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Process for removing mixed crystal defect of large rotor forging

A forging and process technology, which is applied in the field of eliminating mixed crystal defects in low-pressure rotor forgings of large steam turbines, and can solve problems such as increased pressure and normalizing times, abnormal grain growth, and mixed crystals

Inactive Publication Date: 2008-09-17
BEIJING RES INST OF MECHANICAL&ELECTRICAL TECH
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Problems solved by technology

Since the diameter of the forging has reached the maximum shaft diameter of the rotor before the forming fire, the middle part of the forging will no longer be deformed after the forming fire. This heating state without forging ratio will inevitably cause the grains in the core of the rotor to grow abnormally, and the genetic characteristics of the material will cause mixed crystal defects. Generated, bring pressure and increase the number of normalizing times to the subsequent heat treatment
Theoretical studies and numerical simulations have shown that the current forming and secondary heating process causes the core temperature of the rotor forging to always be above 1150°C, and prolonged exposure to this temperature will inevitably lead to abnormal grain growth and the formation of mixed crystal defects

Method used

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Embodiment Construction

[0004] For 300,000-kilowatt steam turbine low-pressure rotor forgings, the maximum diameter of the finished product is 1950mm. In order to control the temperature of the core of the forging within a reasonable temperature range for each forming fire, after the compaction fire is completed, the rotor forging is air-cooled for 4 to 4.5 hours, and then returned to the furnace for heating: the heating temperature is 1200-1270 ℃, the heating time is 10-12 hours. After that, take it out of the furnace and forge for 2 hours, air cool for 1 hour, and then return to the furnace for heating: the heating furnace temperature is 1200-1270 degrees, and the heating time is 8-10 hours. After that, it is forged out of the furnace and sent to heat treatment after completion.

[0005] During the forming process, the temperature of the core of the rotor forging is controlled below 1120 degrees, because experiments have shown that when the temperature is higher than 1150 degrees, the materials 30...

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Abstract

This invention provides a technology that eliminates flaws of mixed crystal of low pressure rotor forging of large turbine to decrease normalizing frequency, this technology controls central temperature of forging by some specific measure to make it be in a rational temperature range at every forming heats, to avoid grain of forging centre growing anomaly, avoid creating mixed crystal flaw, decrease Follow-up normalizing frequency.

Description

technical field [0001] The invention relates to a process for eliminating mixed crystal defects of a large-scale steam turbine low-pressure rotor forging Background technique [0002] At present, in the existing technology, the production process design of large forgings mainly focuses on meeting the deformation requirements of steel ingots, and does not take enough consideration of the influence of forging heating on the performance of final products. For example, in the current 300,000-kilowatt steam turbine low-pressure rotor forging process, each forming heat has the characteristics of long heating time (18-20 hours) and high temperature (1200-1270°C). Since the diameter of the forging has reached the maximum shaft diameter of the rotor before the forming fire, the middle part of the forging will no longer be deformed after the forming fire. This heating state without forging ratio will inevitably cause the grains in the core of the rotor to grow abnormally, and the gene...

Claims

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Application Information

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IPC IPC(8): C21D9/00C21D1/28C21D11/00
Inventor 金泉林曾志朋
Owner BEIJING RES INST OF MECHANICAL&ELECTRICAL TECH
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