFA 53707
CuSn12-C-GS
CC483K - EN 1982
Cu Sn 12
WNr. 2.1052 - DIN 1705
PB2
BS 1400
CC484K
CC484K Cu Sn 12 Ni 2 CuSn12Ni2-C-GS
CC484K - EN 1982
Cu Sn 12 Ni
WNr. 2.1060 - DIN 1705
CT2
BS 1400
C91700
Cu Sn 14
NFA 53707
G - CuBz 14
DIN 1705-53
C91000
ASTM B505

(The equivalence between the standards is not absolute and some variations in composition may exist.))


WNr.NFAENDINBSASTM
CC495K CuSn5Pb9-C
CC494K - EN 1982
LB4
BS 1400
C93500
CC495K Cu Sn 10 Pb 10
NFA 53707
CuSn10Pb10-C
CC495K - EN 1982
Cu Pb 10 Sn
WNr. 2.1176 - DIN 1716
LB2
BS 1400
C93700
ASTM B 584
CC496K CuSn7Pb15-C
CC496K - EN 1982
Cu Pb 15 Sn
WNr. 2.1182 - DIN 1716
LB1
BS 1400
C93800
ASTM B 584
CC497K Cu Pb 20 Sn 5
NFA 53707
CuSn5Pb20-C
CC497K - EN 1982
Cu Pb 20 Sn
WNr. 2.1188 - DIN 1716
LB5
BS 1400
C94100
ASTM B 505

(The equivalence between the standards is not absolute and some variations in composition may exist.)


WNr.NFAENDINBSASTM
CC762S Cu Zn 19 Al 6
NFA 53707
CuZn25Al5Mn4Fe3-C
CC762S - EN 1982
Cu Zn 25 Al 5
WNr. 2.0598 - DIN 1709
G-SoMs F75
HTB 3
BS 1400
C86300
ASTM B 584
CuZn 23 Al 4
NFA 53703
C86200
ASTM B 584
CC750S CuZn 33 Pb
NFA 53703
CuZn33Pb2-C
CC750S - EN 1982
G - CuZn 33 Pb
WNr. 2.0290 - DIN 1709
G-Ms65
SCB3
BS 1400
C85700
ASTM B 584
CC764S CuZn34Mn3Al2Fe1-C
CC764S - EN 1982
Cu Zn 34 Al 2
WNr. 2.0596 - DIN 1709
G-SoMs F60
HTB 1
BS 1400
C86700
ASTM B 584
CC765S CuZn35Mn2Al1Fe1-C
CC765S - EN 1982
Cu Zn 35 Al 1
WNr. 2.0592 - DIN 1709
G-SoMs F45
HTB 1
BS 1400
C86700
ASTM B 584
CC754S Cu Zn 40
NFA 53703
CuZn39Pb1Al-C
CC754S - EN 1982
Cu Zn 40 Pb 2
WNr. 2.0403 - DIN 17660
MS58
DCB 3 / PCB 1
BS 1400
C86400 / C86500
ASTM B 584

(The equivalence between the standards is not absolute and some variations in composition may exist.)


WNr.NFAENDINBSASTM
CC330G Cu Al 9
NFA 53709
CuAl9-C
CC330G - EN 1982
C95300
ASTM B 148
CC331G Cu Al 10 Fe 3
NFA 53709
CuAl10Fe2-C
CC331G - EN 1982
Cu Al 10 Fe
WNr. 2.0940 - DIN 1714
AB1
BS 1400
C95200
ASTM B 148
CC332G CuAl 9 Ni 3 fe 2
NFA 53709
CuAl10Ni3Fe2-C
CC332G - EN 1982
CuAl 9 Ni
WNr. 2.0970 - DIN 1714
CC333G Cu Al 10 Fe 5 Ni 5
NFA 53709
CuAl10Fe5Ni5-C
CC333G - EN 1982
Cu Al 10 Ni
WNr. 2.0975 - DIN 1714
AB2
BS 1400
C95800
ASTM B 148
CC334G Cu Al 12 Fe 5 Ni 5
NFA 53709
CuAl11Fe6Ni6-C
CC334G - EN 1982
Cu Al 11 Ni
WNr. 2.0980 - DIN 1714
C95520
ASTM B 148

(The equivalence between the standards is not absolute and some variations in composition may exist.)


MIL - C 12166

WNr.NFAENDINBSASTM
CC040A Cu - A1
NFA 53100
Cu-C
CC040A - EN 1982
G - Cu L 50
WNr. 2.0085.01 - DIN 17655
C11000
CC140C Cu Cr 1 CuCr1-C
CC140C - EN 1982
G - Cu Cr F 35
WNr. 2.1292.61 - DIN 17655
CC1 - TF
BS 1400
C81500
MIL - C 19310

(The equivalence between the standards is not absolute and some variations in composition may exist.)


WNr.NFAENDINBSASTM
CC380H CuNi10
NFA 53715
CuNi10Fe1Mn1-C
CC380B - EN 1982
G - CuNi 10
WNr. 2.0815.01 - DIN 17658
C96200
ASTM B369Alloy 25
MIL-C-15345

For special request, customer may supply a particular specification for which we will create the technical sheet.

(The equivalence between the standards is not absolute and some variations in composition may exist.)