Stainless-steel alloys
LBI produces a very wide range of alloys. Our know-how combined with our laboratory and control resources enables us to meet the very diverse needs of the worldwide market.
Production
We present below some of the alloys we produce, listed by family (Heat resisting, Martensitic, Austenitic, Austeno-ferritic & Duplex steels, Nickel based alloys), as well as their approximate equivalent specifications. They constitute only a few examples of our manufacturing potential, so please enquire to our specialist team for all of your requirements.
Alloy grades
-
WNr. NFA EN DIN BS ASTM 1.4832 GX25CrNiSi20-14
WNr. 1.4832 – EN 10295GX25CrNiSi20-14
WNr. 1.4832 – DIN 174651.4837 Z 40 CN 25 12
NFA 32057GX40CrNiSi25-12
WNr. 1.4837 – EN 10295 – ISO 13583G-X 40 CrNiSi 25 12
WNr. 1.4837 – DIN 17 465309C30 / 309C32 / 309C35
BS 3100HH
ASTM A2971.4837 Z 40 CN 25 12
NFA 32057GX40CrNiSi25-12
WNr. 1.4837 – EN 10295 – ISO 13583G-X 40 CrNiSi 25 12
WNr. 1.4837 – DIN 17 465309C30 / 309C32 / 309C35
BS 310025-12
ASTM A4471.4837 Z 40 CN 25 12
NFA 32057GX40CrNiSi25-12
WNr. 1.4837 – EN 10295 – ISO 13583G-X 40 CrNiSi 25 12
WNr. 1.4837 – DIN 17 465309C30 / 309C32 / 309C35
BS 3100HH30 – HH33
ASTM A6081.4840 Z 8 CN 25 20
NFA 32056G-X 15 CrNi 25 20
WNr. 1.4840 – SEW 595CK20
ASTM A351/A7431.4840 Z 8 CN 25 20
NFA 32056G-X 15 CrNi 25 20
WNr. 1.4840 – SEW 595CPK20
ASTM A4511.4848 Z 40 CN 25 20
NFA 32057GX40CrNiSi25-20
WNr. 1.4848 – EN 10295G-X 40 CrNiSi 25 20
WNr. 1.4848 – DIN 17465 – SEW 595310C40 / 310C45
BS 3100HK
ASTM A351/A6081.4848 Z 40 CN 25 20
NFA 32057GX40CrNiSi25-20
WNr. 1.4848 – EN 10295G-X 40 CrNiSi 25 20
WNr. 1.4848 – DIN 17465 – SEW 595310C40 / 310C45
BS 3100HK30
ASTM A351/A6081.4848 Z 40 CN 25 20
NFA 32057GX40CrNiSi25-20
WNr. 1.4848 – EN 10295G-X 40 CrNiSi 25 20
WNr. 1.4848 – DIN 17465 – SEW 595310C40 / 310C45
BS 3100HK
ASTM A2971.4823 Z 30 CN 26-05
NFA 32057GX40CrNiSi27-4
WNr. 1.4823 – EN 10295GX40 CrNiSi27-4
WNr. 1.4823 – DIN 17465HD 50
ASTM A6081.4339 G-X 32 CrNi 28 10
WNr. 1.4339309 C 40 BS 3100 CE-30
ASTM A743
HE
ASTM A297
HE35
ASTM A6081.4859 GX10NiCrSiNb32-20
WNr. 1.4859 – EN 10213 – EN 10295G-X 10 NiCrNb 32 20
WNr. 1.4859 – SEW 595CT15C
ASTM A3511.4859 GX12NiCrSiNb32-21
ISO 13583-2G-X 10 NiCrNb 32 20
WNr. 1.4859 – SEW 595CT15C
ASTM A351 -
WNr. NFA EN DIN BS ASTM 1.4931 GX23CrMoV12-1
WNr. 1.4931 NFA 32060GX23CrMoV12-1
WNr. 1.4931 EN 10213 EN 10293X22CrMoV12-1
WNr. 1.4923CA-28MWV
ASTM A7431.4011 GX12Cr12
WNr. 1.4011 NFA 32060
Z12C 13
NFA 32059GX12Cr12
WNr. 1.4011 EN 10283X10Cr13
WNr. 1.4006
X15Cr13
WNr. 1.4024420C21/420C28/420C29
BS 3100CA-15
ASTM A217 / A487 / A743
CA-15M
ASTM A487 / A743
approx, AISI 4101.4027 Z 22 C 13
NFA 32059GX20Cr14
WNr. 1.4027 SEW 410420C24
BS 3100Z30 Cr 13
NFA 32060X 30 Cr 13
WNr. 1.4028CA-40 / CA-40F
ASTM A7431.4107 GX8CrNi12
WNr. 1.4107 NFA 32060
Z 6 CN 12-1
NFA 32059GX8CrNi12
WNr. 1.4107 EN 10213-2G-X 8 CrNi 13
WNr. 1.4008 DIN 174451.4008 GX7CrNiMo12-1
WNr. 1.4008 NFA 32060GX7CrNiMo12-1
WNr. 1.4008 EN 102831.4317 / 1.6982 GX4CrNi13-4
WNr. 1.4317 NFA 32060
GX3CrNi13-4
WNr. 1.6982 NFA 32060GX4CrNi13-4
WNr. 1.4317 – EN 10213 – EN 10283 – EN 10293 – EN 10340
G-X3CrNi13-4
WNr. 1. 6982 – EN 10213 – EN 10293G-X5 CrNi 13 4
WNr. 1.4313 – DIN 17445
GX4CrNi13-4
WNr. 1.4317 – SEW 520425C11
BS 31001.4407 / 1.4414 Z4 CND 13 4
NFA 32059 – NFA 32060GX3CrNi13-4
WNr. 1.6982 – SEW 685-89
GX5CrNiMo13-4
WNr. 1.4407
GX4CrNiMo13-4
WNr. 1.4414425C12
BS 3100CA-6NM / E3N
ASTM A7431.4059 Z 15 CN 16-2
NFA 35574GX22CrNi17
WNr. 1.4059 – SEW 410ANC 2
BS 3146approx, UNS S43100 1.4421 GX4CrNi16-4
NFA 32060
Z4 CN 16-4
NFA 32059GX4CrNi16-4
WNr. 1.4421 – EN 10293CB6
ASTM A7431.4405 GX4CrNiMo16-5-1
WNr. 1.4405 – NFA 32060
Z4 CND 16-4
NFA 32059GX4CrNiMo16-5-1
WNr. 1.4405 – EN 10213 – EN 10283 – EN 10293 – EN 10340G-X5 CrNiMo 16.5
WNr. 1.4405 – SEW 410
G-X3 CrNiMo 16-5
WNr. 1.6983 – SEW 6851.4411 GX4CrNiMo16-5-2
WNr. 1.4411 – NFA 32060GX4CrNiMo16-5-2
WNr. 1.4411 – EN 102831.4525 GX5CrNiCu16-4
WNr. 1.4425 – NFA 32060
Z5 CNU 16 4
NFA 32059GX5CrNiCu16-4
WNr. 1.4525 – EN 10283ANC 22
BS 3146CB7 Cu-1
ASTM A743 -
WNr. NFA EN DIN BS ASTM 1.4309 GX2CrNi19-11
WNr. 1.4309 – NFA 32060
Z 2 CN 18-10
NFA 32056GX2CrNi19-11
WNr. 1.4309 – EN 10213 – EN 10283 – EN 10340G-X 2 CrNiN 18 9
WNr. 1.4306 – SEW 410304C12
BS 3100CF3
ASTM A451/A743/A744
CF3A
ASTM A351
CPF3 – CPF3A
ASTM A4511.4308 GX5CrNi19-10
NFA 32060
Z 6 CN 18-10
NFA 32056GX5CrNi19-10
WNr. 1.4308 – EN 10213-4 – EN 10283G-X 6 CrNi 18 9
WNr. 1.4308 – DIN 17 445
G-X 6 CrNi18 10
WNr. 1.6902 – SEW 685304C15
BS 3100CF8
ASTM A351/A743/A744
CF8A – CF10
ASTM A351
CPF8 – CPF8A
ASTM A4511.4552 GX5CrNiNb19-11
WNr. 1.4552 – NFA 32060
Z6 CNNb 18-10
NFA 32056GX5CrNiNb19-11
WNr. 1.4552 – EN 10213 – EN 10283G-X 5 CrNiNb 18 9
WNr. 1.4552 – DIN 17 445347C17
BS 3100CF8C
ASTM A351/A743/A744
CPF8C
ASTM A4511.4409 GX2CrNiMo19-11-2
WNr. 1.4409 – NFA 32060
Z2 CND 18-12
NFA 32056GX2CrNiMo19-11-2
WNr. 1.4409 – EN 10213 – EN 10283 – EN 10340G-X 2 CrNiMoN 18 10
WNr. 1.4404 – SEW 410316C12
BS 3100CF3M / CF3MN
ASTM A351/A743/A744
CF 3 MN
ASTM A 351/A4511.4408 GX5CrNiMo19-11-2
WNr. 1.4408 – NFA 32060
Z6 CND 18-12
NFA 32056GX5CrNiMo19-11-2
WNr. 1.4408 – EN 10213 – EN 10283G-X 6 CrNiMo 18 10
WNr. 1.4408 – DIN 17 445316C16
BS 3100CF8M
ASTM A351/A743/A744
CF 10 M
ASTM A351
CPF8M
ASTM A4511.4581 GX5CrNiMoNb19-11-2
WNr. 1.4581 – NFA 32060
Z6 CNDNb 18-12
NFA 32056GX5CrNiMoNb19-11-2
WNr. 1.4581 – EN 10213 – EN 10283G-X 5 CrNiMoNb 18 10
WNr. 1.4581 – DIN 17 445318C17
BS 3100approx, 316Cb – S31640 1.4446 GX2CrNiMoN17-13-4
WNr. 1.4446 – NFA 32060GX2CrNiMoN17-13-4
WNr. 1.4446 – EN 10283approx, X2CrNiMo17-13-3
WNr. 1.4429 – DIN 17440approx, 317L 1.4584 GX2NiCrMoCu25-20-5
WNr. 1.4584 – NFA 32060
Z2 NCDU 25.20.04
NFA 32056GX2NiCrMoCuN25-20-5
WNr. 1.4584 – EN 10213 – EN 10283approx, X2NiCrMoCuN25-20
WNr. 1.4536 – SEW 410approx, 332C11
BS 3100approx, UNS N08904 1.4859 GX10NiCrSiNb32-20
WNr. 1.4859 – EN 10213 – EN 10295
GX12NiCrSiNb32-21
ISO 13583G-X 10 NiCrNb 32 20
WNr. 1.4859 – SEW 595CT15C
ASTM A351 -
WNr. NFA EN DIN BS ASTM 1.4470 / 1.4462 GX2CrNiMoN22-5-3
NFA 32060G-X2CrNiMoN22-5-3
WNr. 1.4470 – EN 10213-4 – EN 10283X2 CrNiMoN 22.5.3
WNr. 1.4462 – SEW 400332C15
BS 3100Grade 4A
ASTM A890/A995
UNS J93183
ASTM A8721.4460 Z3 CND 25.06 Az
NFA 35574X4 CrNiMoN 27.5.2
WNr. 1.4460 – SEW 400Grade 3A
ASTM A890/A995 – UNS S 329501.4468 GX2CrNiMoN25-6-3
WNr. 1.4468 – NFA 32060G-X2CrNiMoN25-6-3
WNr. 1.4468 – EN 10283 – EN 10340G-X3CrNiMoN27-6-3
WNr. 1.4468 – SEW 410-88approx332C15
BS 3100UNS J93550
ASTM A8721.4517 GX2CrNiMoCuN25-6-3-3
WNr. 1.4517 – NFA 32060GX2CrNiMoCuN25-6-3-3
WNr. 1.4517 – EN 10213-4 – EN 10283GX3CrNiMoCuN24-6-2-3
WNr. 1.4593 – SEW 410332C13
BS 3100CD-4MCu
ASTM A351/A744
Grade 1A
ASTM A 890
Grade 1B
ASTM A890/A9951.4417 GX2CrNiMoN25-7-3
WNr. 1.4417 – NFA 32060GX2CrNiMoN26-7-3
WNr. 1.4417 – EN 10213 – EN 10283Grade 6A
ASTM A890/A9951.4469 GX2CrNiMoN25-7-4
WNr. 1.4469 – NFA 32060GX2CrNiMoN26-7-4
WNr. 1.4469 – EN 10213 – EN 10283G-X2CrNiMoN25-7-4
WNr. 1.4469 – SEW 410-88CD3MWCu N
ASTM A351
Grade 5A
ASTM A8901.4340 / 1.4823 Z 30 CN 26-05
NFA 32057GX40CrNiSi27-4
WNr. 1.4823 – EN 10295G-X40 CrNi 27.4
WNr. 1.4340 – SEW 410HD 50
ASTM A608 -
WNr. NFA EN DIN BS ASTM 2.4360 / 2.4365 C-NU 30
NC4135 – NFA 32060
NiCu30
NFA 53715G-NiCu 30 Nb
WNr. 2.4365.01 – DIN 17 730
NiCu 30 Fe
WNr. 2.4360 – DIN 17 743ANC 18 grade A
BS 3146M35-1 / M35-2
ASTM A494
Alloy 18
MIL-C-15345C-NiCu30Si
NC4020 – NFA 32060M-30C
ASTM A494
Alloy 18 / 19
MIL-C-15345G-CuNi 30 Si 3
WNr. 2.4367.01 – DIN 17730ANC 18 Grade B M-30H
ASTM A494
Alloy 16
MIL-C-15345C-NiCu30Si4
NFA 32060
NiCu30Si4
NFA 53715NiCu30Si 4
WNr. 2.4367.01 – DIN 17730ANC 18 Grade C
BS 3146M-25S
ASTM A494
Alloy 17
MIL-C-153452.4816 NiCr16Fe
WNr. 2.4816 – DIN 17742CY-40
ASTM A4942.4851 NiCr 23 Fe
WNr .2.4851 – DIN 17742UNS N 06601 2.4856 C-NiCr22Mo9Nb4
NFA 32060NiCr22Mo9Nb
WNr. 2.4856 – DIN 17742CW-6MC
ASTM A494
Dimensions and shapes
4,5 m
6 m
The centrifugal casting process (or spun casting) is mainly suitable for cylindrical or hollow pieces (rings, tubes etc…). Conical shapes, several different diameters or flange(s) can be obtained on the “as cast” outer profile.
As we do not use cores, the inside diameter is cylindrical and is achieved by the quantity of liquid metal poured into the tooling.
Our extensive range of tooling (more than 1500 dies) enables us to reach the ideal cast sizes and shapes, consequently to propose the most economical solutions.