Low alloy steel for geothermal power generation turbine rotor, and low alloy material for geothermal power generation turbine rotor and method for manufacturing the same

一种地热发电、低合金钢的技术

Active Publication Date: 2012-10-24
JAPAN STEEL WORKS M&E INC +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For example, in the case of enlarging 1%CrMoV, the following problems are involved: in the central part of the rotor, the cooling rate is greatly reduced and ferrite is precipitated, resulting in a decrease in toughness; and in the feeder head of the steel ingot C enrichment occurs on the side, resulting in the possibility of quenching cracks caused by water cooling during quenching
In Japanese Patent Application Publication No. 52-30716, Japanese Patent Application Publication No. 55-50430 and Japanese Patent Application Publication No. 61-143523, although the toughness of 1% CrMoV steel has been improved, it has not considered Various problems caused, and there is a concern that the toughness will decrease due to the decrease in the cooling rate
In Japanese Patent Application Laid-Open No. 62-290849, although the reduction in cooling rate due to the increase in size is considered, the problem of C enrichment on the riser side of the steel ingot in the case of manufacturing a large steel ingot is not considered. And there is a concern that the segregation resistance will deteriorate when manufacturing large steel ingots

Method used

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  • Low alloy steel for geothermal power generation turbine rotor, and low alloy material for geothermal power generation turbine rotor and method for manufacturing the same
  • Low alloy steel for geothermal power generation turbine rotor, and low alloy material for geothermal power generation turbine rotor and method for manufacturing the same
  • Low alloy steel for geothermal power generation turbine rotor, and low alloy material for geothermal power generation turbine rotor and method for manufacturing the same

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Embodiment approach

[0061] Embodiments of the present invention will be described below.

[0062]In order to obtain the above-mentioned composition, the low-alloy steel ingot of the present invention can be produced in a usual manner, and the ingot production method thereof is not particularly limited. The obtained low alloy steel is subjected to hot working such as forging. After the hot working, the hot worked material is normalized, whereby a homogenization of the structure is achieved. Normalizing can be performed, for example, by heating at 1,000 to 1,100° C., followed by furnace cooling. In addition, quenching and tempering heat treatment can be performed by quenching and tempering. Quenching can be performed, for example, by heating at 900 to 950° C., followed by rapid cooling. After quenching, for example, tempering by heating at 600 to 700° C. may be performed. As the tempering temperature, an appropriate time can be set according to the size and shape of the material.

[0063] The ...

Embodiment

[0065] A 50 kg test ingot having the chemical composition of each of the inventive material Nos. 1 to 15 and the comparative material Nos. 16 to 26 as shown in Table 1 was prepared as a test material. Incidentally, Comparative Material No. 22 has the chemical composition of a common 1% CrMoV steel for thermal power generation. A 50 kg test ingot was manufactured by a vacuum induction melting furnace (VIM) and forged, followed by the specified heat treatment. In order to reproduce the grain size assumed to be an actual large turbine rotor, heat treatment was performed by first performing a grain coarsening treatment at 1,200°C for 2 hours, performing normalizing at 1,100°C as a preliminary heat treatment, Subsequent tempering was carried out at 620°C. Further, the obtained test ingot was heated to 920° C. as a quenching and heating temperature, and then, assuming a large rotor having a diameter of 1,600 mm, it was quenched and cooled to room temperature at 60° C. / hour. Therea...

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Abstract

The invention provides Low alloy steel for geothermal power generation turbine rotor, and low alloy material for geothermal power generation turbine rotor and method for manufacturing the same. A low alloy steel ingot contains from 0.15 to 0.30 % of C, from 0.03 to 0.2 % of Si, from 0.5 to 2.0 % of Mn, from 0.1 to 1.3 % of Ni, from 1.5 to 3.5 % of Cr, from 0.1 to 1.0 % of Mo, and more than 0.15 to 0.35 % of V, and optionally Ni, with a balance being Fe and unavoidable impurities. Performing quality heat treatment including a quenching step and a tempering step to the low alloy steel ingot to obtain a material, which has a grain size number of from 3 to 7 and is free from pro-eutectoid ferrite in a metallographic structure thereof, and which has a tensile strength of from 760 to 860 MPa and a fracture appearance transition temperature of not higher than 40 DEG C.

Description

technical field [0001] The present invention relates to a low alloy steel used primarily in corrosive environments, and in particular the invention is applicable to turbomachinery components such as large geothermal power generation turbine rotors. Background technique [0002] In geothermal power generation, although the steam temperature is as low as about 200°C, the steam contains corrosive gases such as hydrogen sulfide. In view of this fact, high-temperature creep strength required for thermal power generation is unnecessary in a turbine rotor material for geothermal power generation, but corrosion resistance, tensile strength at room temperature, yield strength, and toughness are considered to be important. In such a low temperature range, NiCrMoV steel having excellent toughness containing 3 to 4% by mass of Ni is generally used. However, a steel type containing a large amount of nickel involves a disadvantage of easily causing SCC (Stress Corrosion Cracking). There...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C38/58C22C38/46C21D1/25C21D8/00
CPCC22C38/46C21D1/25C22C38/58C21D7/13C21D1/28C22C38/44C22C38/001C22C38/02
Inventor 大崎智三木一宏东司梶川耕司铃木茂山田政之村上格奥野研一阎梁高久历谷口晶洋山中哲哉高桥诚今井健一渡边修金子丈治
Owner JAPAN STEEL WORKS M&E INC
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