DIN1.4539 Stainless Steel
Similar Grade: DIN1.4539, 904L, X1NiCrMoCu25-20-5
Shape: Round, Flat, Square.
Size Range:
|
Diameter(mm) |
Thickness (mm) |
Width (mm) |
Length(mm) |
Round |
50-420 |
- |
- |
2000-5800 |
Square |
50-420 |
- |
- |
2000-5800 |
flat |
- |
20-50 |
80-600 |
2000-5800 |
Steel-making Condition: EF, EF/EAF+LF+VD, EF/EAF+ESR
Delivery Condition:
Annealed , Quenched + Tempered
Surface Condition:
Black, Grinded, Peeled, Rough turned, Polished
Features:
1.Competitive price
2.Immediate delivery
3.Premium quality
4.Reliable service
5.MOQ: 1 Ton
Packing details |
In seaworthy packing, as your requirement. |
Delivery details |
within 30-50 days |
Chemical Composition:
Grade |
C |
Si |
Mn |
P |
S |
Cr |
Ni |
Mo |
Cu |
1.4539 |
0.02 max |
0.7 max |
2.0 max |
0.040 max |
0.010 max |
19.0-
21.0 |
24.0-
26.0 |
4.0-5.0 |
1.2-2.0 |
Mechanical Properties:
Hardness [HB]: 230 max
Tensile Strength (Mpa): 530-730
Yield Strength (Mpa): 230-260
Elongation (%) (Long.): 35 min
Impact Value (J) (Long.): 100 min
Corrosion Resistance:
Where a level of resistance to pitting corrosion better than 316 is required 904L stainless steel may be suitable. With its high nickel content at 25% it offers improved resistance to chloride stress corrosion cracking compared to other austenitic grades such as 304.
Welding:1.4539 stainless steel can be welded using common fusion and resistance methods. A more highly alloyed filler is recommended to give the optimum corrosion properties in the weld. We recommend you contact your welding consumables supplier who should provide you full assistance and information on welding 1.4539 stainless steel.
Application:
1.4539 stainless steel is widely used in the chemical, pharmaceutical, oil and gas industries. Typical applications include tanks, valves, heat exchangers, flanges and manifolds. The addition of copper to the composition of 904L stainless steel aids its suitability for components such as tanks and other products used in handling sulphuric and phosphoric acid.
Description:
1.4539 stainless steel combines molybdenum and copper with iron for tremendously increased resistance to reducing acids like sulphuric acid. It stands up extremely well to chlorides in the environment for low pitting and crevice corrosion, as well as stress corrosion cracking.