K. Obara scite author profile

K. Obara

3Publications

6Citation Statements Received

49Citation Statements Given

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IHI Corporation (Japan)

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Environmental fatigue crack growth in titanium aluminides and hydrogen evolution behaviour

Minoshima

Obara

Minamino

et al. 2001

Fatigue Fract Eng Mat Struct

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The influence of environment on fatigue crack growth behaviour was investigated both in nearly lamellar and in duplex titanium aluminides, and the hydrogen evolution kinetics was analysed by thermal desorption spectroscopy. The tensile strength of the duplex material decreases in the order of the extent of the water molecule content in the environment: the strength in vacuum is the highest, and decreases in the order of laboratory air and finally in water. In the case of the lamellar material, the fatigue crack growth rate in dry air is higher in the R–C crack plane orientation than that in the L–C crack plane orientation. The crack growth rate becomes higher when the crack grows as the lamellae tear. However, in the case of the duplex material, the crack growth rate in the R–C crack plane orientation is smaller in the low ΔK (ΔKeff ) region. When cathodic charging is applied, the fatigue crack growth rate becomes higher than in dry air, particularly in the higher stress intensity factor range. The hydrogen evolution rate is increased by cathodic charging, with lower temperature peaks and higher ones. The peaks at lower temperatures are correlated with the decomposition of hydrides and de‐training of hydrogen from microstructural imperfections such as microvoids. As‐received materials also show an evolution peak at a higher temperature, and the evolution rate is almost independent of cathodic charging. In addition, the evolution rate at a high temperature (above 800 °C) is increased by cathodic charging. The hydrogen is considered to have an important role on fatigue crack growth acceleration.

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326 The effects of environment on fatigue crack propagation and thermal desorption spectroscopy in TiAl intermetallic compounds

Minoshima

Obara

Minamino

et al. 2001

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D204 Design and Construction of Ihi Tower-Type Boiler for New NO.1 Unit of Isogo Thermal Power Station

Ohishi

Iwasaki

Mochizuki

et al. 2003

ICOPE

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K. Obara

Environmental fatigue crack growth in titanium aluminides and hydrogen evolution behaviour

326 The effects of environment on fatigue crack propagation and thermal desorption spectroscopy in TiAl intermetallic compounds

D204 Design and Construction of Ihi Tower-Type Boiler for New NO.1 Unit of Isogo Thermal Power Station

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