Laurent Chaunier scite author profile

Three compression systems were used to study the mechanical behavior of cereal flakes of 13 commercial cornflakes brands that were also evaluated by sensory analysis. A Kramer cell, on an Instron testing machine, allowed to simultaneously record force in the range 0–5 kN and sound in the frequency domain 0–22 kHz during the crushing of 20 mm thick beds of cereal flakes tested in bulk. It was shown to be the most reliable and efficient method for discrimination. Acoustic emission has been shown to correlate with crispness perception. Uncrispy‐perceived products emitted signals with lower average amplitude and higher peaks, at low frequencies – less than 3 kHz – and opposed a high mechanical resistance to compression. On the opposite, the crispiest flakes emitted sounds with larger average amplitude, fewer high peaks and uniformly distributed in the frequency domain with a moderated mechanical resistance. Links between texture perception and structure were improved and results validated the developed system, which may be used for quality evaluation of particle solid foam foods.

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Relationships between texture, mechanical properties and structure of cornflakes

Chaunier

Valle

Lourdin

2007

Food Research International

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Physical assessment of bread destructuration during chewing

Bleis

Chaunier

Valle

et al. 2013

Food Research International

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Kinetics of bubble growth in wheat flour dough during proofing studied by computed X-ray micro-tomography

Turbin-Orger

Boller

Chaunier

et al. 2012

Journal of Cereal Science

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Modeling of starchy melts expansion by extrusion

Kristiawan

Chaunier

Valle

et al. 2016

Trends in Food Science & Technology

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