Acid corrosion resistance martensite wear-resisting steel plate and manufacturing method thereof
A technology for acid-resistant and wear-resistant steel plates, which is applied in the field of iron and steel smelting, and can solve the problems of steel plate hardness, plasticity, toughness, wear resistance and corrosion resistance at the same time
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[0073] The preparation method of the steel plate described in embodiment 1~2 and comparative example comprises the following steps:
[0074] The molten steel is smelted in a 210-ton converter after desulfurization by KR, desulfurized by the KR method, smelted by the converter, refined by the RH method, and continuously cast into slabs, which are reheated, rough rolled, finish rolled, laminar cooled, and coiled into coils , The steel coils are sequentially treated by Kaiping, quenching and tempering to become acid-resistant martensitic wear-resistant steel plates. The acid-resistant martensitic wear-resistant steel plates can be spray-printed, packaged, and put into storage.
[0075] Table 2
[0076]
Embodiment 1
[0077] The thickness of the acid-resistant martensitic wear-resistant steel plate described in embodiment 1 is 8mm, and its metallographic structure is as follows figure 1 as shown, figure 1 The metallographic structure of the medium steel plate is tempered martensite plus a small amount of carbide.
Embodiment 2
[0078] The thickness of the acid-resistant martensitic wear-resistant steel plate described in embodiment 2 is 8mm, and its metallographic structure is as follows figure 2 as shown, figure 2 The metallographic structure of the steel plate is tempered martensite plus a small amount of carbide.
[0079] The specific mechanical properties of each embodiment and comparative examples are shown in Table 3.
[0080] table 3
[0081]
[0082] The yield strength of the acid corrosion-resistant martensitic wear-resistant steel plates described in Examples 1-2 are all greater than 1100 MPa, and the tensile strength is greater than 1400 MPa. The elongation after breaking is greater than 10%, and the impact energy at -40°C is greater than 27J.
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