EN10216

Steel grade		C	Si	Mn	P	S	Cr b	Mo b	Ni b	Al tot	Cu b c	Nb b	Cr+Cu +Mo+Ni
Steel name	Steel number	max.	max.	max.	Max.	max.	max.	max.	max.	min.	max.	max.	max. b
P195TR1	1.0107	0,13	0,35	0,70	0,025	0,020	0,30	0,08	0,30	-	0,30	0,010	0,70
P195TR2	1.0108	0,13	0,35	0,70	0,025	0,020	0,30	0,08	0,30	0,02 d	0,30	0,010	0,70
P235TR1	1.0254	0,16	0,35	1,20	0,025	0,020	0,30	0,08	0,30	-	0,30	0,010	0,70
P235TR2	1.0255	0,16	0,35	1,20	0,025	0,020	0,30	0,08	0,30	0,02 d	0,30	0,010	0,70
P265TR1	1.0258	0,20	0,40	1,40	0,025	0,020	0,30	0,08	0,30	-	0,30	0,010	0,70
P265TR2	1.0259	0,20	0,40	1,40	0,025	0,020	0,30	0,08	0,30	0,02 d	0,30	0,010	0,70

EN 10216-2 Chemical Composition:

Steel grade		C	Si	Mn	p	s	Cr	Mo	Ni	Altot	Cu	Ti max
Steel name	Steel number	C	Si	Mn	max	max	Cr	Mo	Ni	Altot	Cu	Ti max
P195GH	1.0348	=0.13	=0.35	=0.70	0.025	0.020	=0.30	=0.08	=0.30	=0.020	=0.30	0.040
P235GH	1.0345	=0.16	=0.35	=1.20	0.025	0.020	=0.30	=0.08	=0.30	=0.020	=0.30	0.040
P265GH	1.0425	=0.20	=0.40	=1.40	0.025	0.020	=0.30	=0.08	=0.30	=0.020	=0.30	0.040
16Mo3	1.5415	0.12-0.20	0.40-0.90	0.40-0.90	0.025	0.020	=0.30	0.25-0.35	=0.30	=0.040	=0.30
14MoV6-3	1.7715	0.10-0.15	0.15-0.35	0.40-0.70	0.025	0.020	0.30-0.60	0.40-0.50	=0.30	=0.040	=0.30
13CrMo4-5	1.7335	0.10-0.17	=0.15	0.40-0.70	0.025	0.020	0.70-1.15	0.40-0.60	=0.30	=0.040	=0.30
10CrMo9-10	1.7380	0.08-0.14	0.08-0.14	0.30-0.70	0.025	0.020	2.00-2.50	0.90-1.10	=0.30	=0.040	=0.30
25CrMo4	1.7218	0.22-0.29	0.22-0.29	0.60-0.90	0.025	0.020	0.90-1.20	0.15-0.30	=0.30	=0.040	=0.30
15NiCuMoNb5-6-4	1.6368	=0.17	=0.17	0.80-1.20	0.025	0.020	=0.30	0.25-0.50	1.00-1.30	=0.050	0.50-0.80
X10CrMoVNb9-1	1.4903	0.08-0.12	0.08-0.12	0.30-0.60	0.025	0.020	8.00-9.50	0.85-1.05	=0.40	=0.040	=0.30

EN 10216-2 Mechanical Property:

Steel grade		Tensile properties at room temperature							Impact properties a b
Steel name	Steel Number	Upper yield strength or proof strength ReH or Rp0.2 for Wall Thickness T Min.				Tensile Strength Rm	Elongation A min. % a		Minimum average absorbed energy KV J at a temperature of ?
		T=16	16<t=40<>	40<t=60<>	60<t=100<>	Tensile Strength Rm	l	t	l			t
		MPa	MPa	MPa	MPa	MPa	l	t	20	0	-10	20	0
P195GH	1.0348	195				320-440	27	25		40 c	28 d		27c
P235GH	1.0345	235	225	215		360-500	25	23		40 c	28 d		27c
P265GH	1.0425	265	255	245		410-570	23	21		40 c	2s d		27C
16Mo3	1.5415	280	270	260		450-600	22	20	40 c			27 c
14MoV6-3	1.7715	320	320	310		460-610	20	18	40 c f			27 c
13CrMo4-5	1.7335	290	290	280		440-590	22	20	40 c			27 c
10CrMo9-10	1.7380	280	280	270		480-630	22	20	40 c			27 c
25CrMo4	1.7218	345	345	345		540-690	18	15	40 c f			27 c
15NiCuMoNb5-6-4	1.6368	440	440	440	440e	610-780	19	17	40 c f			27 c
X10CrMoVNb9-1	1.4903	450	450	450	450	630-830	19	17	40 c f			27 c

a I = longitudinal t = transverse
b To be verified when options 4 and/or 5 are/is specified, unless footnote f) applies
c Option 4: Impact energy shall be verified.
d Opfion 5: Longitudinal impact energy shall be verified.
e For wall thickness 60 mm< T =80mm
f Impact test mandatory for wall thickness T =16mm

EN 10216-2 boiler tube Heat Treatment:

Steel grade		Heat treatment a	Austenizing		Tempering
Steel	Steel		Temperature	Cooling Medium	Temperature	Cooling medium
name	number		°C	Cooling Medium	°C	Cooling medium
P195GH	1.0348	+N b	880 to 940	Air	-	-
P235GH	1.0345	+N b	880 to 940	Air	-	-
P265GH	1.0425	+N b	880 to 940	Air	-	-
16Mo3	1.5415	+N b	890 to 950	Air	-	-
14MoV6-3	1.7715	+NT b c	930 to 990	Air	680 to730	air
13CrMo4-5	1.7335	+NT b c	900 to 960	Air	660 to 730	air
10CrMo9-10	1.738	+NT b c	900 to 960	Air	680 to 750	air
25CrMo4	1.7218	+QT	860 to 900	Air or Liquid	620 to 680	air
15NiCuMoNb5-6-4	1.6368	+NT c	880 to 980	Air	580 to 680	air
X10CrMoVNb9-1	1.4903	+NT c	1040 to 1090	air	730 to 780	air

EN 10216-1 Chemical composition:

Steel grade		C	Si	Mn	P	S	Cr b	Mo b	Ni b	Al tot	Cu b c	Nb b	Cr+Cu +Mo+Ni
Steel name	Steel number	max.	max.	max.	Max.	max.	max.	max.	max.	min.	max.	max.	max. b
P195TR1	1.0107	0,13	0,35	0,70	0,025	0,020	0,30	0,08	0,30	-	0,30	0,010	0,70
P195TR2	1.0108	0,13	0,35	0,70	0,025	0,020	0,30	0,08	0,30	0,02 d	0,30	0,010	0,70
P235TR1	1.0254	0,16	0,35	1,20	0,025	0,020	0,30	0,08	0,30	-	0,30	0,010	0,70
P235TR2	1.0255	0,16	0,35	1,20	0,025	0,020	0,30	0,08	0,30	0,02 d	0,30	0,010	0,70
P265TR1	1.0258	0,20	0,40	1,40	0,025	0,020	0,30	0,08	0,30	-	0,30	0,010	0,70
P265TR2	1.0259	0,20	0,40	1,40	0,025	0,020	0,30	0,08	0,30	0,02 d	0,30	0,010	0,70

EN 10216-1 Mechanical property:

Steel grade		Tensile properties						Impact properties
Steel name	Steel number	Upper yield strength ReH b min. for Wall Thickness T mm			Tensile Strength Rm	Elongation A min. % b c		Minimum average absorbed energy KV J at a temperature of °C c
		T =16	16 < T =40	40 < T =60	Tensile Strength Rm	l		t
		Mpa	Mpa	Mpa	Mpa	l	t	0	-10	0
P195TR1 e	1.0107	195	185	175	320 to 440	27	25	-	-	-
P195TR2	1.0108	195	185	175	320 to 440	27	25	40	28 d	27
P235TR1 e	1.0254	235	225	215	360 to 500	25	23	-	-	-
P235TR2	1.0255	235	225	215	360 to 500	25	23	40	28 d	27
P265TR1 e	1.0258	265	255	245	410 to 570	21	19	-	-	-
P265TR2	1.0259	265	255	245	410 to 570	21	19	40	28 d	27

EN10216

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