ASTM A479 Specification

Scope
Chemical Composition
Mechanical Properties

This specification2 covers hot- and cold-finished bars of stainless steel, including rounds, squares, and hexagons, and hot-rolled or extruded shapes such as angles, tees, and channels for use in boiler and pressure vessel construction.

Chemical Composition

UNS Designation^A	Type	Composition,%
UNS Designation^A	Type	Carbon	Manganese	Phosphorus	Sulfur	Silicon	Chromium	Nickel	Nitrogen	Molybdenum	Other Elements^C
Austenitic Grades
N08810	800H	0.0S-0.10	1.50	0.045	O.015	1.00	19.0-23.0	30.0-35.0	...	...	FeJ 39.5 min. Cu 0.75 Al 0.15-0.60 Ti 0.1S-0.60
N08811	...	0.06--0.10	1.50	0.045	O.o15	1.00	19.0-23.0	30.o-35.0	...	...	FeJ 39.5 min. Cu 0.75 AIK 0.25-0.60 TiK 0.25--0.60
N08700	...	0.040	2.00	0.040	0.030	1.00	19.0-23.0	24.0-26.0	...	4.3-5.0	Cu 0.50; Cb 8xC-0.40
N08904	904L	0.020	2.00	0.045	0.035	1.00	19.0-23.0	23.0-28.0	0.10	4.0-5.0	Cu 1.0-2.0
N08925	...	0.020	1.00	0.045	0.030	0.50	19.0-21.0	24.0-26.0	0.10-0.20	6.0-7.0	Cu 0.80-1.50
N08926	...	0.020	2.00	0.030	0.010	0.50	19.0-21.0	24.0-26.0	0.15-0.25	6.0-7.0	Cu 0.50-1.50
S20161	...	0.15	4.0-S.O	0.045	0.030	3.o-4.0	15.0-18.0	4.0-S.O	0.08-0.20	...	...
S20910	XM-19	0.06	4.0-S.O	0.045	0.030	1.00	20.5-23.5	11.5-13.5	0.20-0.40	1.50-3.00	Cb 0.10-0.30; v 0.10-0.30
S21600	XM-17	0.08	7.5-9.0	0.045	0.030	1.00	17.5-20.5	5.0-7.0	0.25-0.50	2.00-3.00	...
S21603	XM-18	0.03	7.5-9.0	0.045	0.030	1.00	17.5-20.5	5.0-7.0	0.25-0.50	2.00-3.00	...
S21800	...	0.10	7.0-9.0	0.060	0.030	3.5-4.5	16.0-18.0	8.0-9.0	0.08-0.18	...	...
S21904	XM-11	0.04	8.0-10.0	0.045	0.030	1.00	19.0-21.5	5.5-7.5	0.15-0.40	...	...
S24000	XM-29	0.08	11.5-14.5	0.060	0.030	1.00	17.0-19.0	2.3-3.7	0.20-0.40	...	...
S30200	302	0.15	2.00	0.045	0.030	1.00	17.0-19.0	8.0-10.0	0.10	...	...
S30400	304	0.08°	2.00	0.045	0.030	1.00	18.0-20.0	8.0-10.5	...	...	...
S30403	304L	0.030	2.00	0.045	0.030	1.00	18.0-20.0	8.0-12.0	...	...	...
S30409	304H	0.04--0.10	2.00	0.045	0.030	1.00	18.0-20.0	8.0-10.5	...	...	...
S30451	304N	0.08	2.00	0.045	0.030	1.00	18.0-20.0	8.0-12.0	0.10-0.16	...	...
S30453	304LN	0.030	2.00	0.045	0.030	1.00	18.0-20.0	8.0-11.0	0.10-0.16	...	...
S30600	...	0.018	2.00	0.020	0.020	3.7-4.3	17.0-18.5	14.0-15.5	...	0.20	Cu 0.50
S30815	...	0.05--0.10	0.80	0.040	0.030	1.4Q-2.00	20.0-22.0	10.0-12.0	0.14-0.20	...	Ce 0.03--0.08
S30880	ER308"	0.08	1.00-2.50	0.030	0.030	0.25-0.60	19.5-22.0	9.0-11.0	...	...	...
S31008	310S	0.08	2.00	0.045	0.030	1.00	24.0-26.0	19.0-22.0	...	...	...
S31009	310H	0.04-0.10	2.00	0.045	0.030	1.00	24.0-26.0	19.0-22.0	...	...	...
S31040	310Cb	0.08	2.00	0.045	0.030	1.00	24.0-26.0	19.0-22.0	...	...	Cb 10xC-1.10
S31050	...	0.025	2.00	0.020	0.015	0.4	24.0-26.0	20.5-23.5	0.09-0.15	1.60-2.60	...
S31254	...	0.020	1.00	0.030	0.010	0.80	19.5-20.5	17.5-18.5	0.18-0.25	6.0-6.5	Cu 0.50-1.00
S31600	316	o.o8c	2.00	0.045	0.030	1.00	16.0-18.0	10.0-14.0	...	2.00-3.00	...
S31603	316L	0.030	2.00	0.045	0.030	1.00	16.0-18.0	10.0-14.0	...	2.00-3.00	...
S31609	316H	0.04-0.10	2.00	0.045	0.030	1.00	16.0-18.0	10.0-14.0	...	2.00-3.00	...
S31635	316Ti	0.08	2.00	0.045	0.030	1.00	16.0-18.0	10.0-14.0	0.10	2.00-3.00	Ti 5x(C+N)·0.70
S31640	316Cb	0.08	2.00	0.045	0.030	1.00	16.0-18.0	10.0-14.0	0.10	2.00-3.00	Cb 1OxC·1.10
S31651	316N	0.08	2.00	0.045	0.030	1.00	16.0-18.0	10.0-14.0	0.10-0.16	2.00-3.00	...
S31653	316LN	0.030	2.00	0.045	0.030	1.00	16.0-18.0	10.0-14.0	0.10-0.16	2.00-3.00	...
S31700	317	0.08	2.00	0.045	0.030	1.00	18.0-20.0	11.0-15.0	...	3.0-4.0	...
S31725	...	0.030	2.00	0.045	0.030	1.00	18.0-20.0	13.5-17.5	0.20	4.0-5.0	....
S31726	...	0.030	2.00	0.045	0.030	1.00	17.0-20.0	14.5-17.5	0.10-0.20	4.0-5.0	...
S31727	...	0.030	1.00	0.030	0.030	1.00	17.5-19.0	14.5-16.5	0.15-0.21	3.8-4.5	Cu 2.8-4.0
S32050	...	0.030	1.50	0.035	0.020	1.00	22.0-24.0	20.0-23.0	0.21-0.32	6.0-6.8	Cu 0.40
S32053	...	0.030	1.00	0.030	0.010	1.00	22.0-24.0	24.0-26.0	0.17-0.22	5.0-6.0	...
S32100	321	0.08°	2.00	0.045	0.030	1.00	17.0-19.0	9.0-12.0	...	...	Ti 5x(C+N)·0.70F
S32109	321H	0.04-0.10	2.00	0.045	0.030	1.00	17.0-19.0	9.0-12.0	...	...	Ti 4x(C+N)·0.70F
S32615	...	0.07	2.00	0.045	0.030	4.8-6.0	16.5-19.5	19.0-22.0	...	0.30-1.50	Cu 1.50-2.50
S32654	...	0.020	2.0-4.0	0.030	0.005	0.50	24.0-25.0	21.0-23.0	0.45-0.55	7.0-8.0	Cu 0.30-0.60
S33228	...	0.04-0.08	1.00	0.020	0.015	0.30	26.0-28.0	31.0-33.0	...	...	Cb 0.60-1.00; Ce 0.05-0.10;
S34565	...	0.030	5.0-7.0	0.030	0.010	1.00	23.0-25.0	16.0-18.0	0.40-0.60	4.0-5.0	Al 0.025 Cb 0.10
S34700	347	0.08°	2.00	0.045	0.030	1.00	17.0-19.0	9.0-12.0	...	...	Cb 10xC-1.10
S34709	347H	0.04-0.10	2.00	0.045	0.030	1.00	17.0-19.0	9.0-12.0	...	...	Cb 8xC-1.10
S34800	348	0.08°	2.00	0.045	0.030	1.00	17.0-19.0	9.0-12.0	...	...	(Cb+Ta) 1OxC-1.1O; Ta 0.10; Co 0.20
S34809	348H	0.04–0.10	2.00	0.045	0.030	1.00	17.0–19.0	9.0–12.0	. . .	. . .	(Cb + Ta) 8×C–1.10; Co 0.20; Ta 0.10
S35315	. . .	0.04–0.08	2.00	0.040	0.030	1.20–2.00	24.0–26.0	34.0–36.0	0.12–0.18	. . .	Ce 0.03–0.08
S38815	. . .	0.030	2.00	0.040	0.020	5.50–6.50	13.0–15.0	15.0–17.0	. . .	0.75–1.50	Al 0.30; Cu 0.75–1.50
Austenitic-Ferritic Grades
S31803	...	0.030	2.00	0.030	0.020	1.00	21.0-23.0	4.5-6.5	0.08-0.20	2.5-3.5	...
S32101	...	0.040	4.0-6.0	0.040	0.030	1.00	21.0-22.0	1.35-1.70	0.20-0.25	0.10-0.80	Cu 0.10-0.80
S32202	...	0.030	2.00	0.040	0.010	1.00	21.5-24.0	1.00-2.80	0.18-0.26	0.45	...
S32205	...	0.030	2.00	0.030	0.020	1.00	22.0-23.0	4.5-6.5	0.14-0.20	3.0-3.5	...
S32506	...	0.030	1.00	0.040	0.015	0.90	24.0-26.0	5.5-7.2	0.08-0.20	3.0-3.5	w 0.05-0.30
S32550	...	0.04	1.50	0.040	0.030	1.00	24.0-27.0	4.5-6.5	0.10-0.25	2.9-3.9	Cu 1.50-2.50
S32750	...	0.030	1.20	0.035	0.020	0.80	24.0-26.0	6.0-8.0	0.24-0.32	3.0-5.0	Cu 0.50
S32760G	...	0.030	1.00	0.030	0.010	1.00	24.0-26.0	6.0-8.0	0.20-0.30	3.0-4.0	Cu 0.50-1.00;W 0.50-1.00
S32906	...	0.030	0.80-1.50	0.030	0.030	0.50	28.0-30.0	5.8-7.5	0.30-0.40	1.50-2.60	Cu 0.80
832950	...	0.03	2.00	0.035	0.010	0.60	26.0-29.0	3.5-5.2	0.15-0.35	1.00-2.50	...
S39277	...	0.025	0.80	0.025	0.002	0.80	24.0-26.0	6.5-8.0	0.23-0.33	3.0-4.0	Cu 1.20-2.00 w 0.80-1.20
S82441	. . .	0.030	2.5–4.0	0.035	0.005	0.70	23.0–25.0	3.0–4.5	0.20–0.30	1.00–2.00	Cu 0.10–0.80
Ferritic Grades
S40500	405	0.08	1.00	0.040	0.030	1.00	11.5-14.5	0.50	...	..	Al 0.10-0.30
S43000	430	0.12	1.00	0.040	0.030	1.00	16.0-18.0	...	...	...	...
S43035	439	0.07	1.00	0.040	0.030	1.00	17.0-19.0	0.50	0.04	...	TI 0.20 + 4 x (C+N) -1.10; Al 0.15
S44400	444	0.025	1.00	0.040	0.030	1.00	17.5-19.5	1.00	0.035	1.75-2.50	(Ti+Cb) 0.20 + 4 x (C+N)-0.80
S44627	XM-27	0.010H	0.40	0.020	0.020	0.40	25.0-27.5	0.50	o.015H	0.75-1.50	Cu 0.20; Cb 0.05-0.20;(Ni+Cu) 0.50
S44700		0.010	0.30	0.025	0.020	0.20	28.0-30.0	0.15	0.020	3.5-4.2	(C+N) 0.025;Cu 0.15
S44800		0.010	0.30	0.025	0.020	0.20	28.0-30.0	2.00-2.50	0.020	3.5-4.2	(C+N) 0.025; Cu 0.15
Martensitic Grades
S40300	403	0.15	1.00	0.040	0.030	0.50	11.5–13.0	...	...	...	...
S41000	410	0.15	1.00	0.040	0.030	1.00	11.5–13.5	...	...	...	...
S41040	XM-30	0.18	1.00	0.040	0.030	1.00	11.5–13.5	...	...	...	Cb 0.05–0.30
S41400	414	0.15	1.00	0.040	0.030	1.00	11.5–13.5	1.25–2.50	...	...	...
S41425	...	0.05	0.50–1.00	0.020	0.005	0.50	12.0–15.0	4.0–7.0	0.06–0.12	1.50–2.00	Cu 0.30
S41500	...	0.05	0.50–1.00	0.030	0.030	0.60	11.5–14.0	3.5–5.5	...	0.50–1.00	...
S43100	431	0.20	1.00	0.040	0.030	1.00	15.0–17.0	1.25–2.50	...	...	...

Note:

A. New designations established in accordance with Practice E527 and SAE J 1086 published jointly by ASTM and SAE. See ASTM DS–56C, available from ASTM Headquarters.
B. Maximum unless otherwise indicated.
C. Except as required for specific alloy type, molybdenum, titanium, nickel, cobalt, tantalum, nitrogen, and copper need not be reported but shall not be present in other than residual amounts, the intent being to prohibit substitution of one alloy type for another due to absence of control of the above named elements in certain alloys.
D. See Supplementary Requirement S1.
E. American Welding Society designation.
F. Nitrogen content is to be reported for this grade.
G. % Cr + 3.3 × % Mo + 16 × % N $ 40.
H. Product analysis tolerance over the maximum limit for carbon and nitrogen to be 0.002 %.
I. Wrought version of CA6NM.
J. Iron shall be determined arithmetically by difference of 100 minus the sum of specified elements.
K. (Al+Ti) 0.85–1.20.

Mechanical Properties

UNS Designation	Type	Condition	Tensile Strength, min, ksi [MPa]	Yield Strength,A min, ksi [MPa]	Elongation in 2 in. [50 mm] or 4D, min, %	Reduction of Area, min, %B,C	Brinell Hardness, max
Austenitic Grades
N08020	Alloy 20	stabilzed- annealed	80 [550]	35 [240]	30°	50	...
	Up to 2 in. [50.8 mm], incl	strain-hardened	90 [620]	60 [415]	15	40	...
N08367		annealed	95 [655]	45 [310]	30	...	241
N08800	800	annealed	75 [515]	30 [205]	30	...	192
N08810	800H	annealed	65 [450]	25 [170]	30	...	192
N08811		annealed	65 [450]	25 [170]	30	...	192
N08700		annealed	80 [550]	35 [240]	30	50	...
N08904	904L	annealed	71 [490]	31 [220]	35	...	...
N08925		annealed	87 [600]	43 [295]	40	...	217
N08926		annealed	94 [650]	43 [295]	35	...	256
820161		annealed	125 [860]	50 [345]	40	40	311
820910	XM-19	annealed	100 [690]	55 [380]	35	55	293
	Up to 2 in. [50.8 mm], incl	hot-rolled	135 [930]	105 [725]	20	50	...
	Over 2 to 3 in. [50.8 to 76.2 mm], incl	hot-rolled	115 [795]	75 [515]	25	50	...
	Over 3 to 8 in. [76.2 to 203.2 mm], incl	hot-rolled	100 [690]	60 [415]	30	50	...
	Up to 11⁄2 in. [38.1 mm], incl	strain-hardened	145 [1000]	125 [860]	12	40	...
	Over 11⁄2 to 21⁄4 in. [38.1 to 57.2 mm], incl	strain-hardened	120 [825]	105 [725]	15	45	...
S21600, S21603	XM-17, XM-18	annealed	90 [620]	50 [345]	40	50	212
S21800	. . .	annealed	95 [655]	50 [345]	35	55	241
S21904	XM-11	annealed	90 [620]	50 [345]	45	60	...
S24000	XM-29	annealed	100 [690]	55 [380]	30	50	...
S30200, S30400, S30409, S30453, S30880, S30908, S30909, S30940, S31008, S31009, S31040, S31600, S31609, S31635, S31640, S31653, S31700, S32100,S32109, S34700, S34709,S34800, S34809 , S30403, S31603	302, 304, 304H, 304LN, ER308,E 309S, 309H, 309Cb, 310S, 310H, 310Cb, 316, 316H, 316Ti, 316Cb, 316LN, 317, 321, 321H, 347, 347H, 348, 348H	annealed	75 [515]F	30 [205]	30	40	...
	316, 316L 304, 304L	strain-hardened level 1	85 [585]	65 [450]G	30	60	...
	2 in. and under	strain-hardened level 2	95 [655]	75 [515]	25	40	...
	Over 2 to 21⁄2 in. [50.8 to 63.5 mm], incl.	strain-hardened level 2	90 [620]	65 [450]	30	40	...
	Over 21⁄2 to 3 in. [63.5 to 76.2 mm], incl	strain-hardened level 2	80 [550]	55 [380]	30	40	...
S30403,S31603	304L,316L	annealed	70 [485]	25 [170]	30	40	...
S30451,S31651	304N,316N	annealed	80 [550]	35 [240]	30	40	...
S30600	...	annealed	78 (540)	35 (240)	40	...	...
S30815	...	annealed	87 (600)	45 [310)	40	50	...
S31050	0.25 in. [6 mm) and under	annealed	84 (580]	39 [270)	25	40	...
S31050	Over 0.25 in. [6 mm)	annealed	78 [540)	37 [255)	25	40	...
S31254	...	annealed	95 [655]	44 [305]	35	50	...
S31725	...	annealed	75 [515]	30 [205]	40	...	...
S31726	...	annealed	80 [550]	35 [240]	40	...	...
S31727	...	annealed	80 [550)	36 [245)	35	...	217
S32050	...	annealed	98 [675)	48 [330)	40	...	...
S32053	...	annealed	93 [640)	43 [295)	40	...	217
S32615	...	annealed	80 [550)	32 [220)	25	40	...
S32654	...	annealed	109 [750]	62 [430)	40	40	250
S33228	...	annealed	73 [500]	27 [185]	30	...	...
S34565	...	annealed	115 [795)	60 [415]	35	40	230
S35315	...	annealed	94 [650]	39 [270]	40	...	...
S38815	...	annealed	78 [540)	37 (255]_	30	...	...
Austenitic-Ferritic Grades
S31803		annealed	90 [620]	65 [450]	25	...	290
S32101		annealed	94 [650]	65 [450]	30	...	290
S32202		annealed	94 [650]	65 [450]	30	...	290
S32205		annealed	95 [655]	65 [450]	25	...	290
S32506		annealed	90 [620]	65 [450]	18	...	302
S32550		annealed	110 [760]	80 [550]	15	...	297
S32750	2 in.and under	annealed	116 [800]	80 [550]	15	...	310
S32750	over 2 in.	annealed	110 [760]	75 [515]	15	...	310
S32760		annealed	109 [750]	80 [550]	25	...	300
S32906		annealed	109 [750]	80 [550]	25	...	310
S32950		annealed	100[690]	70 [485]	15	...	297
S39277	. . .	annealed	118 [820]	85 [585]	25	50	293
S82441	Under 7/16 in. [11 mm]	annealed	107 [740]	78 [540]	25	. . .	290
S82441	7/16 in. and over [11 mm]	annealed	99 [680]	70 [480]	25	. . .	290
Ferritic Grades
S40500	405	annealed	60 [415]	25 [170]	20	45	207
S43000,S43035	430, 439	annealed	70 [485]	40 [275]	20^H	45^H	192
S44627	XM-27	annealed	65 [450]	40 [275]	...	45^H	217
S44401	...	annealed	60 [415]	45 [310]	20^I	45^I	217
S44700	...	annealed	70 [485]	55 [380]	20	40	...
S44800	...	annealed	70 [485]	55 [380]	20	40	...
Martensitic Grades
S40300, S41000	403, 410	annealed	70 [485]	40 [275]	201	451	223
...	...	1	70 [485]	40 [275]	201	451	223
...	...	2	110 [760]	85 [585]	15	45	269
...	...	3	130 [895]	100 [690]	12	35	331
S41400	414	tempered	115 [795]	90 [620]	15	45	321
S41425	...	tempered	120 [825]	95 [655]	15	45	321
S41500	...	normalized and tempered	115 [795]	90 [620]	15	45	293
S43100	431^J	annealed	...	...	...	...	277
	...	tempered	115 [795]	90 [620]	15	45	321
841040	XM-30	annealed	70 [485]	40 [275]	13^H	45^H	235
...	...	quenched and tempered	125 [860]	100 [690]	13	45	302

Note:

B. Reduction of area does not apply on flat bars 3⁄16 in. [4.80 mm] and under in thickness, as this determination is not generally made in this product size.
C. The material shall be capable of meeting the required reduction of area where listed, but actual measurement and reporting of the reduction of area are not required unless specified in the purchase order.
D. Cold-finished shapes require only 15 %, minimum, elongation.
E. American Welding Society designation.
F. Tensile strength 70 ksi [485 MPa] min permitted for extruded shapes.
G. For bars greater than 2 in. [51 mm], a cross section, 60 ksi [415 MPa] min, shall be permitted. H Elongation in 2 in. or 50 mm of 12 % min and reduction of area of 35 % min permitted for cold-finished bars. I Elongation in 2 in. of 12 % min and reduction of area of 35 % min permitted for cold-drawn or cold-rolled bars. J Annealed bars shall be capable of meeting the tempered condition requirements when heat treated.