Alexandrine Huot scite author profile

To better understand the effect of mechanical stress during the spinning of silk, the protein orientation and conformation of Bombyx mori regenerated silk fibroin (RSF) films have been studied as a function of deformation in a static mode or in real time by tensile-Raman experiments and polarization modulation infrared linear dichroism (PM-IRLD), respectively. The data show that either for step-by-step or continuous stretching, elongation induces the progressive formation of β-sheets that align along the drawing axis, in particular above a draw ratio of ~2. The formation of β-sheets begins before their alignment during a continuous drawing. Unordered chains were, however, never found to be oriented, which explains the very low level of orientation of the amorphous phase of the natural fiber. Stress-perturbed unordered chains readily convert into β-sheets, the strain-induced transformation following a two-state process. The final level of orientation and β-sheet content are lower than those found in the native fiber, indicating that various parameters have to be optimized in order to implement a spinning process as efficient as the natural one. Finally, during the stress relaxation period in a step-by-step drawing, there is essentially no change of the content and orientation of the β-sheets, suggesting that only unordered structures tend to reorganize.

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Thermal Infrared Hyperspectral Imaging for Mineralogy Mapping of a Mine Face

Boubanga-Tombet¹,

Huot²,

Vitins

et al. 2018

Remote Sensing

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Remote sensing systems are largely used in geology for regional mapping of mineralogy and lithology mainly from airborne or spaceborne platforms. Earth observers such as Landsat, ASTER or SPOT are equipped with multispectral sensors, but suffer from relatively poor spectral resolution. By comparison, the existing airborne and spaceborne hyperspectral systems are capable of acquiring imagery from relatively narrow spectral bands, beneficial for detailed analysis of geological remote sensing data. However, for vertical exposures, those platforms are inadequate options since their poor spatial resolutions (metres to tens of metres) and NADIR viewing perspective are unsuitable for detailed field studies. Here, we have demonstrated that field-based approaches that incorporate thermal infrared hyperspectral technology with about a 40-nm bandwidth spectral resolution and tens of centimetres of spatial resolution allow for efficient mapping of the mineralogy and lithology of vertical cliff sections. We used the Telops lightweight and compact passive thermal infrared hyperspectral research instrument for field measurements in the Jura Cement carbonate quarry, Switzerland. The obtained hyperspectral data were analysed using temperature emissivity separation algorithms to isolate the different contributions of self-emission and reflection associated with different carbonate minerals. The mineralogical maps derived from measurements were found to be consistent with the expected carbonate results of the quarry mineralogy. Our proposed approach highlights the benefits of this type of field-based lightweight hyperspectral instruments for routine field applications such as in mining, engineering, forestry or archaeology.

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Texture of Shear Bands in Al-Mg 3% (AA5182) Measured by BKD

Huot¹,

Schwarzer²,

Driver

1998

MSF

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Calibration method for small animal indirect calorimeters

MacKay

Loiseau

Poivre

et al. 1991

American Journal of Physiology-Endocrinology and Metabolism

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A simple mini-butane burner or "artificial rat," for calibration of small animal indirect calorimeters (modified Benedict and Haldane systems), was developed. Substitution of this burner for a live animal at regular intervals in an experimental protocol provides a means by which whole system function can be verified without disturbing respirometer conditions. Heat production, degree of total combustion of butane, proportion of unburned butane, and the CO2 production (VCO2)-to-O2 consumption (VO2) ratio were determined in animal and burner experiments by direct measurement or were derived from mass equations. Burner security was also discussed. VCO2/VO2 obtained in calibration experiments using the Benedict system remained constant and was not significantly different from the expected value for total combustion of butane. Observation of a stabilization phase in the Haldane burner experiments illustrated the utility of calibration over the duration of a normal animal experiment. This miniburner gave highly reproducible results and simulated the daily VO2, VCO2, and heat production of an adult rat.

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