Takumi Honma scite author profile

Takumi Honma

4Publications

1Citation Statement Received

34Citation Statements Given

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Shonan Institute of Technology

Publications

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Change of nonlinear acoustics in ASME grade 122 steel welded joint during creep

Ohtani¹,

Honma²,

Ishii³

et al. 2016

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Pipe inspection system by guide wave using a long distance waveguide AIP Conference Proceedings 1706, 140002 (2016) Abstract. In this paper, we described the changes of two nonlinear acoustic characterizations; resonant frequency shift and three-wave interaction, with electromagnetic acoustic resonance (EMAR) throughout the creep life in the welded joints of ASME Grade 122, one of high Cr ferritic heat resisting steels. EMAR was a combination of the resonant acoustic technique with a non-contact electromagnetic acoustic transducer (EMAT). These nonlinear acoustic parameters decreased from the start to 50% of creep life. After slightly increased, they rapidly increased from 80% of creep life to rupture. We interpreted these phenomena in terms of dislocation recovery, recrystallization, and restructuring related to the initiation and growth of creep void, with support from the SEM and TEM observation.

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Evolutions of Nonlinear Acoustics and Microstructural Change during Creep in Gr. 122 Steel Welded Joint

Ohtani

Honma

Ishii

et al. 2015

J. Soc. Mat. Sci., Japan

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ASME Grade 122 (11Cr-0.4Mo-2W-CuVNb) has been used for boiler components in ultra-supercritical (USC) thermal power plants at approximately 873 K. The creep life of the welded joints in this steel decreased as a result of Type IV creep damage that forms in the heat-affected zone (HAZ) under long-term use at high temperatures. In this study, we investigated the relationship between microstructural change and the evolutions of two nonlinear acoustic characterizations with electromagnetic acoustic resonance (EMAR) throughout the creep life in the welded joints and the correlation between two nonlinear acoustic characterizations. One was resonant frequency shift and other three-wave mixing. EMAR was a combination of the resonant acoustic technique with a non-contact electromagnetic acoustic transducer (EMAT). We used bulk wave EMAT, which transmits and receives shear wave propagating in thickness direction of a plate specimen. Creep tests of thick welded joints specimens were interrupted at several time steps at 873 K, and 90 MPa. Two nonlinear acoustic parameters and ultrasonic attenuation decreased from the start to 50% of creep life. After slightly increased, they rapidly increased from 80% of creep life to rupture. We interpreted these phenomena in terms of dislocation recovery, recrystallization, and restructuring related to the initiation and growth of creep void, with support from the SEM and TEM observation. This noncontact resonance-EMAT measurement can monitor the evolution of nonlinear acoustics throughout the creep life and has a potential to assess the Type IV creep damage advance and to predict the creep life of high Cr ferritic heat resisting steels.

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J0420205 Non-linear Ultrasonic Characterizations in Aluminum Alloy during Fatigue

Ishii

Ishikawa

Nakai

et al. 2015

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J0420201 Creep-induced Nonlinear Ultrasonic Change in ASME Gr. 91 Heat Resistant Steel Welded Joint

Honma

Yokoyama

Ishii

et al. 2015

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Takumi Honma

Change of nonlinear acoustics in ASME grade 122 steel welded joint during creep

Evolutions of Nonlinear Acoustics and Microstructural Change during Creep in Gr. 122 Steel Welded Joint

J0420205 Non-linear Ultrasonic Characterizations in Aluminum Alloy during Fatigue

J0420201 Creep-induced Nonlinear Ultrasonic Change in ASME Gr. 91 Heat Resistant Steel Welded Joint

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