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Stainless Steel Grades and Designations


EN-standard
Steel no. k.h.s DIN
EN-standard
Steel name
SAE gradeUNS
440AS44002
1.4112440BS44003
1.4125440CS44004
440FS44020
1.4016X6Cr17430S43000
1.4512X6CrTi12409S40900
410S41000
1.4310X10CrNi18-8301S30100
1.4318X2CrNiN18-7301LNN/A
1.4307X2CrNi18-9304LS30403
1.4306X2CrNi19-11304LS30403
1.4311X2CrNiN18-10304LNS30453
1.4301X5CrNi18-10304S30400
1.4948X6CrNi18-11304HS30409
1.4303X5CrNi18-12305S30500
X5CrNi30-9312
1.4541X6CrNiTi18-10321S32100
1.4878X12CrNiTi18-9321HS32109
1.4404X2CrNiMo17-12-2316LS31603
1.4401X5CrNiMo17-12-2316S31600
1.4406X2CrNiMoN17-12-2316LNS31653
1.4432X2CrNiMo17-12-3316LS31603
1.4435X2CrNiMo18-14-3316LS31603
1.4436X3CrNiMo17-13-3316S31600
1.4571X6CrNiMoTi17-12-2316TiS31635
1.4429X2CrNiMoN17-13-3316LNS31653
1.4438X2CrNiMo18-15-4317LS31703
1.4539X1NiCrMoCu25-20-5904LN08904
1.4547X1CrNiMoCuN20-18-7N/AS31254


The SAE steel grades are the most commonly used grading system in the US for stainless steel. Other steel grades include the UNS grades.
100 Series—austenitic chromium-nickel-manganese alloys
Type 101—austenitic that is hardenable through cold working for furniture
Type 102—austenitic general purpose stainless steel working for furniture
200 Series—austenitic chromium-nickel-manganese alloys
Type 201—austenitic that is hardenable through cold working
Type 202—austenitic general purpose stainless steel
300 Series—austenitic chromium-nickel alloys
Type 301—highly ductile, for formed products. Also hardens rapidly during mechanical working. Good weldability. Better wear resistance and fatigue strength than 304.
Type 302—same corrosion resistance as 304, with slightly higher strength due to additional carbon.
Type 303—free machining version of 304 via addition of sulfur and phosphorus. Also referred to as "A1" in accordance with ISO 3506.[13]
Type 304—the most common grade; the classic 18/8 stainless steel. Also referred to as "A2" in accordance with ISO 3506.[13]
Type 304L— same as the 304 grade but contains less carbon to increase weldability. Is slightly weaker than 304.
Type 304LN—same as 304L, but also nitrogen is added to obtain a much higher yield and tensile strength than 304L.
Type 308—used as the filler metal when welding 304
Type 309—better temperature resistance than 304, also sometimes used as filler metal when welding dissimilar steels, along with inconel.
Type 316—the second most common grade (after 304); for food and surgical stainless steel uses; alloy addition of molybdenum prevents specific forms of corrosion. It is also known as marine grade stainless steel due to its increased resistance to chloride corrosion compared to type 304. 316 is often used for building nuclear reprocessing plants.[13]
Type 316L—extra low carbon grade of 316, generally used in stainless steel watches and marine applications due to its high resistance to corrosion. Also referred to as "A4" in accordance with ISO 3506.
Type 316Ti—includes titanium for heat resistance, therefore it is used in flexible chimney liners.
Type 321—similar to 304 but lower risk of weld decay due to addition of titanium. See also 347 with addition of niobium for desensitization during welding.
400 Series—ferritic and martensitic chromium alloys
Type 405— ferritic for welding applications
Type 408—heat-resistant; poor corrosion resistance; 11% chromium, 8% nickel.
Type 409—cheapest type; used for automobile exhausts; ferritic (iron/chromium only).
Type 410—martensitic (high-strength iron/chromium). Wear-resistant, but less corrosion-resistant.
Type 416—easy to machine due to additional sulfur
Type 420—Cutlery Grade martensitic; similar to the Brearley's original rustless steel. Excellent polishability.
Type 430—decorative, e.g., for automotive trim; ferritic. Good formability, but with reduced temperature and corrosion resistance.
Type 439—ferritic grade, a higher grade version of 409 used for catalytic converter exhaust sections. Increased chromium for improved high temperature corrosion/oxidation resistance.
Type 440—a higher grade of cutlery steel, with more carbon, allowing for much better edge retention when properly heat-treated. It can be hardened to above Rockwell 55 hardness,[citation needed] making it one of the hardest stainless steels. Due to its hardness and relatively low cost, most display-only and replica swords or knives are made of 440 stainless. Available in four grades: 440A, 440B, 440C, and the uncommon 440F (free machinable). 440A, having the least amount of carbon in it, is the most stain-resistant; 440C, having the most, is the strongest and is usually considered more desirable in knifemaking than 440A, except for diving or other salt-water applications.
Type 446—For elevated temperature service
500 Series—heat-resisting chromium alloys
600 Series—martensitic precipitation hardening alloys
601 through 604: Martensitic low-alloy steels.
610 through 613: Martensitic secondary hardening steels.
614 through 619: Martensitic chromium steels.
630 through 635: Semiaustenitic and martensitic precipitation-hardening stainless steels.
Type 630 is most common PH stainless, better known as 17-4; 17% chromium, 4% nickel.
650 through 653: Austenitic steels strengthened by hot/cold work.
660 through 665: Austenitic superalloys; all grades except alloy 661 are strengthened by second-phase precipitation.
Type 2205— the most widely used duplex (ferritic/austenitic) stainless steel grade. It has both excellent corrosion resistance and high strength.



SAE designationUNS designation % Cr % Ni % C % Mn % Si % P % S % NOther
Austenitic
201S2010016–183.5–5.50.155.5–7.50.750.060.030.25-
202S2020017–194–60.157.5–10.00.750.060.030.25-
205S2050016.5–181–1.750.12–0.2514–15.50.750.060.030.32–0.40-
301S3010016–186–80.1520.750.0450.03--
302S3020017–198–100.1520.750.0450.030.1-
302BS3021517–198–100.1522.0–3.00.0450.03--
303S3030017–198–100.15210.20.15 min-Mo 0.60 (optional)
303SeS3032317–198–100.15210.20.06-0.15 Se min
304S3040018–208–10.500.0820.750.0450.030.1-
304LS3040318–208–120.0320.750.0450.030.1-
304CuS3043017–198–100.0820.750.0450.03-3–4 Cu
304NS3045118–208–10.500.0820.750.0450.030.10–0.16-
305S3050017–1910.50–130.1220.750.0450.03--
308S3080019–2110–120.08210.0450.03--
309S3090022–2412–150.2210.0450.03--
309SS3090822–2412–150.08210.0450.03--
310S3100024–2619–220.2521.50.0450.03--
310SS3100824–2619–220.0821.50.0450.03--
314S3140023–2619–220.2521.5–3.00.0450.03--
316S3160016–1810–140.0820.750.0450.030.102.0–3.0 Mo
316LS3160316–1810–140.0320.750.0450.030.102.0–3.0 Mo
316FS3162016–1810–140.08210.20.10 min-1.75–2.50 Mo
316NS3165116–1810–140.0820.750.0450.030.10–0.162.0–3.0 Mo
317S3170018–2011–150.0820.750.0450.030.10 max3.0–4.0 Mo
317LS3170318–2011–150.0320.750.0450.030.10 max3.0–4.0 Mo
321S3210017–199–120.0820.750.0450.030.10 maxTi 5(C+N) min, 0.70 max
329S3290023–282.5–50.0820.750.040.03-1–2 Mo
330N0833017–2034–370.0820.75–1.500.040.03--
347S3470017–199–130.0820.750.0450.030-Nb + Ta, 10 x C min, 1 max
348S3480017–199–130.0820.750.0450.030-Nb + Ta, 10 x C min, 1 max, but 0.10 Ta max; 0.20 Ca
384S3840015–1717–190.08210.0450.03--
904L19-2323-280.02210.0450.035-Mo 4-5, Cu 1-2
Ferritic
405S4050011.5–14.5-0.08110.040.03-0.1–0.3 Al, 0.60 max
409S4090010.5–11.750.050.08110.0450.03-Ti 6 x C, but 0.75 max
429S4290014–160.750.12110.040.03--
430S4300016–180.750.12110.040.03--
430FS4302016–18-0.121.2510.060.15 min-0.60 Mo (optional)
430FSeS4302316–18-0.121.2510.060.06-0.15 Se min
434S4340016–18-0.12110.040.03-0.75–1.25 Mo
436S4360016–18-0.12110.040.03-0.75–1.25 Mo; Nb+Ta 5 x C min, 0.70 max
442S4420018–23-0.2110.040.03--
446S4460023–270.250.21.510.040.03--
Martensitic
403S4030011.5–13.00.600.1510.50.040.03--
410S4100011.5–13.50.750.15110.040.03--
414S4140011.5–13.51.25–2.500.15110.040.03--
416S4160012–14-0.151.2510.060.15 min-0.060 Mo (optional)
416SeS4162312–14-0.151.2510.060.06-0.15 Se min
420S4200012–14-0.15 min110.040.03--
420FS4202012–14-0.15 min1.2510.060.15 min-0.60 Mo max (optional)
422S4220011.0–12.50.50–1.00.20–0.250.5–1.00.50.0250.025-0.90–1.25 Mo; 0.20–0.30 V; 0.90–1.25 W
431S4162315–171.25–2.500.2110.040.03--
440AS4400216–18-0.60–0.75110.040.03-0.75 Mo
440BS4400316–18-0.75–0.95110.040.03-0.75 Mo
440CS4400416–18-0.95–1.20110.040.03-0.75 Mo
Heat resisting
501S501004–6-0.10 min110.040.03-0.40–0.65 Mo
502S502004–6-0.1110.040.03-0.40–0.65 Mo
Martensitic precipitation hardening
630S1740015-173-50.07110.040.03-Cu 3-5, Ta 0.15-0.45 



Stainless Steel Finishes


No. 0: Hot rolled, annealed, thicker plates
No. 1: Hot rolled, annealed and passivated
No. 2D: Cold rolled, annealed, pickled and passivated
No. 2B: Same as above with additional pass-through highly polished rollers
No. 2BA: Bright annealed (BA or 2R) same as above then bright annealed under oxygen-free atmospheric conditions
No. 3: Coarse abrasive finish applied mechanically
No. 4: Brushed finish
No. 5: Satin finish
No. 6: Matte finish
No. 7: Reflective finish
No. 8: Mirror finish
No. 9: Bead blast finish
No. 10: heat colored finish-wide range of electropolished & heat colored surfaces