Manufacture method of steel ingot for million multikilowatt nuclear electricity pile core component

Abstract

The invention discloses a method for manufacturing a steel ingot used for million-kilowatt nuclear power reactor core structural component, austenitic stainless steel ingot that weighs over 25 tons is manufactured by electroslag remelting process: firstly, preparation: a single-phase bipolar series connected or triphase bipolar series connected electroslag remelting furnace is adopted; a copper wall water-cooling crystallizer and a water-cooled base plate are adopted; a consumable electrode is assembled; slag charge is matched; SiGa and Al powder are adopted for deoxidation; secondly, refinement and fusion casting: a graphite electrode is picked up and replaced by the consumable electrode to remelt the fully melted slag charge after slagging and slugging. When the actual weight of the steel ingot is 2 tons less than the preset weight, the electric power is reduced and feeding operation in telophase is carried out; thirdly, the steel ingot is stripped. The steel ingot manufactured by the invention has extremely high purity, extremely fine uniformity, excellent high temperature resistance and tarnish resistance, as well as strong anti neutron radiation embrittlement sensibility.

Description

technical field [0001] The invention relates to a method for manufacturing a steel ingot, in particular to a method for manufacturing a steel ingot for a million-kilowatt nuclear power reactor core component. Background technique [0002] The core components of mega-kilowatt nuclear power plants are large austenitic stainless steel forgings, which are the heart components that affect the life of nuclear reactors. Each set of million-kilowatt-level nuclear power core includes five components, namely the upper support flange, upper support plate, basket flange, core support plate and outlet nozzle, with a total delivery weight of more than 100 tons. Because it has been working continuously for decades without being replaced, everything must be ensured to ensure that each forging has the same service life under the same conditions, and the entire core component can be used for 70 years. During the operation of nuclear power plants, core stainless steel forgings not only need t...

AI Technical Summary

Problems solved by technology

However, the physical and chemical properties of steel ingots produced by general manufacturing methods cannot meet the requirements of nuclear power, so they cannot be used as large austenitic stainless steel forgings for million-kilowatt nuclear power reactor core components.

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