Akira Urano scite author profile

Polycarbosilane-derived SiC fibers (CG Nicalon, Hi-Nicalon, and Hi-Nicalon type S) were exposed for 1-100 h at 1273-1673 K in air. Oxide layer growth and changes in tensile strength for these fibers were examined after exposure. The three types of SiC fibers decreased in strength as the oxide layer thickness increased. Fracture origins were located near the oxide layerfiber interface. The Hi-Nicalon type S showed better oxidation resistance than the other polycarbosilane-derived SiC fibers after exposure in air at 1673 K for 10 h. This result was attributed to the nature of the silicon oxide layer on the surface of the SiC fibers.

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Microstructure and oxidative degradation behavior of silicon carbide fiber Hi-Nicalon type S

Takeda¹,

Urano²,

Sakamoto³

et al. 1998

Journal of Nuclear Materials

106

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Thermal environment simulation for three dimensional replacement of urban activity

Urano

Ichinose

Hanaki

1999

Journal of Wind Engineering and Industrial Aerodynamics

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Minimum detection limit and spatial resolution of thin-sample field-emission electron probe microanalysis

2013

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A Security Evaluation of Industrial Radio Remote Controllers

Maggi

Balduzzi

Andersson

et al. 2019

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Akira Urano

Microstructure and Oxidation Behavior of Silicon Carbide Fibers Derived from Polycarbosilane

Microstructure and oxidative degradation behavior of silicon carbide fiber Hi-Nicalon type S

Thermal environment simulation for three dimensional replacement of urban activity

Minimum detection limit and spatial resolution of thin-sample field-emission electron probe microanalysis

A Security Evaluation of Industrial Radio Remote Controllers

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