Effect of PWHT Conditions on Toughness and Creep Rupture Strength in Modified 9Cr-1Mo Steel Welds

Satoru Nishikawa,Tadayuki Hasegawa,Makoto Takahashi

doi:10.1515/htmp-2019-0031

Satoru Nishikawa, Tadayuki Hasegawa + Show 1 more

Open Access

https://doi.org/10.1515/htmp-2019-0031

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Abstract

Abstract We clarified the effect of post weld heat treatment (PWHT) conditions on the toughness and creep rupture strength of modified 9Cr–1Mo steel weldments used for high temperature components of ultra-supercritical power plants. Fracture appearance transition temperature (FATT) decreased as PWHT temperature increased, and for all of the weld metals of tungsten inert gas welding, submerged arc welding and shielded metal arc welding, FATTs were lower than 293 K when the PWHT temperature was higher than 1,008 K. In contrast, in the uniaxial creep test with a loaded stress of 108 MPa, the creep rupture strength of the specimen on which PWHT was carried out for a holding time of 7.2 ks was significantly decreased when the PWHT temperature was more than 1,033 K. Therefore, the appropriate PWHT temperature range to maintain the toughness and creep fracture strength was 1,008 K ≤ T ≤ 1,033 K.

Highlights

Steam conditions in thermal power plants are high-temperature high-pressure to decrease the emission of CO2, ultra-supercritical (USC) plant with main steam temperature at 600 °C is operating
We clarified the effect of post weld heat treatment (PWHT) conditions on the toughness and creep rupture strength of modified 9Cr–1Mo steel weldments used for high temperature components of ultra-supercritical power plants
We investigated the necessary PWHT temperature for improving the toughness of the weld metal in each welding process

Summary

Introduction

Steam conditions in thermal power plants are high-temperature high-pressure to decrease the emission of CO2, ultra-supercritical (USC) plant with main steam temperature at 600 °C is operating. Abstract: We clarified the effect of post weld heat treatment (PWHT) conditions on the toughness and creep rupture strength of modified 9Cr–1Mo steel weldments used for high temperature components of ultra-supercritical power plants. In the uniaxial creep test with a loaded stress of 108 MPa, the creep rupture strength of the specimen on which PWHT was carried out for a holding time of 7.2 ks was significantly decreased when the PWHT temperature was more than 1,033 K.

Results

Conclusion