Gatunki materiałów wg raportu technicznego TR-ISO 15608
Przykładowe oznaczenie stali
Numer grupy | Numer podgrupy | Przykładowe oznaczenie stali | |
Znak | Norma | ||
1 | 2 | 3 | 4 |
Stale o granicy plastyczności Re ≤ 460 MPa1) o zawartości: C ≤ 0,25%; Si ≤ 0,60%; Mn ≤ 1,70%; Mo ≤ 0,70%2); S ≤ 0,045%; P ≤ 0,045%; Cu ≤ 0,40%2); Ni ≤ 0,5%2); Cr ≤ 0,3%2); Nb ≤ 0,05%; V ≤ 0,12%2); Ti ≤ 0,05% |
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1 | Stale o granicy plastyczności Re ≤ 275 Mpa | ||
1.1 | S235JR, S235J0, S235J2, S275JR, S275J0, S275J2, | PN-EN 10025-2 | |
S275N, S275NL, | PN-EN 10025-3 | ||
S275M, S275ML, | PN-EN 10025-4 | ||
P235GH, P265GH, 16Mo3, | PN-EN 10028-2 | ||
P275N, P275NH, P275NL1, P275NL2, | PN-EN 10028-3 | ||
L210GA, L235GA, L245GA, | PN-EN 10208-1 | ||
L245NB, L245MB, 16Mo3, | PN-EN 10208-2 | ||
S235JRH, S275J0H, S275J2H, S275NH, S275NLH, | PN-EN 10210-1 | ||
GP240GR, G17Mn5, | PN-EN 10213 | ||
P195TR1, P195TR2, P235TR1, P235TR2, P265TR1, P265TR2, | PN-EN 10216-1, PN-EN 10217-1PN-EN 10216-1, PN-EN 10217-1PN-EN 10216-1, PN-EN 10217-1PN-EN 10216-1, PN-EN 10217-1PN-EN 10216-1, PN-EN 10217-1PN-EN 10216-1, PN-EN 10217-1PN-EN 10216-1, PN-EN 10217-1PN-EN 10216-1, PN-EN 10217-1PN-EN 10216-1, PN-EN 10217-1PN-EN 10216-1, PN-EN 10217-1 |
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P195GH, P235GH, P265GH, 16Mo3, | PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5PN-EN 10216-2, PN-EN 10217-2, PN-EN 10217-5 |
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P275NL1, P275NL2, | PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3 |
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P215NL, P255QL, P265NL, | PN-EN 10216-4, PN-EN 10217-6PN-EN 10216-4, PN-EN 10217-6PN-EN 10216-4, PN-EN 10217-6PN-EN 10216-4, PN-EN 10217-6PN-EN 10216-4, PN-EN 10217-6PN-EN 10216-4, PN-EN 10217-6PN-EN 10216-4, PN-EN 10217-6PN-EN 10216-4, PN-EN 10217-6PN-EN 10216-4, PN-EN 10217-6 |
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P245GHX, | PN-EN 10222-2 | ||
E235, E275, E275K2, | PN-EN 10297-1 | ||
R35, R45, | PN-89/H-84023/07 | ||
K10, K18, 16M, | PN-75/H-84024 | ||
Stale o granicy plastyczności 275 MPa < Re ≤ 360 Mpa | |||
1.2 | S355JR, S355J0, S355J2, S355K2, | PN-EN 10025-2 | |
S355N, S355NL, | PN-EN 10025-3 | ||
P295GH, P355GH, 18MnMo4-5, | PN-EN 10028-2 | ||
P355N, P355NH, P355NL1, P355NL2, | PN-EN 10028-3 | ||
P355M, P355ML1, P355ML2, | PN-EN 10028-5 | ||
P355Q, P355QH, P355QL1, P355QL2, | PN-EN 10028-6 | ||
L290GA, L360GA, | PN-EN 10208-1 | ||
L290NB, L290MB, L360NB, L360MB, L360QB, | PN-EN 10208-2 | ||
S355J0H, S355J2H, S355NH, S355NLH, S460NH, S460NLH, | PN-EN 10210-1 | ||
GP280GH, G20Mn5, G18Mo5, | PN-EN 10213 | ||
20MnNb6, | PN-EN 10216-2 | ||
P355N, P355NH, P355NL1, P355NL2, | PN-EN 10216-3 PN-EN 10217-3PN-EN 10216-3 PN-EN 10217-3PN-EN 10216-3 PN-EN 10217-3PN-EN 10216-3 PN-EN 10217-3PN-EN 10216-3 PN-EN 10217-3PN-EN 10216-3 PN-EN 10217-3PN-EN 10216-3 PN-EN 10217-3PN-EN 10216-3 PN-EN 10217-3 |
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P285NH, P355NH, P285QH, P355QH, | PN-EN 10222-4 | ||
S355N1, S355N2, S355M1, S355M2, S355N3, S355M3, S355N3Z, S355M3Z,S355N1, S355N2, S355M1, S355M2, S355N3, S355M3, S355N3Z, S355M3Z,S355N1, S355N2, S355M1, S355M2, S355N3, S355M3, S355N3Z, S355M3Z,S355N1, S355N2, S355M1, S355M2, S355N3, S355M3, S355N3Z, S355M3Z,S355N1, S355N2, S355M1, S355M2, S355N3, S355M3, S355N3Z, S355M3Z,S355N1, S355N2, S355M1, S355M2, S355N3, S355M3, S355N3Z, S355M3Z,S355N1, S355N2, S355M1, S355M2, S355N3, S355M3, S355N3Z, S355M3Z,S355N1, S355N2, S355M1, S355M2, S355N3, S355M3, S355N3Z, S355M3Z, |
PN-EN 10225 | ||
E315, E355, | PN-EN 10297-1 | ||
Stale drobnoziarniste normalizowane o granicy plastyczności Re > 360 Mpa | |||
1.3 | S420N, S420NL, S460N, S460NL, | PN-EN 10025-3 | |
P460N, P460NH P460NL1, P460NL2, | PN-EN 10028-3 | ||
L415NB, | PN-EN 10208-2 | ||
8MoB5-4, | PN-EN 10216-2 | ||
P460N, P460NH, P460NL1, P460NL2, | PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3PN-EN 10216-3, PN-EN 10217-3 |
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P420NH, | PN-EN 10222-4 | ||
Stale trudno rdzewiejące | |||
1.4 | S235J0W, S235J2W, S355J0WP, S355J2WP, S355J2W, S355K2W, | PN-EN 10025-5 | |
Numer grupy | Numer podgrupy | Przykładowe oznaczenie stali | |
Znak | Norma | ||
1 | 2 | 3 | 4 |
Stale drobnoziarniste obrobione termomechanicznie o granicy plastyczności Re > 360 MPa | |||
2 | Stale drobnoziarniste obrobione termomechanicznie o granicy plastyczności 360 MPa < Re ≤ 460 MPa | ||
2.1 | P420M, P420ML1, P420ML2, P460M, P460ML1, P460ML2 | PN-EN 10028-5 | |
L415MB, L450MB | PN-EN 10208-2 | ||
S420MH, S420MLH, S460MH, S460MLH | PN-EN 10219-1 | ||
P420NH | PN-EN 10222-4 | ||
S390GP, S430GP | PN-EN 10248-1 | ||
Stale drobnoziarniste obrobione termomechanicznie o granicy plastyczności Re > 460 Mpa | |||
2.2 | L485MB, L555MB | PN-EN 10208-2 | |
Stale ulepszone cieplnie lub utwardzone wydzieleniowo o granicy plastyczności Re > 360 MPa z wyjątkiem stali odpornych na korozję | |||
3 | Stale ulepszone cieplnie o granicy plastyczności 360 MPa < Re ≤ 690 Mpa | ||
3.1 | S460Q, S460QL, S460QL1, S500Q, S500QL, S500QL1, S550Q, S550QL, S550QL1, S620Q, S620QL, S620QL, | PN-EN 10025-6 | |
P460Q, P460QH, P460QL1, P460QL2, P500Q, P500QH, P500QL1, P500QL2, P690Q, P690H, P690QL1, P690QL2, | PN-EN 10028-6 | ||
C35E, C35R, C40E, C40R, C45E, C45R, C50E, C50R, C55E, C55R, C60E, C60R, 28Mn6, | PN-EN 10083-2 | ||
L415QB, L450QB, L485QB, L555QB, | PN-EN 10208-2 | ||
38Cr2, 46Cr2, | PN-EN 10208-3 | ||
P620Q, P620QH, P620QL, P690Q, P690QH, P690QL1, P690QL2, | PN-EN 10216-3 | ||
P420QH, | PN-EN 10222-4 | ||
Stale ulepszone cieplnie o granicy plastyczności Re > 690 Mpa | |||
3.2 | 34Cr4, 34CrS4, 37Cr4, 37CrS4, 41Cr4, 41CrS4, 25CrMo4, 25CrMoS4, 34CrMo4, 34CrMoS4, 42CrMo4, 42CrMoS4, 50CrMo4, 34CrNiMo6, 30CrNiMo8, 36CrNiMo16, 51CrV4, | PN-EN 10083-3 | |
S690QH, S690QL, S690QL1, S890Q, S890QL, S890QL1, S960Q, S960QL, S890Q, S890QL, S890QL1, S960Q, S960QL, | PN-EN 10025-6 | ||
Stale niskowanadowe Cr-Mo-(Ni) o zawartości Mo ≤ 0,7%; V ≤ 0,1% | |||
4 | Stale o zawartości Cr ≤ 0,3% i Ni ≤ 0,7% | ||
4.1 | P215NL, P255QL, P265NL, | PN-EN 10216-4 | |
Stale o zawartości Cr ≤ 0,7%; Ni ≤ 1,5% | |||
4.2 | 5NiCuMoNb5-6-4, | PN-EN 10216-2 | |
Stale Cr-Mo bez wanadu (3) o zawartości C ≤ 0,35% | |||
5 | Stale o zawartości 0,75% ≤ Cr ≤ 1,5%; Mo ≤ 0,7% | ||
5.1 | 13CrMo4-5, 13CrMoSi5-5, | PN-EN 10028-2 | |
34CrMoS4, 25CrMoS4, | PN-EN 10208-2 | ||
10CrMo5-5, 13CrMo4-5, 25CrMo4, | PN-EN 10216-2 | ||
26CrMo4-2, | PN-EN 10216-4 | ||
15HM, | PN-75/H-84024 | ||
Stale o zawartości 1,5% < Cr ≤ 3,5%; 0,7% < Mo ≤ 1,2% | |||
5.2 | 10CrMo9-10, 12CrMo9-10, | PN-EN 10028-2 | |
11CrMo9-10, | PN-EN 10216-2 | ||
10H2M, | PN-75/H-84024 | ||
Stale o zawartości 3,5% < Cr ≤ 7,0%; 0,4% < Mo ≤ 0,7% | |||
5.3 | X16CrMo5-1, | PN-EN 10222-2 | |
X12CrMo5, | PN-EN 10028-2 | ||
X11CrMo5+L, X11CrMo5+NT1, X11CrMo5+NT2, | PN-EN 10216-2 | ||
Stale o zawartości 7,0% < Cr ≤ 10,0%; 0,7% < Mo ≤ 1,2% | |||
5.4 | X11CrMo9-1+I, X11CrMo9-1+NT, | PN-EN 10216-2 | |
Stale Cr-Mo-(Ni) o wysokiej zawartości wanadu | |||
6 | Stale o zawartości 0,3% ≤ Cr ≤ 0,75%; Mo ≤ 0,7%; V ≤ 0,35% | ||
6.1 | 14MoV6-3, | PN-EN 10216-2 | |
13HMF, | PN-75/H-84024 | ||
Stale o zawartości 0,75% < Cr ≤ 3,5%,; 0,7% < Mo ≤ 1,2%; V ≤ 0,35% | |||
6.2 | 13CrMoV9-10, 12CrMoV12-10, | PN-EN 10028-2 | |
Stale o zawartości 3,5% < Cr ≤ 7,0%; Mo ≤ 0,7%; 0,45% ≤ V ≤ 0,55% | |||
6.3 | 20CrMoV13-5-5, | PN-EN 10216-2 | |
Stale o zawartości 7,0% < Cr ≤ 12,5%; 0,7% < Mo ≤ 1,2%; V ≤ 0,35% | |||
6.4 | X10CrMoVNb9-1, | PN-EN 10028-2 | |
X20CrMoV11-1, | PN-EN 10216-2 | ||
Stale odporne na korozję ferrytyczne, martenzytyczne lub utwardzone wydzieleniowo o zawartości C ≤ 0,35%; 10,5% ≤ Cr ≤ 30% | |||
7 | Stale odporne na korozję ferrytyczne | ||
7.1 | X2CrNi12, X2CrTi12, X6CrNiTi12, X6Cr13, X6CrAl13, X2CrTi17, X6CrTi17, X6Cr17, X3CrTi17, X3CrNb17, X6CrMo17-1, X6CrMoS17, X2CrMoTi17-1, X2CrMoTi18-2, X2CrMoTiS18-2, X6CrNi17-1, X6CrMoNb17-1, X2CrNbZr17, X2CrAlTi18-2, X2CrTiNb18, X2CrMoTi29-4, | PN-EN 10088-1 | |
Stale odporne na korozję martenzytyczne | |||
7.2 | X12Cr13, X12CrS13, X20Cr13, X30Cr13, X29CrS13, X39Cr13, X46Cr13, X50CrMoV15, X70CrMo15, X14CrMoS17, X39CrMo17-1, X105CrMo17, X90CrMoV18, X17CrNi16-2, X3CrNiMo13-4, X4CrNiMo16-5-1, | PN-EN 10088-1 | |
Stale odporne na korozję utwardzone wydzieleniowo | |||
7.3 | X5CrNiCuNb16-4, X7CrNiAl17-7, X5CrNiMoCuNb14-5 | PN-EN 10088-1 | |
Odporne na korozję stale austenityczne | |||
8 | Odporne na korozję stale austenityczne o zawartości Cr ≤ 19% | ||
8.1 | X2CrNiN18-7, X2CrNi18-9, X2CrNi19-11, X5CrNi18-10, X6CrNi18-10, X6CrNiTi18-10, X2CrNiMo17-12-2, X6CrNiMoTi17-12-2, X2CrNiMo17-12-3, X2CrNiMo18-14-3, X2CrNiMoN17-13-5, X6CrNiNb18-10, X2CrNiMoN17-13-3, X3CrNiMo17-13-3, X2CrNiMoN18-12-4, | PN-EN 10028-7 | |
X10CrNi18-8, X8CrNiS18-9, X4CrNi18-12, X1CrNiSi18-15-4, X3CrNiCu19-9-2, X6CrNiCuS18-9-2, X3CrNiCu18-9-4, X3CrNiCuMo17-11-3-2, | PN-EN 10088-1 | ||
X7CrNiNb18-10, X3CrNiMo18-12-3, | PN-EN 10222-5 | ||
X7CrNiTi18-10, X7CrNiTiB18-10, X6CrNiMo17-13-2, X8CrNiMoNb16-16, X10CrNiMoMnNbVB15-10-1, | PN-EN 10216-5 | ||
1H18N9, 1H18N10T, 0H18N12Nb, | PN-71/H-86020 | ||
Odporne na korozję stale austenityczne o zawartości Cr > 19% | |||
8.2 | X6CrNi23-13, X6CrNi25-20, X1NiCrMoCu25-20-5, X5NiCrAlTi31-20,X8NiCrAlTi32-21, X1CrNi25-21, X1CrNiMoN25-22-2, | PN-EN 10028-7 | |
X2CrNi18-9, X2CrNiN18-10, X5CrNi18-10, X2CrNiCu19-10, | PN-EN 10222-5 | ||
X5NiCrAlTi31-20, X8NiCrAlTi32-21, | PN-EN 10216-5 | ||
Odporne na korozję stale austenityczne manganowe o zawartości 4,0% < Mn ≤ 12,0% | |||
8.3 | X12CrMnNiN17-7-5, X2CrMnNi17-7-5, X12CrMnNiN18-9-5, | PN-EN 10088-1 | |
Stale stopowe niklowe o zawartości Ni ≤ 10,0% | |||
9 | Stale stopowe niklowe o zawartości Ni ≤ 3,0% | ||
9.1 | 11MnNi5-3, 13MnNi6-3, 15NiMn6, | PN-EN 10028-4 | |
13MnNi6-3, 15NiMn6, | PN-EN 10222-3 | ||
Stale stopowe niklowe o zawartości 3,0% < Ni ≤ 8,0% | |||
9.2 | 12Ni14, X12Ni5, | PN-EN 10028-4 | |
Stale stopowe niklowe o zawartości 8,0% < Ni ≤ 10,0% | |||
9.3 | X8Ni9, X7Ni9, | PN-EN 10028-4 | |
X10Ni9, | PN-EN 10216-4 | ||
Stale odporne na korozję austenityczno-ferrytyczne (duplex) | |||
10 | Stale austenityczno-ferrytyczne o zawartości Cr ≤ 24,0% | ||
10.1 | X2CrNiMoN22-5-3, X2CrNiN23-4, | PN-EN 10088-1 | |
X2CrNiMo22-5-3, | PN-EN 10222-5 | ||
X2CrNiMoSi18-5-3, | PN-EN 10216-5 | ||
Stale austenityczno-ferrytyczne o zawartości Cr > 24,0% | |||
10.2 | X2CrNiMoN25-7-4, X3CrNiMoN27-5-2, X2CrNiMoCuN25-6-3, X2CrNiMoCuWN25-7-4, | PN-EN 10088-1 | |
Stale o granicy plastyczności Re ≤ 460 Mpa o zawartości 0,25% < C ≤ 0,50%; Si ≤ 0,60%; Mn ≤ 1,70%; Mo ≤ 0,70% 4); S ≤ 0,045%; P ≤ 0,045%; Cu ≤ 0,40% 4); Ni ≤ 0,5% 4); Cr ≤ 0,3% 4); Nb ≤ 0,05% V ≤ 0,12% 4); Ti ≤ 0,05% | |||
11 | Stale o zawartości 0,25% < C ≤ 0,35% | ||
11.1 | C35, | PN-EN 10083-2 | |
Stale o zawartości 0,35% < C ≤ 0,50% | |||
11.2 | C40, C45, | PN-EN 10083-2 |