1000MPa grade nickel-saving type metastable austenite stainless steel
A metastable austenitic and stainless steel technology, applied in the field of austenitic stainless steel, can solve the problem of high raw material cost, and achieve the effect of reducing raw material cost, improving strength and widening strength range
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Embodiment 1
[0044] Stainless steel is smelted by non-vacuum induction furnace single smelting method, die-cast into ingots, forged and hot-rolled into 3.00mm thick hot-rolled plates. Solution annealing, the treatment temperature is 1000~1100℃. The room temperature mechanical properties of the obtained nickel-saving metastable austenitic stainless steel were tested, and the room temperature mechanical properties are shown in Table 1. The chemical composition of the nickel-saving metastable austenitic stainless steel in this embodiment is shown in Table 5.
[0045] The room temperature microstructure of the austenitic stainless steel in this embodiment after solution annealing is shown in figure 2 and image 3 ,From figure 2 and image 3 It can be seen that this stainless steel is a single-phase austenite structure, and there are many twine crystals.
[0046] Table 1 Tensile properties of hot-rolled and hot-rolled annealed plates at room temperature
[0047]
Embodiment 2
[0049] Adopt electric arc furnace and AOD two-step method to smelt stainless steel, continuous casting into slab, hot rolling into 3.00mm thick hot-rolled plate. After intermediate annealing, cold rolling with a reduction of 50%. The room temperature mechanical properties of the obtained nickel-saving metastable austenitic stainless steel in the cold-rolled solution annealed state were tested, and the room temperature mechanical properties are shown in Table 2. The chemical composition of the nickel-saving metastable austenitic stainless steel in this embodiment is shown in Table 5.
[0050] Table 2 Tensile properties of cold-rolled solution-annealed sheets at room temperature
[0051]
Embodiment 3
[0053] The stainless steel is smelted by the electric arc furnace single smelting method, continuously cast into slabs, and hot-rolled into 3.00mm thick hot-rolled plates. After intermediate annealing, cold rolling was carried out according to reductions of 9.07%, 13.31%, 14.06%, 20.31%, and 50%, respectively. The mechanical properties of the obtained nickel-saving metastable austenitic stainless steel in the cold-rolled condition at room temperature are tested. The mechanical properties at room temperature are shown in Table 3. The tensile mechanical properties at room temperature are shown in Table 3. Figure 6 . The chemical composition of the nickel-saving metastable austenitic stainless steel in this embodiment is shown in Table 5.
[0054] The cold-rolled microstructure of the austenitic stainless steel of this embodiment is shown in Figure 4 and Figure 5 ,From Figure 4 and Figure 5 It can be seen that the volume fraction of strain-induced lath martensite is 46%...
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