Ian Sinclair scite author profile

observed consisted of a group of eleven breaks and a group of fourteen breaks. The large clusters were observed at the highest load, at sites with no prior breaks, indicating they occurred within a relatively narrow load range. No strong correlation was found between the location of matrix damage and fibre breaks. The data achieved has been made available online at www.materialsdatacentre.com/ for ongoing model development and validation.

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Small airways disease in mild and moderate chronic obstructive pulmonary disease: a cross-sectional study

Koo

Vasilescu

Booth

et al. 2018

The Lancet Respiratory Medicine

241

183

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Plant exudates may stabilize or weaken soil depending on species, origin and time

Naveed

Brown

Raffan

et al. 2017

European J Soil Science

173

170

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SummaryWe hypothesized that plant exudates could either gel or disperse soil depending on their chemical characteristics. Barley (Hordeum vulgare L. cv. Optic) and maize (Zea mays L. cv. Freya) root exudates were collected using an aerated hydroponic method and compared with chia (Salvia hispanica L.) seed exudate, a commonly used root exudate analogue. Sandy loam soil was passed through a 500‐μm mesh and treated with each exudate at a concentration of 4.6 mg exudate g−1 dry soil. Two sets of soil samples were prepared. One set of treated soil samples was maintained at 4°C to suppress microbial processes. To characterize the effect of decomposition, the second set of samples was incubated at 16°C for 2 weeks at −30 kPa matric potential. Gas chromatography–mass spectrometry (GC–MS) analysis of the exudates showed that barley had the largest organic acid content and chia the largest content of sugars (polysaccharide‐derived or free), and maize was in between barley and chia. Yield stress of amended soil samples was measured by an oscillatory strain sweep test with a cone plate rheometer. When microbial decomposition was suppressed at 4°C, yield stress increased 20‐fold for chia seed exudate and twofold for maize root exudate compared with the control, whereas for barley root exudate decreased to half. The yield stress after 2 weeks of incubation compared with soil with suppressed microbial decomposition increased by 85% for barley root exudate, but for chia and maize it decreased by 87 and 54%, respectively. Barley root exudation might therefore disperse soil and this could facilitate nutrient release. The maize root and chia seed exudates gelled soil, which could create a more stable soil structure around roots or seeds.Highlights Rheological measurements quantified physical behaviour of plant exudates and effect on soil stabilization.Barley root exudates dispersed soil, which could release nutrients and carbon.Maize root and chia seed exudates had a stabilizing effect on soil.Physical engineering of soil in contact with plant roots depends on the nature and origin of exudates.

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Synchrotron radiation computed tomography for experimental validation of a tensile strength model for unidirectional fibre-reinforced composites

Swolfs

Morton

Scott

et al. 2015

Composites Part A: Applied Science and Manufacturing

103

151

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The application of digital volume correlation (DVC) to study the microstructural behaviour of trabecular bone during compression

Gillard

Boardman

Mavrogordato

et al. 2014

Journal of the Mechanical Behavior of Biomedical Materials

133

141

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Ian Sinclair

In situ fibre fracture measurement in carbon–epoxy laminates using high resolution computed tomography

Small airways disease in mild and moderate chronic obstructive pulmonary disease: a cross-sectional study

Plant exudates may stabilize or weaken soil depending on species, origin and time

Synchrotron radiation computed tomography for experimental validation of a tensile strength model for unidirectional fibre-reinforced composites

The application of digital volume correlation (DVC) to study the microstructural behaviour of trabecular bone during compression

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