HIGH-TEMPERATURE ALLOY PROPERTIES

In the material selection process, many factors need to be considered including the temperature and environment. High temperature properties, although very useful in design, can also be key to selecting the most cost effective alloy.

Nominal Chemistry | Tensile Strength | Yield Strength | Creep Strength | Rupture Strength | Average Stress | Thermal Expansion

Nominal Chemistry

Alloy	UNS	Cr	Ni	Mo	Si	Mn	N	C	Ce	Fe	Other
410	S41000	12.2	-	-	0.3	0.4	-	0.14	-	87	-
446	S44600	25	-	-	0.5	0.7	0.1	0.05	-	73	-
304L	S30403	18.3	9	-	0.5	1.7	0.08	0.02	-	70	-
316L	S31603	16.4	10.2	2.1	0.5	1.6	0.05	0.02	-	69	-
321	S32100	17.3	9.3	-	0.7	1.8	-	0.04	-	70	0.4 Ti
321H	S32109	17.3	9.3	-	0.7	1.8	-	0.05	-	70	0.4 Ti
347, 347H	S34700	17	9.5	-	0.7	1.5	-	0.04	-	70	0.5 Cb
RA 253 MA^®	S30815	21	11	-	1.7	0.6	0.17	0.08	0.04	65	-
309	S30908	23	13	-	0.8	1.6	-	0.05	-	62	-
RA 602 CA^®	N06025	25	63	-	-	-	-	0.2	-	9	0.1 Y, 0.08 Zr, 2.2 Al
310	S31008	25	20	-	0.5	1.6	-	0.05	-	52	-
800H/AT	N08811	21	31	-	0.4	0.9	-	0.06	-	45	0.6 Ti, 0.4 Al
RA330^®	N08330	19	35	-	1.2	1.5	-	0.05	-	43	-
RA333^®	N06333	25	45	3	1	1.5	-	0.05	-	18	3 W, 3 Co
625	N06625	21.5	61	9	0.1	0.1	-	0.05	-	4	3.6 Cb
601	N06601	22.5	61.5	-	0.2	0.3	-	0.05	-	14	1.4 Al
718	N07718	19	52	3	0.1	0.1	-	0.04	-	18	5 Cb, 0.9 Ti, 0.5 Al
600	N06600	15.5	76	-	0.2	-	-	-	-	8	0.2 Ti, 0.2 Al
Alloy X	N06002	22	47	9	-	-	-	-	-	18	0.15 Ti, 0.5 Al, 0.6 W, 1.7 Co

Tensile Strength

Average Short-Time Ultimate Tensile Strength, ksi

Alloy	Temperature, °F
Alloy	RT	200	400	600	800	1000	1200	1400	1600	1800	1900	2000	2100	2200
446	68	70.7	69.3	80	77	52.7	15	5	-	-	-	-	-	-
304L	79.2	68.1	65.4	58.6	57.7	52.3	42	28.5	-	-	-	-	-	-
316L	78.9	69.4	63.9	63.1	62.3	56.8	46.5	32.3	-	-	-	-	-	-
321	84	72.8	62	62	62	59.5	45.5	27.5	-	-	-	-	-	-
321H	75.5	67	62.5	62	62	59	45.5	27	-	-	-	-	-	-
347, 347H	87	75.7	65.2	62.6	61.8	60.9	53.9	37.4	-	-	-	-	-	-
RA 253 MA^®	104	90	83.5	82	79	74	63	45	22	11.5	9.5	9.4	7.5	3.7
309	90	-	-	-	-	-	52	-	18	8.5	-	-	-	-
RA 602 CA^®	105	-	-	-	95.4	93.4	84	54.4	32.8	17.1	13.6	13	10.2	5.8
310	82.6	78.1	72.5	72.2	71.8	67.8	54.1	35.1	19.1	10.4	-	-	-	-
RA330^®	86.6	79.2	75.3	74.4	74.2	71	56.7	35.9	21.1	10.4	-	-	-	3.2
RA333^®	107	100.2	96.1	92.5	89.9	85.4	73.6	53.9	27.5	15.7	-	7.4	6.6	4.0
625	144	-	134	132	131.5	130	119	78	40	17	-	-	-	-
601	100	-	-	-	-	90	60	34	18	-	-	-	-	-
718	210	204	198	195	191	185	168	110	-	-	-	-	-	-
600	93	-	-	-	-	84	65	27.5	15	7.5	-	-	-	-
Alloy X	111	-	-	-	-	89	83	67	45	-		-	-	-

Yield Strength

Average Short-Time 0.2% Offset Yield Strength, ksi

Alloy	Temperature, °F
Alloy	RT	200	400	600	800	1000	1200	1400	1600	1800	1900	2000	2100	2200
446	49.7	45	40.7	39.7	45	42.3	12	4.0	-	-	-	-	-	-
304L	33.8	28.7	23.6	21	19.6	17.9	15.2	-	-	-	-	-	-	-
316L	33.7	28.6	23.6	20.6	18.5	16.8	14.1	-	-	-	-	-	-	-
321	38	-	20.5	18	17	16.5	16	14	-	-	-	-	-	-
347, 347H	38.2	35.1	30.6	27.5	26	25.6	24.8	20.6	-	-	-	-	-	-
RA 253 MA^®	50.8	39.5	32	29	28	25	24	22	14	7.0	5.5	4.0	3.0	2.0
309	42	-	35	-	30	24	22	20	18.0	8.5	-	-	-	-
RA 602 CA^®	50.5	-	-	-	39.2	38.3	37.7	36.5	28.7	15.2	12.2	11.6	9.0	5.0
310	35.1	32.5	28.3	26.3	24.3	20.8	20.7	19.3	12.2	6.4	-	-	-	-
RA330^®	37.2	35.6	31.6	29.6	27.8	25	22	20.7	15.4	8.5	-	-	-	-
RA333^®	47	41.6	37	32.5	31.5	30.8	30.7	28.9	23.9	12.1	-	-	-	2
625	84	-	66	63	61	60.5	60	58.5	39.0	17.0	-	6.5	5.0	3.5
601	54	-	-	-	-	48	41	26	15	-	-	-	-	-
718	175	170	163	159	156	155	149	110	-	-	-	-	-	-
600	37	-	-	-	-	28.5	26.5	17	9.0	4.0	-	-	-	-
Alloy X	55	-	-	-	-	36	35	34	28	-	-	-	-	-

Creep Strength

Average Stress, ksi, for 1% Total Creep in 10,000 Hours

Alloy	Temperature, °F
Alloy	1100	1200	1300	1400	1500	1600	1700	1800	1900	2000
RA 253 MA^®	18	10	6.4	4.2	2.7	1.7	1.0	0.45	0.25	(0.18)
RA330^®	-	6.6	-	3.8	-	1.8	-	0.22	-	-
RA 602 CA^®	-	26.8	-	9.4	-	2.38	1.52	0.96	0.59	0.33
RA333^®	19.5	-	-	5.3	-	2.45	-	0.77	-	-

( ) Extrapolated

1% total creep includes the primary stage creep when the specimen is first loaded, as well as secondary stage creep.
Minimum creep rate data is based entirely on second stage creep.

Average Stress, ksi, for 0.00001% Per Hour Minimum Creep Rate – Extrapolated

Alloy	Temperature, °F
Alloy	900	1000	1100	1200	1300	1400	1500	1600	1700	1800
446	13	4.5	2	0.9	0.33	0.12	-	-	-	-
304L	-	7.8	5.1	3.25	2.1	1.34	0.88	-	-	-
304, 304H	-	17.9	11.1	7.2	4.5	2.9	1.8	-	-	-
316L	-	22.5	12	6.4	3.5	1.85	1	-	-	-
321	-	-	9.2	3.9	1.7	0.74	0.32	-	-	-
321H	-	-	12.4	7	4	2.25	1.28	-	-	-
347, 347H	-	30.5	16.2	8.7	4.7	2.5	1.3	-	-	-
RA 253 MA^®	-	-	12	8.2	5.7	3.8	2.25	1.75	1.15	0.55
RA330^®	-	14.5	7.4	5.8	3.9	2.6	1.9	1.5	0.52	0.29
RA333^®	-	-	-	6.8	5.4	4.6	2.9	1.9	1.1	0.56
601	-	-	-	-	5.2	2.9	1.9	1.4	-	0.48

*NOTE: In our opinion it is not good engineering practice to extrapolate data to 100,000 hours at temperatures above 1800°F.
This data is for general interest only.

Average Stress, ksi, for 0.0001% Per Hour Minimum Creep Rate

Alloy	Temperature, °F
Alloy	900	1000	1100	1200	1300	1400	1500	1600	1700	1800	1900	2000
446	16	6.0	3.0	1.5	0.68	0.26	0.13	-	-	-	-	-
304L	-	-	7.7	4.95	3.2	2.05	1.3	-	-	-	-	-
304, 304H	-	25.5	16.5	10.8	7.0	4.6	2.95	-	-	-	-	-
316L	-	23.5	14	8.3	4.9	2.9	1.75	-	-	-	-	-
321	-	-	20	8.8	3.85	1.7	0.75	-	-	-	-	-
321H	-	-	20.3	12	7.1	4.2	2.5	-	-	-	-	-
347, 347H	-	53	27.5	14.8	7.8	4.1	2.15	-	-	-	-	-
RA 253 MA^®	-	-	18	11.6	7.7	5.0	3.35	2.3	1.5	0.89	0.49	(0.25)
309	-	-	-	16	8.8	3.4	2.4	1.4	0.6	0.22	-	-
310	-	-	-	14.9	5.9	3.3	2.1	1.1	0.57	0.28	-	-
RA330^®	-	21	10.5	7.6	5.3	3.6	2.7	2.1	1.0	0.5	-	-
800 H/AT	-	-	-	17	9.1	6.0	-	3.6	1.5	1.05	-	-
RA333^®	-	-	22	9.8	7.7	6.4	4.2	2.7	1.65	0.88	-	-
601	-	41	27	18	7.2	4.1	2.7	2.0	-	0.76	-	-
718	-	-	100	74	43	-	-	-	-	-	-	-
600	-	-	-	-	-	3.6	-	0.75	-	0.56	-	0.27
Alloy X	-	-	-	-	-	-	14.7	7.2	2.7	0.7	-	-

Rupture Strength

Average Extrapolated 100,000 Hour Rupture Strength, ksi – Extrapolated

Alloy	Temperature, °F
Alloy	1000	1100	1200	1300	1400	1500	1600	1700	1800
446	-	2.3	1.8	-	0.74	-	0.27	-	0.14
304L	19.5	11.6	6.9	4.1	2.4	1.45	-	-	-
304, 304H	25.8	15.8	9.8	6.0	3.7	2.3	-	-	-
316L	34.5	18.5	10.1	5.5	3.0	1.6	-	-	-
321	-	16.5	8.7	4.6	2.45	1.27	-	-	-
321H	29	17.4	10.3	6.1	3.6	2.1	-	-	-
347, 347H	37.5	20.8	11.5	6.4	3.55	1.95	-	-	-
RA 253 MA^®	-	15	8.7	4.6	2.9	2.1	1.45	0.97	0.7
RA 602 CA^®	-	-	20.3	-	5.8	-	1.75	1.1	0.74
RA330^®	20	12	7.8	4.8	2.7	1.65	1.0	0.58	0.33
800 H/AT	-	-	13	8.0	5.3	3.7	2.5	1.2	0.8
RA333^®	-	-	11.5	8.4	6.5	3.7	1.9	1.05	0.58
601	-	-	-	6.8	4.0	-	-	-	0.7

*NOTE: In our opinion it is not good engineering practice to extrapolate data to 100,000 hours at temperatures above 1800°F.
This data is for general interest only.

Average 10,000 Hour Rupture Strength, ksi

Alloy	Temperature, °F
Alloy	1000	1100	1200	1300	1400	1500	1600	1700	1800	1900	2000	2100	2200
446	-	3.5	2.7	-	1.1	-	0.45	-	0.23	-	-	-	-
304L	25	15.6	9.7	6	3.7	2.3	1.4	-	-	-	-	-	-
304, 304H	36	22.2	13.8	8.5	5.3	3.25	-	-	-	-	-	-	-
316L	39	23.5	14.2	8.5	5.1	3.05	-	-	-	-	-	-	-
321	34.5	23.5	12.9	7.2	4	2.28	-	-	-	-	-	-	-
321H	-	24.8	15.2	9.2	5.6	3.4	-	-	-	-	-	-	-
347, 347H	48	27.5	15.6	9	5.1	2.9	-	-	-	-	-	-	-
RA 253 MA^®	-	22	14	8.5	5.2	3.75	2.5	1.65	1.15	0.86	0.68	-	-
309	-	-	17	8	4.8	2.7	1.6	1.0	0.56	-	-	-	-
RA 602 CA^®	-	-	31.2	-	11.3	-	3.2	2.18	1.49	0.99	0.67	0.44	-
310	-	-	14.4	7.4	4.5	2.8	1.5	0.94	0.66	-	-	-	-
RA330^®	29	17	11	7.2	4.3	2.7	1.7	1.05	0.63	0.4	(0.28)	-	-
800 H/AT	-	-	17.5	11	7.3	5.2	3.5	1.9	1.2	-	-	-	-
RA333^®	-	25	16.5	12	9.2	5.7	3.1	1.8	1.05	0.63	0.36	-	0.14
625	-	-	42.5	22.5	12	(10)	(7)	(4)	(1)	-	-	-	-
601	42	29	21	10	6.2	4	2.6	-	1.2	-	0.62	0.48	-
718	128	98	70	-	-	-	-	-	-	-	-	-	-
600	-	21.5	13.5	9	6.2	3.7	2.35	1.65	1.15	-	-	-	-
Alloy X	-	-	-	-	7.6	-	2.3	-	-	-	-	-	-

Average Stress

Maximum Allowable Design Stresses for ASME Boiler and Pressure Vessel Code (Section II, Part D, table 1A)

Temperature °F	SA-387*	SA-387**	410 [S41000]	410S [S41008]	17-4 H1150 [S17400]	304L [S30403]	304H [S30409]	316L [S31603]	316H [S31609]	347 [S34700]
Min. Tensile Strength, ksi	60	60	65	60	135	70	75	70	75	75
Min. Yield Strength, ksi	35	30	30	30	105	25	30	25	30	30
-20 to 100	17.1	17.1	18.6	17.1	38.6	16.7	20	16.7	20.0	20.0
200	17.1	17.1	18.4	17.1	38.6	14.3	20	16.7	20.0	20.0
300	17.1	16.6	17.8	16.8	38.6	12.8	18.9	16.7	20.0	18.8
400	17.1	16.6	17.4	16.5	37.5	11.7	18.3	15.7	19.3	17.8
500	17.1	16.6	17.2	16.3	36.8	10.9	17.5	14.8	18.0	17.2
600	17.1	16.6	16.8	15.9	36.2	10.4	16.6	14.0	17.0	16.9
650	17.1	16.6	16.6	15.6	35.9	10.2	16.2	13.7	16.6	16.8
700	17.1	16.6	16.2	15.2	-	10.0	15.8	13.5	16.3	16.8
750	17.1	16.6	15.7	14.7	-	9.8	15.5	13.2	16.1	16.8
800	16.8	16.6	15.1	14.1	-	9.7	15.2	12.9	15.9	16.8
850	16.4	16.6	14.4	13.4	-	9.5	14.9	12.7	15.7	16.8
900	13.7	13.6	12.3	12.3	-	9.3	14.6	-	15.6	16.7
950	9.3	10.8	8.8	8.8	-	9.1	14.3	-	15.4	16.6
1000	6.3	8.0	6.4	6.4	-	7.8	14	-	15.3	16.0
1050	4.2	5.7	4.4	4.4	-	6.3	12.4	-	15.1	12.1
1100	2.8	3.8	2.9	2.9	-	5.1	9.8	-	12.4	9.1
1150	1.9	2.4	1.8	1.8	-	4.0	7.7	-	9.8	6.1
1200	1.2	1.4	1.0	1.0	-	3.2	6.1	-	7.4	4.4
1250	-	-	-	-	-	-	4.7	-	5.5	3.3
1300	-	-	-	-	-	-	3.7	-	4.1	2.2
1350	-	-	-	-	-	-	2.9	-	3.1	1.5
1400	-	-	-	-	-	-	2.3	-	2.3	1.2
1450	-	-	-	-	-	-	1.8	-	1.7	0.9
1500	-	-	-	-	-	-	1.4	-	1.3	0.8
NOTES:	S4, T4	S4, T4, W7, W9	T4	T4	G-32, W1	G-36, T6	G5, T7	G5, G34	G5, T8	G5, G12, T6

* Grade 11 Condition 1, ** Grade 22 Condition 1

Maximum Allowable Design Stresses for ASME Boiler and Pressure Vessel Code (Section II, Part D, table 1A)

Temperature °F	321 [S32100]	309H [S30909]	310H [S31009]	RA 253 MA^® [S30815]	RA330^® [N08330]	600 [N06600]	601 [N06601]	800 H/AT [N08811]	RA 602 CA^® [N06025]
Min. Tensile Strength, ksi	75	75	75	87	70	80	80	65	98
Min. Yield Strength, ksi	30	30	30	45	30	35	30	25	39
-20 to 100	20.0	20.0	20.0	24.9	20	22.9	20.0	16.7	26.0
200	20.0	20.0	20.0	24.7	20	22.9	17.8	16.7	25.5
300	19.1	20.0	20.0	23.3	20	22.9	16.6	16.7	24.7
400	18.7	20.0	19.9	22.4	19.6	22.9	15.5	16.7	23.7
500	18.7	19.4	19.3	21.8	19.4	22.9	14.7	16.7	22.7
600	18.3	18.8	18.5	21.4	18.9	22.9	14.2	16.5	21.7
650	17.9	18.5	18.2	21.2	18.5	22.9	14.0	16.1	21.2
700	17.5	18.2	17.9	21.0	18.1	22.9	13.9	15.7	20.8
750	17.2	18.0	17.7	20.8	17.7	22.9	13.8	15.3	20.5
800	16.9	17.7	17.4	20.6	17.4	22.9	13.8	15.0	20.2
850	16.7	17.5	17.2	20.3	17	22.4	13.8	14.7	20.0
900	16.5	17.2	16.9	20.0	16.7	16.0	13.8	14.5	19.8
950	16.4	16.9	16.7	19.1	16.1	10.6	13.7	14.2	19.6
1000	14.9	13.8	13.8	14.9	12.7	7.0	13.7	14.0	16.3
1050	9.6	10.3	10.3	11.6	10	4.5	13.6	13.8	12.3
1100	6.9	7.6	7.6	9.0	7.8	3.0	10.4	12.9	9.2
1150	5.0	5.5	5.5	6.9	6	2.2	8.0	10.4	6.9
1200	3.6	4.0	4.0	5.2	4.7	2.0	6.1	8.3	4.1
1250	2.6	3.0	3.0	4.0	3.8	-	4.6	6.7	2.8
1300	1.7	2.2	2.2	3.1	3.1	-	3.6	5.4	2.0
1350	1.1	1.7	1.7	2.4	2.4	-	2.8	4.3	1.5
1400	0.8	1.3	1.3	1.9	1.8	-	2.1	3.4	1.2
1450	0.5	1.0	0.97	1.6	1.5	-	1.7	2.7	0.97
1500	0.3	0.75	0.75	1.3	1.1	-	1.3	2.2	0.80
1550	-	-	-	1.0	0.9	-	1.1	1.6	0.68
1600	-	-	-	0.86	0.68	-	0.87	1.2	0.58
1650	-	-	-	0.71	0.48	-	0.71	0.91	0.51
NOTES:	G5, G12, T6	G5, H1, T6	G5, T6	G5, G6, T5	G4, G5, H1, T12	G5,T11	G4, T14	G4, G5, T15	Case 2359-2

* Grade 11 Condition 1, ** Grade 22 Condition 1

Maximum Allowable Design Stresses for ASME Boiler and Pressure Vessel Code (Section VIII, Div 1, 1B)

Temperature °F	718 [N07718]	LDX 2101^® [S32101]*	2205 [S31803]	ZERON^® 100 [S32760]	AL-6XN^® [N08367]	625 [N06625]	Alloy 20 [N08020]	Alloy X [N06002]	686 [N06686]
Min. Tensile Strength, ksi	-	101*	90	-	95	120	80	95	100
Min. Yield Strength, ksi	-	77*	65	-	45	60	35	35	45
-20 to 100	37.0	28.9	25.7	31.1	27.1	34.3	22.9	23.3	28.6
200	36.0	28.9	25.7	31	26.2	34.3	20.6	23.3	28.6
300	35.2	27.5	24.8	29.4	23.8	34.3	19.7	23.3	28.2
400	34.6	26.5	23.9	29	21.9	33.6	18.9	23.3	27.2
500	34.2	26.5	23.3	29	20.5	32.9	18.2	22.3	26.5
600	33.8	26.5	23.1	29	19.4	32.4	17.7	21.2	25.9
650	-	-	-	-	19.0	32.1	17.5	20.7	25.7
700	33.6	-	-	-	18.6	31.8	17.4	20.3	25.4
750	33.5	-	-	-	18.3	31.5	17.2	20.1	25.2
800	33.3	-	-	-	18.0	31.2	16.8	19.9	24.9
850	33.1	-	-	-	-	30.9	-	19.7	-
900	32.9	-	-	-	-	30.6	-	19.6	-
950	32.6	-	-	-	-	30.3	-	19.5	-
1000	32.3	-	-	-	-	29.9	-	19.4	-
1050	32.0	-	-	-	-	29.5	-	19.3	-
1100	30.7	-	-	-	-	29	-	17.5	-
1150	29.5	-	-	-	-	21	-	14.1	-
1200	-	-	-	-	-	13.2	-	11.3	-
1250	-	-	-	-	-	-	-	9.3	-
1300	-	-	-	-	-	-	-	7.7	-
1350	-	-	-	-	-	-	-	6.1	-
1400	-	-	-	-	-	-	-	4.8	-
1450	-	-	-	-	-	-	-	3.8	-
1500	-	-	-	-	-	-	-	3.0	-
1550	-	-	-	-	-	-	-	2.3	-
1600	-	-	-	-	-	-	-	1.7	-
1650	-	-	-	-	-	-	-	1.2	-
NOTES:	Case 1993-6 See T Bolting	Case 2418-1	G32 Plate	Case 2245-1	-	G22, G23, T16	-	G4, G5, T15	G5

* Cold finished and heat treated (t < 0.0187 inch)

Thermal Expansion

in/in °F x 10-6

Alloy	200	400	600	800	1000	1200	1400	1600	1800	2000
304	9.6	-	9.9	-	10.2	10.4	-	-	-	-
316	8.9	-	9	-	9.7	10.3	-	-	-	-
2205	7.2	7.5	-	-	-	-	-	-	-	-
321	9.3	9.4	9.5	10	10.3	10.6	10.9	11.1	11.4	-
309	8.8	9	9.3	-	9.7	-	-	10.1	-	-
310	8.4	8.8	8.95	9.2	9.5	9.8	10.05	10.15	10.5	10.6
SA-387	6.7	7.1	7.4	-	7.8	-	-	-	-	-
RA 253 MA^®	9.06	9.34	9.59	9.81	9.97	10.14	10.3	10.5	10.8	-
410	5.5	-	-	-	-	6.5	-	-	-	-
RA 602 CA^®	6.6	7.5	7.8	8.1	8.2	8.5	9	9.5	9.7	9.8
RA330^®	8.3	8.6	8.9	-	9.3	9.6	-	9.8	10	-
HR-120^®	7.95	8.29	8.56	8.8	8.98	9.24	9.52	9.72	9.87	-
800AT	7.9	8.8	9	9.2	9.4	9.6	9.9	10.2	-	-
446	5.6	5.7	-	6	6.1	6.3	6.4	6.7	7.3	-
600	7.4	7.7	7.9	8.1	8.4	8.6	8.9	9.1	9.3	-
601	7.6	8.01	8.11	8.3	8.5	8.87	9.19	9.51	9.82	10.18
RA333^®	7	-	-	-	8.6	9	9.3	9.4	9.7	-
Cast HH	-	-	-	-	9.5	9.7	9.9	10.2	10.5	10.7
Cast HK	-	-	-	-	9.4	9.6	9.8	10	10.2	10.4
Cast HT	7.9	8.14	8.37	8.61	8.85	9.09	9.33	9.56	9.8	10.04
Cast HP	-	-	-	-	9.2	9.5	9.8	10	10.3	10.6
825	7.8	8.3	8.5	8.7	8.8	9.1	9.5	9.7	-	-
Alloy 20	8.2	8.4	8.65	-	8.95	9.15	9.3	9.5	-	-
AL-6XN^®	7.9	8.37	8.6	8.8	8.96	9.3	-	-	-	-
TiGr 2	4.8	-	5.1	-	5.4	5.6	-	-	-	-
Alloy X	7.7	7.8	7.9	8.2	8.4	8.6	8.8	9	9.2	-
625	7.1	7.3	7.4	7.6	7.8	8.2	8.5	8.8	-	-
X-750	7.6	7.7	7.9	8.0	8.2	8.4	8.9	9.3	9.8	-
C263	6.1	6.7	7	7.1	7.6	7.9	8.4	9.1	9.9	-
718	7.3	7.5	7.7	8	8.1	8.4	8.9	9.5	9.8	10
René 41	6.6	6.9	7.1	7.3	7.7	7.9	8.3	8.8	9.3	9.9
WASPALOY	6.8	7	7.3	7.6	7.8	8.1	8.4	8.9	9.7	10.4
A-286	9.2	9.35	9.5	9.65	9.8	9.9	10.3	-	-	-
188	6.6	7	7.4	7.8	8.2	8.6	9	9.4	9.9	10.3
L-605	6.8	7.2	7.6	7.8	8	8.2	8.6	9.1	9.4	9.8
MULTIMET^® N-155	7.9	8.4	8.5	8.7	9.1	9.5	9.7	9.9	10.1	10.3
Haynes^® 556	8.1	8.2	8.4	8.6	8.8	9	9.2	9.4	9.5	9.6
Haynes^® 230	7	7.2	7.4	7.6	7.9	8.1	8.3	8.6	8.9	-
617	6.4	7	7.4	7.6	7.7	8.0	8.4	8.7	9	9.2
W	-	-	-	7.3	7.4	7.4	7.8	8.2	8.4	-
Haynes^® 214	-	7.4	-	7.9	8.2	8.6	9	9.6	10.2	11.1

❱ PRODUCTS

❱ PROCESSING

❱ RESOURCES

HIGH-TEMPERATURE ALLOY PROPERTIES

Nominal Chemistry | Tensile Strength | Yield Strength | Creep Strength | Rupture Strength | Average Stress | Thermal Expansion

Nominal Chemistry

Tensile Strength

Yield Strength

Creep Strength

Rupture Strength

Average Stress

Thermal Expansion