Liquid steel calcium treatment method and steel production method

Abstract

The invention provides a method for treating molten steel calcium, a composite calcium line and a method for manufacturing steel. The method for treating molten steel calcium comprises the following steps of: performing calcium treatment to molten steel in a mode of feeding a calcium line to the molten steel; and controlling the feeding position of the calcium on the position which is 200 to 350mm from the edge of the exposed region on the molten steel surface. The composite calcium line comprises an inner pure calcium line, an outer steel casing and ferrosilicon powder filled between the inner layer and the outer layer. The method for manufacturing steel comprises the following steps of: primarily melting molten steel, pre-deoxidizing, refining molten steel by LF (ladle furnace) and performing calcium treatment, wherein the step of calcium treatment is to perform calcium treatment on the molten steel by adopting the molten steel calcium treatment method. In the steel making process, calcium can be quickly brought to the deep part of molten steel by using the method, so that the staying time of calcium in molten steel can be prolonged, the effect of calcium treatment can be reinforced, the molten steel splashing strength can be weakened, and steel with better quality can be obtained finally.

Description

technical field [0001] The invention relates to the technical field of iron and steel metallurgy, and more specifically, relates to a molten steel calcium treatment technology, a composite calcium wire and a steel manufacturing method. Background technique [0002] Calcium treatment is performed on molten steel, that is, the denaturation treatment is performed on the residual high-melting-point Al2O3 inclusions in molten steel to form calcium-aluminate with low melting point, so as to improve the casting performance of molten steel. Specifically, the calcium wire can be fed into the molten steel through the wire feeder, and the bottom blowing argon is used to stir to promote the metallurgical reaction, and the Al2O3 brittle inclusions can be changed into calcium-aluminate spherical inclusions with a low melting point, which effectively promotes the inclusion It can improve the cleanliness of molten steel, reduce the clogging problem of the tundish nozzle, and create conditio...

AI Technical Summary

Problems solved by technology

[0005] It can be seen that the existing solid-core pure calcium wire can increase the calcium yield to a certain extent, but because it does not consider the effect of bottom blowing argon on the calcium treatment effect of molten steel, the calcium yield fluctuates greatly. The molten steel splashes strongly, and the molten steel is easy to spill out of the bag, which also poses a threat to the safety of personnel, and there is a large potential safety hazard

At the same time, the splash strongly causes the molten steel to absorb air, and there are also hidden dangers in the quality of the steel.