This article examines 110 reported incidents from an online survey of 26 women from each of the eight universities in New Zealand. They responded to questions asking them to describe times when work and non-work situations have helped or hindered their advancement in university leadership roles. Five key themes, incorporating a range of factors, emerged as making a difference to advancement as leaders. These themes are: work relationships; university environment; invisible rules; proactivity; and personal circumstances. This research is part of the L-SHIP (LeadershipSupporting Higher Intent & Practice) project and has two main aims. First, to identify factors in universities that help and hinder women's advancement as leaders, as reported by women; second, to provide useful evidence to underpin the development of programmes supporting women's advancement in university leadership roles. This research is a first step in the development of the L-SHIP Toolkit for good practice in leadership development in higher education.
As part of a large nationwide case-control study covering a region with 78% of all births in New Zealand during 1987-90, the clothing and bedding of infants dying of sudden infant death syndrome (SIDS) and that of an appropriate control group were recorded. Cases consisted of 81% (n = 393) of all cases of SIDS in the study area and 88.4% (n = 1592) of 1800 control infants randomly selected from the hospital births and who completed a home interview. Use of a wool 'waterproof' underblanket was associated with a significantly reduced risk of SIDS (adjusted OR 0.44; 95% CI: 0.26-0.73) while sheepskin use was not. Firm tucking was identified as contributing to a reduced risk of SIDS even after adjusting for potentially confounding variables (adjusted OR 0.63, 95% CI: 0.46-0.86). Sixty case infants (15.6% of cases) were found dead with the head covered but there were no equivalent data for controls. Having been found previously completely covered by bedding was equally common in cases and controls (28.8% cases and 30.6% of control infants). Other differences of bedding and clothing between cases and controls were small; mattress characteristics were not studied. The exact methods in which babies are cared for are important and this study suggests that infants are at lower risk of SIDS when firmly tucked in and when sleeping on a 'waterproof' wool underblanket.
The objective of this work was to develop a pre-treatment (cleaning) procedure for a wide range of apparel fabrics and to determine whether differences observed in the properties of fabrics which had and had not been pre-treated were significant. Properties relevant to the manufacture and/or performance of apparel included mass per unit area, thickness, bending length, flex-ural rigidity, drape coefficient, air permeability, water vapor permeability, liquid absorptive capacity, drying time, ‘dry’ thermal resistance, ultra-violet transmission. Results for the same property on the same fabric measured when the fabrics had and had not been pre-treated generally differed significantly, confirming the importance of pre-treatment prior to measuring these properties, particularly when claiming in-use attributes of fabrics. A procedure for pre-treatment is recommended: six consecutive cleaning cycles following procedure 8A of British Standard EN ISO 6330: 2001 (i.e. not dried between cycles), and dried flat following procedure C of this standard.
Clothing is worn in single- and multiple-layer arrangements and during use subjected to conditions such as extension and wetting. This study investigated how selected variables affected transmission of ultraviolet radiation (UVR) through fabrics and whether these variables interacted to modify transmission. Using a spectrophotometer the effect of i) fabric type (two knitted, two woven), color (black and white), wetness (dry, damp, wet), and extension (relaxed, extended (10 × 10%, 10 × 20%)), and ii) fabric type and layering (1, 2, 3 layers) of white fabrics, on UVR (290—400 nm), UVA (315—400 nm), UVB (290—315 nm), and ultraviolet protection factor (UPF) rating was investigated. Differences among variables were identified using univariate and repeated measures ANOVA, and interactions among variables identified and described. Selecting dark colors, limiting extension and layering fabric were shown to be effective ways of increasing UV protection and UPF by decreasing transmittance. However, the effect of color, extension and layering varied among fabric types and modified UVA and UVB transmittance differently.
The effect of fabric type, color, fit and wetness on transmission of solar erythemal ultraviolet radiation through garments was investigated using laboratory testing and during simulated wear using a multivariate experimental design. The effect of fabric type, color, and wetness on UVB transmission (280–320 nm) through fabrics was determined under laboratory conditions using a spectrophotometer. Garments were also evaluated under conditions of simulated use in Queensland, Australia using polysulphone dosimeters. Dosimeters, placed against the ‘skin’ at selected sites on the torso and on the adjacent outer-surface of the covering garment, were used to measure solar UVB. During simulated wear the fabric type, fit and color were the main variables affecting UVB transmission through the garments. To optimize protection, dark fabrics with good cover should be constructed into garments with positive design ease, and be selected and worn as loosely-fitting styles that maximize the surface area covered
The purpose of this work was to develop a model for estimating "dry" and "wet" thermal resistance of bedding during use. The model takes into account proportions of the body covered by different bedding arrangements, and the effects of an infants sleep position and method of tucking on thickness, thermal resistance and heat loss. Predictions of thermal resistance using various published formulae are compared with those from this study.
This study aimed to determine the relative effects of fiber type (fine wool, mid-micron wool, acrylic), yarn type (high-twist, low-twist, single), and fabric structure (single jersey, half-terry, terry) on thermal resistance, water vapor resistance, thermal conductance, water vapor permeability, liquid absorption capacity, and regain of sock fabrics. Fabric structure had the greatest effect on thermal resistance, water vapor resistance, water vapor permeability, liquid absorption capacity, and thermal conductance. Terry fabrics were the most thermal and water vapor resistant, most absorbent, and most conductive. Results were consistent with current understanding of the effect of fabric thickness on thermal and moisture transfer properties when measured under static conditions: However, the effects of yarn type and/or fabric structure of sock fabrics have not previously been explained.
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