Designation by Standards
Chemical Composition (in weight %)
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1.4841 steel is a heat resistant austenitic steel grade characterized by good high temperature strength at elevetaed temperatures. Steel is heat resistant up to to 1000oC. It can thus primarily be used wherever high mechanical stress occour.
Application examples: grids, fittings, supporting/walking beams, blowers, superheater parts, pipe clips, component parts for furnaces, steam boilers, sheath tubes for thermocouples.
Physical properties (avarage values) at ambient temperature
Modulus of elasticity [103 x N/mm2]: Approx. 210
Density [g/cm3]: 7.9
Thermal conductivity [W/m.K]: 15, 19 (500oC)
Electric resistivity [Ohm mm2/m]: 0.90
Specific heat capacity[J/g.K]: 0.50
Coefficient of Linear Thermal Expansion 10-6 oC-1
Stress relieving to remove machining stresses should be carried out by heating to approx. 650oC, holding for 1-2 hours at heat, followed by air cooling. This operation is performed to reduce distortion during heat treatment.
Harden from a temperature of 1050-1150oC followed by water or air (sufficienty fast) quenching. Structure after quenching is austenite.
Mechanical properties at room temperature in solution-annealed condition
For size range: <=160 mm and solution-annealed condition
Hardnees: Approx. 223 HB
0.2 % proof stress: 230 N/mm2
1.0 % proof stress: 270 N/mm2
Tensile strength: 550-750 N/mm2
Elongation after fracture AT min: 30%
Approximate data on long-term high temperature resistance + AT condition
1% Creep Limit in N/mm2 vs. Temperature in oC
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Hot forming temperature: 1150-800oC, cooling in air.
This alloy machines similarly to type 304 stainless. Its chips are stringy and it will work harden rapidly. It is necessary to keep the tool cutting at all times and use chip breakers.
Application Temperature: Maximum application temperature in air is 1000oC.
Steel is resistant to scaling in oxidizing atmospheres at up to 1050oC. Steel is sensitive to SO2, and particularly gases containing H2S at temperatures in excess of 650oC. It is also displays a certain sensitivity to carburising gases, especially at temperatures above 900oC. 1.4841 displays a tendency towards embrittlement due to Sigma-phase formation during continuous operation in the temperature range between 600 and 850oC.
Most of the austenitic stainless steels can be readily welded using fusion or resistance methods. Oxyacetylene welding is not recommended. Filler metal should be AWS E/ER 309 or 309L.
Although this alloy has a high work hardening rate, it can be drawn, headed, upset, and stamped. Full annealing is required after cold work to remove internal stress.
All technical information is for reference only.