19 research outputs found

    Experimental and numerical investigation on bearing behavior of hybrid thin/thick-ply composite laminates

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    Experimental and numerical studies were carried out to characterize hybrid thin- and thick-ply composite laminates and assess modelling capabilities. Five different composite laminates were manufactured using a single material system with varying proportions of thin plies (0%, 50%, and 100% thin-ply). Bearing tests were performed and the results from the tests were investigated. The results showed that performance, in terms of bearing strength at onset of damage and ultimate bearing stress, increased proportionally with the increasing amount of thin plies within the laminate. Microscopic examination of the failure modes for all laminates was performed at the center of the hole to determine the dominant failure mode. The numerical investigation uses a highly detailed mesoscale model previously validated for crash simulations but never used successfully to bearing damage areas. The results showed a good correlation regarding both the load response and the morphology of damage.

    Bremsstrahlung Isochromats of Cr90Al10 Alloy

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    Assessment of azole resistance in clinical settings by passive sampling

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    Project EXPOsE, nº 23222 (02/SAICT/2016)The exposure to the fungal burden is an increased risk factor for the development of respiratory symptoms and fungal diseases. The emergence worldwide of azole resistance in fungal species is a major concern for public health. Clinical settings must provide a clean and safe environment to protect patients and staff from fungal diseases. The aim of this study was to assess the fungal burden and prevalence of azole resistance in clinical settings in Portugal using passive sampling methods. Ten Primary Health Care Centers were evaluated through passive sampling, including electrostatic dust cloths, heating ventilation, and air conditioning filters, and settled dust. All samples were plated onto Sabouraud dextrose agar media and screened for azole resistance using agar media supplemented with itraconazole, voriconazole and posaconazole through incubation at 27 °C, for 5 days. Fungal species were identified based on macro and micromorphology. Fungal load ranged from 348 to 424628 CFU·m−2 in EDC, 0 to 56500 CFU·m−2 in HVAC filter, and 2 to 514 CFU·g−1 in settled dust. EDC samples presented the highest fungal loads and wider diversity. Azole resistance was observed in all Primary Health Care Centers. Multi-azole resistance (fungal growth in two or more azoles) was observed in 90% units for Penicillium sp., C. sitophila, and Cladosporium sp. None of the samples containing Aspergillus sp. colonies presented resistance to the tested azoles. The knowledge of the fungal burden and prevalence of resistance to azole-based antifungal drugs in clinical environments will allow a better risk characterization regarding fungal burden.info:eu-repo/semantics/publishedVersio
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