Professional judgement and decision-making in social work

This is an Accepted Manuscript of an article published by Taylor & Francis Group in Journal of Social Work Practice on 3/04/2018, available online: http://www.tandfonline.com/10.1080/02650533.2018.1462780 Editorial for a special issue on Professional Judgement and Decision Making in Social Wor

Analysis of Escherichia coli K1 virulence genes by transposon-directed sequencing

Transposon-directed insertion site sequencing (TraDIS) combines random transposon mutagenesis and massively parallel sequencing to shed light on bacterial gene function on a genome-wide scale and in a high-throughput manner. The technique has proven to be successful in the determination of the fitness contribution of every gene under specific conditions both in vitro and in vivo. In this contribution, we describe the procedure used for the identification of Escherichia coli K1 genes essential for in vitro growth, survival in pooled human serum and gastrointestinal colonisation in a rodent model of neonatal invasive infection. TraDIS has broad application for systems-level analysis of a wide range of pathogenic, commensular and saprophytic bacteria

In-situ thermally-reduced graphene oxide/epoxy composites: thermal and mechanical properties

Graphene has excellent mechanical, thermal, optical and electrical properties and this has made it a prime target for use as a filler material in the development of multifunctional polymeric composites. However, several challenges need to be overcome in order to take full advantage of the aforementioned properties of graphene. These include achieving good dispersion and interfacial properties between the graphene filler and the polymeric matrix. In the present work we report the thermal and mechanical properties of reduced graphene oxide/epoxy composites prepared via a facile, scalable and commercially-viable method. Electron micrographs of the composites demonstrate that the reduced graphene oxide (rGO) is well-dispersed throughout the composite. Although no improvements in glass transition temperature, tensile strength, and thermal stability in air of the composites were observed, good improvements in thermal conductivity (about 36%), tensile and storage moduli (more than 13%) were recorded with the addition of 2 wt% of rGO

Engaging professional societies in developing work-ready graduates

Since the 1990s universities have faced increasing pressure to better prepare graduates for the workforce. Employers, professional societies and the government are increasingly calling for graduates who are work-ready. In this paper we identify the drivers of the work-ready initiative and present definitions and components of our identified professional work-ready attributes and skills. University graduates are expected to have more than just the discipline-based knowledge and skills that universities traditionally teach. In exploring the tensions, challenges and opportunities that this changing educational environment presents, this paper investigates the key graduate attributes, skills and criteria for successful careers in the professional workplace. Working in consultation with professional societies, our project aims to identify and contextualise work-ready skills to each of the targeted disciplines Information Technology and Business to maximise student relevance. We aim to rejuvenate the current curriculum to improve the development of students work-ready skills by integrating into the curriculum new work-ready subjects and learning activities within existing subjects. Skills identified by professional societies are critical for contemporary university graduates, and are being used to develop effective teaching and learning strategies, tutorials, activities and case-studies

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The mechanical properties and toughening mechanisms of an epoxy polymer modified with polysiloxane-based core-shell particles

AbstractAn epoxy resin, cured using an anhydride hardener, has been modified by the addition of pre-formed polysiloxane core-shell rubber (S-CSR) particles with a mean diameter of 0.18 μm. The glass transition temperature, Tg, of the cured unmodified epoxy polymer was 148 °C, and this was unchanged after the addition of the S-CSR particles. The polysiloxane rubber particles had a Tg of about −100 °C. Atomic force microscopy showed that the S-CSR particles were well-dispersed in the epoxy polymer. The addition of the S-CSR particles reduced the Young's modulus and tensile strength of the epoxy polymer, but at 20 °C the fracture energy, GIc, increased from 117 J/m2 for the unmodified epoxy to 947 J/m2 when 20 wt% of the S-CSR particles were incorporated. Fracture tests were also performed at −55 °C, −80 °C, and −109 °C. The results showed that the measured fracture energy of the S-CSR-modified epoxy polymers decreased significantly below room temperature. For example, at −109 °C, a fracture energy of 481 J/m2 was measured using 20 wt% of S-CSR particles. Nevertheless, this value of toughness still represented a major increase compared with the unmodified epoxy polymer, which possessed a value of GIc of 174 J/m2 at this very low test temperature. Thus, a clear fact that emerged was that the addition to the epoxy polymer of the S-CSR particles may indeed lead to significant toughening of the epoxy, even at temperatures as low as about −100 °C. The toughening mechanisms induced by the S-CSR particles were identified as (a) localised plastic shear-band yielding around the particles and (b) cavitation of the particles followed by plastic void growth of the epoxy polymer. These mechanisms were modelled using the Hsieh et al. approach [33,49] and the values of GIc of the S-CSR-modified epoxy polymers at the different test temperatures were calculated. Excellent agreement was found between the predictions and the experimentally measured fracture energies. Further, the experimental and modelling results of the present study indicated that the extent of plastic void growth was suppressed at low temperatures for the S-CSR-modified epoxy polymers, but that the localised shear-band yielding mechanism was relatively insensitive to the test temperature