C.J. Butler scite author profile

C.J. Butler

5Publications

23Citation Statements Received

28Citation Statements Given

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University of Nottingham

Publications

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Effect of Thermal Aging on the Transient Kinetics of Oxygen Storage and Release of Commercial Ce x Zr1−x O2-based Solids

Christou

Bradshaw²,

Butler³

et al. 2009

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The use of powerful analytical methodologies for the evaluation of the performance of commercial oxygen storage materials based on oxygen transient isothermal isotopic exchange experiments is illustrated in this study. Ce x Zr 1-x O 2 -based oxygen storage materials were investigated. The materials were characterized for their dynamic oxygen storage and release properties through the pulse injection technique allowing the measurement of the oxygen storage capacity (OSC), and for their surface and bulk oxygen mobility through transient isothermal 18 O isotopic exchange experiments. Very high OSC values were obtained after calcination in air at T calc. = 700 or 850°C. However, after thermal aging at 1000 or 1100°C of the as prepared samples, a significant deterioration of their OSC was observed. This fact was found to correlate with the significant increase in the activation energy of surface oxygen mobility. On the contrary, smaller increase in the activation energy of bulk oxygen diffusion with increasing T calc. was observed.

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An experimental study of phase transformations and a comparison with calculated phase equilibria in Ti–Al–Mn alloys

Butler

McCartney

1998

Acta Materialia

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SOLIDIFICATION MICROSTRUCTURES AND CALCULATED PHASE EQUILIBRIA IN THE Ti-Al-Mn SYSTEM

Butler¹,

McCartney²,

Small³

et al. 1997

Acta Materialia

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Phase transformations and phase equilibria in a Ti–37% Al–20% Mn alloy

Butler

McCartney

1999

Intermetallics

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Doped Zirconia with Acidity and High Thermal Stability, for Durable Diesel Catalysts

Verdier¹,

Crinière²,

Larcher³

et al. 2007

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C.J. Butler

Effect of Thermal Aging on the Transient Kinetics of Oxygen Storage and Release of Commercial Ce x Zr1−x O2-based Solids

An experimental study of phase transformations and a comparison with calculated phase equilibria in Ti–Al–Mn alloys

SOLIDIFICATION MICROSTRUCTURES AND CALCULATED PHASE EQUILIBRIA IN THE Ti-Al-Mn SYSTEM

Phase transformations and phase equilibria in a Ti–37% Al–20% Mn alloy

Doped Zirconia with Acidity and High Thermal Stability, for Durable Diesel Catalysts

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