Barnaby Caven scite author profile

Barnaby Caven

5Publications

71Citation Statements Received

100Citation Statements Given

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129

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Universität Innsbruck

Publications

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An investigation into the possible antibacterial properties of wool fibers

Caven

Redl

Bechtold

2018

Textile Research Journal

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This study shows that using a combination of physical and chemical approaches, wool fiber can be systematically broken down to its constituent components. From this it was possible to investigate the antibacterial nature of wool and its two major subcomponents, the cuticle scales and cortical cells. Wool and its constituent components were subjected to two methods of antibacterial testing, with excess and limited amounts of liquid. From this it was shown that the presence of excess water has a significant impact on the antibacterial properties of the wool fiber and its components. Furthermore, the study shows that on treatment with thioglycolic acid, which cleaves disulfide bonds, the fibers exhibit antibacterial activity.

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Flexible Textile Strain Sensor Based on Copper-Coated Lyocell Type Cellulose Fabric

et al. 2019

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Integration of sensors in textile garments requires the development of flexible conductive structures. In this work, cellulose-based woven lyocell fabrics were coated with copper during an electroless step, produced at 0.0284 M copper sulfate pentahydrate, 0.079 M potassium hydrogen L-tartrate, and 0.94 M formaldehyde concentrations. High concentrations led to high homogeneous copper reaction rates and the heterogeneous copper deposition process was diffusion controlled. Thus, the rate of copper deposition did not increase on the cellulose surface. Conductivity of copper coatings was investigated by the resistance with a four probe technique during fabric deformation. In cyclic tensile tests, the resistance of coated fabric (19 × 1.5 cm2) decreased from 13.2–3.7 Ω at 2.2% elongation. In flex tests, the resistance increased from 5.2–6.6 Ω after 5000 bending cycles. After repeated wetting and drying cycles, the resistance increased by 2.6 × 105. The resistance raised from 11–23 Ω/square with increasing relative humidity from 20–80%, which is likely due to hygroscopic expansion of fibers. This work improves the understanding of conductive copper coating on textiles and shows their applicability in flexible strain sensors.

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A novel silver-containing absorbent wound dressing based on spacer fabric

et al. 2017

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Performance limitation and the role of core temperature when wearing light-weight workwear under moderate thermal conditions

Kofler

Burtscher

Heinrich

et al. 2015

Journal of Thermal Biology

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Effects of two different battings (sheep wool versus polyester microfiber) in an outdoor jacket on the heat and moisture management and comfort sensation in the cold

Kofler

Nussbichler

Veider

et al. 2015

Textile Research Journal

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Wool in outdoor clothing systems is stated to be a good temperature and humidity regulator giving the wearer a warm and dry feeling during physical activities in the cold. The objective was to compare two different battings (sheep wool ''tirolwool'' (TW) versus polyester microfiber (PMF)) in an outdoor jacket of a two-layer outdoor clothing system consisting of a shirt and jacket on the heat and moisture management and comfort sensation during a moderate mountain walking protocol which was followed by a cool-down phase in the cold (À5 C, 43% relative humidity). Due to its beneficial moisture management properties it was hypothesized that TW in the outermost layer would cause a higher skin and core temperature, reduce the after chill effect, increase moisture transfer, decrease moisture accumulation within the clothing system, and lead to more pleasant comfort sensations. Twelve sport students performed the simulated walking protocol (60 min, 7.7% inclination, 5 km/h) and cool-down phase (20 min) with TW and PMF in a climatic chamber. The use of TW compared to PMF was stronger moisture absorbent led to a dryer shirt (p ¼ 0.043) and lower humidity underneath the shirt and jacket (chest: p 0.05). Core temperature (p ¼ 0.017) and skin temperature drop (chest: p ¼ 0.003) were attenuated with TW after the physical activity. Therefore, the after chill effect was reduced with TW but moisture accumulated to a higher extent in the jacket (p ¼ 0.001), which might lead to a longer drying rate. Correlation analysis revealed that tested underwear blended with merino wool, elastane, and polyamide might feel less scratchy in the slightly damp state than in the dry state.

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Barnaby Caven

An investigation into the possible antibacterial properties of wool fibers

Flexible Textile Strain Sensor Based on Copper-Coated Lyocell Type Cellulose Fabric

A novel silver-containing absorbent wound dressing based on spacer fabric

Performance limitation and the role of core temperature when wearing light-weight workwear under moderate thermal conditions

Effects of two different battings (sheep wool versus polyester microfiber) in an outdoor jacket on the heat and moisture management and comfort sensation in the cold

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