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Monday 26 October 2020
  • 904L Stainless Steel Data sheet
  • 904L Stainless Steel Data sheet
  • 904L Stainless Steel Data sheet
  • 904L Stainless Steel Data sheet
  • 904L Stainless Steel Data sheet
  • 904L Stainless Steel Data sheet
  • 904L Stainless Steel Data sheet
  • 904L Stainless Steel Data sheet

Alloy

UNS Number

SAE Number

  904L

UNS N08904 

   

 

GENERAL PROPERTIES

 
Alloy 904L (UNS N08904) is a super austenitic stainless steel that is designed for moderate to high corrosion resistance in a wide range of process environments. The combination of high chromium and nickel content, coupled with additions of molybdenum and copper, assure good to excellent corrosion resistance. With its highly alloyed chemistry — 25% nickel and 4.5% molybdenum, 904L provides good chloride stress corrosion cracking resistance, pitting and general corrosion resistance superior to 316L and 317L molybdenum enhanced stainless steels. Alloy 904L was originally developed to withstand environments containing dilute sulfuric acid. It also offers good resistance to other inorganic acids such as hot phosphoric acid as well as most organic acids. Alloy 904L is easily welded and processed by standard shop fabrication practices. 

Resistance to corrosion  

  • Good strength and toughness at cryogenic temperatures  
  • Ease of cleaning  
  • Excellent formability  
  • Resistance to oxidation  
  • Prevention of product contamination  
  • East of fabrication  
  • Beauty of appearance  
  • High strength with low weight  
  • Ready availability of a wide range of product forms  

 

RESISTANCE TO CORROSION

The high content of alloying elements in 904L gives the alloy exceptionally good resistance to uniform corrosion. 904L was originally developed to withstand environments containing dilute sulfuric acid, and is one of the few stainless steels that, at temperatures up to 95°F (35°C), providefullresistanceinsuchenvironmentswithinthe entireconcentration range of 0 to 100%. 904L also offers good resistance to a number of other inorganic acids, such as phosphoric acid and most organic acids. However, acids and acid solutions containing halide ions can be very aggressive,andthe corrosionresistanceof 317L,317LMNand904Lmaybeinsufficient. Fractionaldistillationotalloiloftenneedsbettermaterialthan 316Lor eventhemore frequentlyused 317LMN.  In thesehotconcentrated caustic solutions, the corrosion resistance is mainly determined by the nickel content of the material. With a nickel content of 25%, 904L has proven to be a good alternative to most conventional stainless steels. Conventionalstainlesssteelssuchas304Land 316Laresusceptibleto chloridestress corrosioncracking(SSC) undercertainconditions. ResistancetoSSCincreaseswiththeincreasedcontent ofnickelandmolybdenum.Therefore, the higher performance austenitic stainless steels such as 904L have verygoodresistanceto SSC. 

PHYSICAL PROPERTIES

 

Melting Point 

Density

Specific Gravity

Modulus of Elasticity 
in Tension

   2372 –2534°F   

1300–1390°C 

0.287 lbs / in3  7.95 g /cm3 

  7.98 

28.0 x 106 psi  190 GPa  

 
 

MECHANICAL PROPERTIES 

 

Alloy

Temper

Tensile Strength 
Minimum  
(psi)

Yield Strength 
Minimum 0.2% offset  
(psi)

% Elongation 
in 2" Minimum

Notes

904L

Annealed

71,000

31,000

36%

-

-

 
 

CHEMICAL PROPERTIES 

 

Alloy

Cu

Mn

P

S

Si

Cr

Ni

Mo

Cu

N

Other

904L

1.00 

-

2.00

2.00

.045

.035

1.00

19.00-23.00

23.00-26/00

4.00

-

5.00

.75

.10

-

 

 
 

WELDING 

 
Alloy 904L can be readily welded by most standard processes. Austenitic plate materials have a homogeneous austenitic structure with an even distribution of alloying elements. Solidification after welding causes the redistribution of certain elements such as molybdenum, chromium and nickel. These segregations remain in the cast structure of the weld and can impair the corrosion resistance in certain environments. Segregation is less evident in 904L, and this material is normally welded using a filler metal of the same composition as the base metal and can even be welded without filler metal. The welding consumables for 904L are 20 25 CuL covered electrode  
 
 

HEAT TREATMENT 
 
 

 
Working temperatures of 1562 – 2102°F (850 –1150°C) are recommended for hot working processes. Normally hot working should be followed by a solution anneal and quench, but for 904L, if hot forming is discontinued at a temperature above 2012°F (1100°C)  and the material is quenched directly thereafter, the material may be used without subsequent heat treatment. It is important that the entire workpiece be quenched from temperatures above 2012°F (1100°C). In the event of partial heating or cooling below 2012°F (1100°C), or if the cooling has been  too  slow, hot working should always be followed by a solution anneal and quenching. 904L should be solution annealed at 1940–2084°F (1060–1140°C) 

 

Contact Us

 

contact phoneT: + 44 (0)1902 409316
Fusion House
The Crescent
Willenhall
West Midlands
WV13 2QR

F: + 44 (0)1902 409304
E: sales@quest4alloys.com