A method for preparing super duplex stainless steel valves for offshore platforms by controlled precipitation
A technology of duplex stainless steel and offshore platform, applied in the field of super duplex stainless steel valves, can solve the problems of high requirements on pitting corrosion resistance, crevice corrosion performance, long solution treatment time, and reduction of duplex stainless steel, etc., to achieve excellent Mechanical properties and corrosion resistance, scientific composition ratio, high pitting resistance effect
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Embodiment 1
[0023] A method for preparing super duplex stainless steel valves for offshore platforms by controlled precipitation method, the steps are:
[0024] The chemical composition percentage of the super duplex stainless steel valve is: C: 0.026wt%, Si: 0.62wt%, Mn: 1.28wt%, Cr: 26.85%, Ni: 7.42%, Mo: 3.68%, N: 0.52% , Al: 0.89%, Nb: 0.029%, Fe: balance;
[0025] After weighing the raw materials according to the above ratio, use nitrogen pressurization and nitrogen alloying methods for smelting and casting. After the ingot is completely solidified and cooled, and the riser is removed, the cast billet is heated to 1180°C and kept for 1.5 hours for vacuum quenching and cooling. The cooling adopts segmented cooling, the temperature range of 1180℃~650℃, the nitrogen pressure is 10MPa, the cooling rate is 170℃ / min; the temperature range of 650℃~50℃ the nitrogen pressure is 6MPa, the cooling rate is 30℃ / min, the cooling rate is as follows figure 1 Shown
Embodiment 2
[0031] A method for preparing super duplex stainless steel valves for offshore platforms by controlled precipitation method, the steps are:
[0032] The chemical composition percentages of super duplex stainless steel valves are: C: 0.028wt%, Si: 0.58wt%, Mn: 1.10wt%, Cr: 26.45%, Ni: 7.12%, Mo: 3.63%, N: 0.45% , Al: 1.18%, Nb: 0.031%, Fe: balance;
[0033] After weighing the raw materials according to the above ratio, use nitrogen pressurization and nitrogen alloying methods for smelting and casting. After the ingot is completely solidified and cooled, and the riser is removed, the cast billet is heated to 1180°C and kept for 1.5 hours for vacuum quenching and cooling. Cooling adopts segmented cooling: 1180℃~650℃ temperature range, nitrogen pressure 9MPa, cooling rate 170℃ / min; 650℃~50℃ temperature range, nitrogen pressure 7MPa, cooling rate 30℃ / min, cooling rate as figure 1 Shown
[0034] XRD analysis technology is used to determine the volume fraction of ferrite and austenite in ...
Embodiment 3
[0039] A method for preparing super duplex stainless steel valves for offshore platforms by controlled precipitation method, the steps are:
[0040] The chemical composition percentage of the super duplex stainless steel valve is: C: 0.029wt%, Si: 0.78wt%, Mn: 1.42wt%, Cr: 27.68%, Ni: 7.71%, Mo: 3.83%, N: 0.58% , Al: 1.38%, Nb: 0.034%, Fe: balance.
[0041] After weighing the raw materials according to the above ratio, use nitrogen pressurization and nitrogen alloying methods for smelting and casting. After the ingot is completely solidified and cooled, and the riser is removed, the cast billet is heated to 1180°C and kept for 1.5 hours for vacuum quenching and cooling. Cooling adopts segmented cooling: 1180℃~650℃ temperature range, nitrogen pressure 10MPa, cooling rate 170℃ / min; 650℃~50℃ temperature range nitrogen pressure 6MPa, cooling rate 30℃ / min, cooling rate such as figure 1 Shown
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