Indian Welding Journal

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Influence of Electron Beam Welding Parameters on Microstructure and Mechanical Properties of Boron-Added Modified 9CR-1MO Steel Weld


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1 Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India
     

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Modified 9Cr-lMo steel is used in high temperature applications due to its good thermo-physical, mechanical, weldability and formability. This steel is susceptible to Type IV cracking, in which failure of the weld joint occurs on creep exposure in the intercritical region of the heat- affected zone (ICHAZ). Improved resistance to Type IV cracking in modified 9Cr-1Mo steel weld joints can be achieve by addition of 100 ppm boron along with controlled nitrogen. However, in the absence of boron-added welding consumables, weld joints of this steel are presently being made using boron-free welding consumables. Consequently, during creep, the microstructure of boron-free weld metal is relatively less resistant to coarsening compared to the boron-added base metal and HAZ. The objective of the present investigation is to understand the effect of electron beam welding parameters on the microstructure and mechanical properties of the welds. Weld joints of the boron-free (P91) and boron-added (P91B) modified 9Cr-lMo steels were prepared by varying the welding parameters during electron beam welding. The soundness of the weld joints was confirmed by radiographic examination and bend testing. The tempering behavior of weld metal and base metal was studied and compared. The test results show that the ductile-to-brittle transition temperature of the P91B steel is comparable to that of the P91 steel but lower than that of boron-free weld metal. This paper discusses the influence of electron beam welding parameters on themicrostructure and mechanical properties of boron-added modified 9Cr-lMo steel welds.
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  • Influence of Electron Beam Welding Parameters on Microstructure and Mechanical Properties of Boron-Added Modified 9CR-1MO Steel Weld

Abstract Views: 226  |  PDF Views: 7

Authors

C. R. Das
Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India
A. K. Bhaduri
Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India
S. Mahadevan
Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India
P. Mastaniah
Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India
S. K. Albert
Indira Gandhi Centre for Atomic Research, Kalpakkam 603102, India

Abstract


Modified 9Cr-lMo steel is used in high temperature applications due to its good thermo-physical, mechanical, weldability and formability. This steel is susceptible to Type IV cracking, in which failure of the weld joint occurs on creep exposure in the intercritical region of the heat- affected zone (ICHAZ). Improved resistance to Type IV cracking in modified 9Cr-1Mo steel weld joints can be achieve by addition of 100 ppm boron along with controlled nitrogen. However, in the absence of boron-added welding consumables, weld joints of this steel are presently being made using boron-free welding consumables. Consequently, during creep, the microstructure of boron-free weld metal is relatively less resistant to coarsening compared to the boron-added base metal and HAZ. The objective of the present investigation is to understand the effect of electron beam welding parameters on the microstructure and mechanical properties of the welds. Weld joints of the boron-free (P91) and boron-added (P91B) modified 9Cr-lMo steels were prepared by varying the welding parameters during electron beam welding. The soundness of the weld joints was confirmed by radiographic examination and bend testing. The tempering behavior of weld metal and base metal was studied and compared. The test results show that the ductile-to-brittle transition temperature of the P91B steel is comparable to that of the P91 steel but lower than that of boron-free weld metal. This paper discusses the influence of electron beam welding parameters on themicrostructure and mechanical properties of boron-added modified 9Cr-lMo steel welds.