1,868 research outputs found
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On-line shear and extensional rheometry of polymer melts in the extrusion process.
A novel on-line capillary rheometer (OLR) was used to examine the shear and
extensional characteristics of polyolefin melts during twin screw extrusion (TSE).
Comparisons with off-line rheometry were made using a twin-bore capillary rheometer
and a modular in-line slit die rheometer (ILR) provided in-line rheometry comparisons.
Both capillary rheometers were controlled via PCs running dedicated software, and the
extrusion line and ELR were fully instrumented allowing real-time process monitoring
to be carried out by IBM compatible PCs via data acquisition hardware and software.
The prototype OLR was developed by the re-design of several key features including
an instrumented transfer section and capillary die block which facilitated the use of
various die geometries.
Shear and extensional on-line rheometry of three polyethylenes (linear and branched),
and four molecular weight grades of polypropylene were examined, and a direct
comparison with off-line capillary rheometry showed a good correlation. The effect of
a high loading of filler on two of the polyethylenes was investigated. In-line shear
stress and entry pressure measurements showed a reasonable correlation with on-line
rheometry.
A study of entry flows in the OLR using capillary dies approaching orifice showed
non-linearities occurred at very low capillary length to diameter(L:D) ratios, and this
was repeatable using off-line rheometry. Predicted zero length entry pressures (Po)
were used to estimate apparent extensional viscosity using a number of standard
models. Melt instability and capillary wall slip were also investigated using on-line
rheometry.
Melt pressure and temperature in the twin screw extruder and OLR were monitored at
various process conditions to examine the ability of the OLR to condition melt during
testing, and the effect of OLR testing on extrusion conditions. Pressure variation in
the extruder, OLR and off-line rheometer were compared in order to quantify process
noise. The effect of OLR testing on melt rheology and polymer molecular weight were
examined using off-line rheometry and gel permeation chromatography(GPC).Rosand Precision Ltd. and Raychem Ltd
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Synergistic toughening and compatibilisation effect of Poly(butylene succinate) in PLA/poly-caprolactone blends
YesBinary and ternary blends of a polylactic acid matrix with polycaprolactone (PCL) and polybutylene succinate (PBS) were produced by twin screw extrusion, containing up to 30 wt% loading. Mechanical, thermal and rheological characterisation techniques were used to quantify properties of the different blend formulations and miscibility was investigated using scanning electron microscopy. PCL is known to act as an impact modifier in PLA but to cause a corresponding reduction in strength. Results showed that addition of both PBS and PCL seperatly caused a reduction in melt viscosity, elastic modulus and tensile strength, but an increase in impact strength and strain at break. Analysis of morphology suggested that immiscibility was evident, particularly at higher PCL and PBS loadings. Results indicated that incorporation of a small loading of PBS had a synergistic effect on the PLA-PCL blend properties. Miscibility was improved and enhanced mechanical properties were observed for a ternary blend containing 5 wt% of both PBS and PCL compared to blends containing 10% of each polymer alone.Financial support of Floreon- Transforming Packaging Ltd through the PhD sponsorship and materials provision
ParticipACTION: A mass media campaign targeting parents of inactive children; knowledge, saliency, and trialing behaviours
<p>Abstract</p> <p>Background</p> <p>In late 2007, Canada's ParticipACTION national physical activity mass media campaign was re-launched, with an initial campaign targeting parents of elementary school-aged children. The campaign informed them about the risks of physical inactivity for children and youth. The purpose of this study was to assess campaign awareness and understanding following the campaign, and to identify whether exposure to this campaign was likely associated with behaviour change.</p> <p>Methods</p> <p>A convenience sample of 1,500 adults was recruited though an existing panel (n = 60,000) of Canadian adults to participate in online surveys. Initial campaign exposure included "prompted" and "unprompted" recall of specific physical activity messages from the 2007 ParticipACTION campaign, knowledge of the benefits of PA, saliency, and initial trial behaviours to help their children become more active.</p> <p>Results</p> <p>One quarter of respondents showed unprompted recall of specific message content from the ParticipACTION campaign, and prompted recall was 57%. Message recall and understanding was associated with knowledge about physical activity, and that in turn was related to high saliency. Saliency was associated with each of the physical activity-related trial behaviours asked.</p> <p>Conclusion</p> <p>Campaign awareness and understanding was high following this ParticipACTION campaign, and was associated with intermediate campaign outcomes, including saliency and trial behaviours. This is relevant to campaign evaluations, as it suggests that an initial focus on influencing awareness and understanding is likely to lead to more substantial change in campaign endpoints.</p
A novel electroanalytical approach to the measurement of B vitamins in food supplements based on screen-printed carbon sensors
Ā© 2017 Elsevier B.V. This paper describes the development of a novel electrochemical assay for the measurement of water-soluble vitamins in food and pharmaceutical products. The optimum conditions for the determination of vitamin B1 (thiamine), B2 (riboflavin) and B6 (pyridoxine) in phosphate buffer were established using cyclic voltammetry in conjunction with screen printed carbon electrodes (SPCEs). The optimum current response for all three vitamins was achieved in 0.1 M phosphate buffer pH 11 using an initial potential of ā1.0 V. Using square wave voltammetry, the linear ranges for thiamine, riboflavin, and pyridoxine were found to be: 15ā110 Āµg/ml, 0.1ā20 Āµg/ml, and 2ā80 Āµg/ml respectively. The application of the method to a commercial food product yielded a recovery of 95.78% for riboflavin, with a coefficient of variation (CV) of 3.38% (n = 5). The method was also applied to a multi-vitamin supplement for the simultaneous determination of thiamine, riboflavin and pyridoxine. In both cases only simple dilution with buffer followed by centrifugation was required prior to analysis. The resulting square wave voltammetric signals were completely resolved with Ep values of ā0.7 V, +0.2 V, and +0.6 V respectively. The recoveries determined for the vitamin B complex in a commercial supplement product were found to be 110%, 114%, and 112% respectively (CV = 7.14%, 6.28%. 5.66% respectively, n = 5)
An electrocatalytic screen-printed amperometric sensor for the selective measurement of thiamine (Vitamin B1) in food supplements
An electrocatalytic screen-printed sensor has been investigated for the measurement of the biologically important biomolecule vitamin B1 (thiamine) for the first time in food supplements. Under basic conditions, the vitamin was converted to its electrochemically active thiolate anion species. It was shown that an electrocatalytic oxidation reaction occurred with the screen-printed carbon electrode containing the mediator cobalt phthalocyanine (CoPC-SPCE). This had the advantage of producing an analytical response current at an operating potential of 0 V vs. Ag/AgCl compared to +0.34 V obtained with plain SPCEs. This resulted in improved selectivity and limit of detection. Detailed studies on the underlying mechanism occurring with the sensor are reported in this paper. A linear response was obtained between 0.1 and 20 Āµg mL ā1 , which was suitable for the quantification of the vitamin in two commercial products containing vitamin B1. The mean recovery for a multivitamin tablet with a declared content of 5 mg was 101% (coefficient of variation (CV) of 9.6%). A multivitamin drink, which had a much lower concentration of vitamin B1 (0.22 mg/100 mL), gave a mean recovery of 93.3% (CV 7.2%). These results indicate that our sensor holds promise for quality control of food supplements and other food types
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Comparative analysis of granule properties in continuous granulators
YesSeveral contributions in answering granulation challenges including the use of computer simulation and well thought out experimental analyses are being researched. Using a twin screw granulator (TSG) by design of experiments (DoE), comparisons on 1) equipment similarities i.e., continuous and 2) shear forces, are made to previous literature on continuous equipment and a Cyclomix. This study proposes that equipment specific DoE, better explains the contribution of parameters than investigating an identified parameter from the experimental findings from a specific equipment. Granule strength and structure are presented together with the contribution of process parameters, speed, temperature, and binder content. Seeded structures are present in all but the Extrudomix. Longer residence times within the Cyclomix facilitates seeded structures. Granule crushing strengths are higher in TSG than all other continuous equipment. Optimum condition for the formation of stronger granules with least variation is around 65.4āÆĀ°C.The authors would like to acknowledge the support from the CCIP grant (Collaboration, Capacity and IP Development) fund from the University of Bradford for ordering cunsumables and equipment
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Effect of mixing elements on granule formation in hot melt twin screw granulation
YesTwin screw granulation (TSG) has been applied to wet granulation, although its application in melt granulation has been more limited. This work explores potential advantages of hot melt granulation using twin screw extrusion. Four main operating and formulation parameters were investigated: screw speed, number of mixing elements, temperature, and binder percentage. Combinations of these factors were then studied to determine their impact on the quantity and characteristics of granules within the desired size range of 125 - 1000 Āµm. A screening design of experiments (DOE) study was used with each factor set at three levels, to investigate individual factor effects and interactions. Two types of mixing elements were studied: kneading block (KB) and chaotic elements. The type and number of mixing elements were found to be paramount in contributing to the quantity and characteristics of granules formed. Results obtained agreed with previous findings in literature on the influence of different screw elements on the characteristics of granules formed by twin screw granulation. Additionally, the study revealed the unique impact which different mixer elements have on both granule production and characteristics. Depending on the specific need or use of granules in required applications, the granulation process can be effectively designed to meet the end product quality and outcome
Learning to run a power network with trust
Artificial agents are promising for realtime power system operations,
particularly, to compute remedial actions for congestion management. Currently,
these agents are limited to only autonomously run by themselves. However,
autonomous agents will not be deployed any time soon. Operators will still be
in charge of taking action in the future. Aiming at designing an assistant for
operators, we here consider humans in the loop and propose an original
formulation for this problem. We first advance an agent with the ability to
send to the operator alarms ahead of time when the proposed actions are of low
confidence. We further model the operator's available attention as a budget
that decreases when alarms are sent. We present the design and results of our
competition "Learning to run a power network with trust" in which we benchmark
the ability of submitted agents to send relevant alarms while operating the
network to their best
Effect of screw configuration on the dispersion and properties of polypropylene/multiwalled carbon nanotube composite
YesThe effect of extruder screw configuration on the dispersion and properties of compatibilised polypropylene (PP)/multiāwalled carbon nanotube (MCNT) composite is investigated. Three principle screw designs with mainly conveying elements (medium intensity), kneading elements (high intensity), and folding elements (chaotic mixing) were used to prepare polypropylene nanocomposites containing 4wt% of maleic anhydride grafted polypropylene (MAHāgāPP) compatibilizer and different nanotube loadings. The effect of each screw configuration and nanotube loading on the tensile, rheological, and electrical properties of the nanocomposites were studied. The screw configurations were found to have a strong influence on the electrical resistivity while only slightly affected the tensile properties of the nanocomposites. Scanning electron microscopy examinations showed that the use of screw configuration consisting of kneading elements promoted the dispersion of nanotubes and resulted in a low electrical percolation at 2wt% of MCNT
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Pluronic F127 thermosensitive injectable smart hydrogels for controlled drug delivery system development
YesUnderstanding structure-property relationships is critical for the development of new drug delivery systems. This study investigates the properties of Pluronic smart hydrogel formulations for future use as injectable controlled drug carriers. The smart hydrogels promise to enhance patient compliance, decrease side effects and reduce dose and frequency. Pharmaceutically, these systems are attractive due to their unique sol-gel phase transition in the body, biocompatibility, safety and injectability as solutions before transforming into gel matrices at body temperature. We quantify the structural changes of F127 systems under controlled temperature after flow, as experienced during real bodily injection. Empirical formulae combining the coupled thermal and shear dependency are produced to aid future application of these systems. Induced structural transitions measured in-situ by small angle x-ray and neutron scattering reveal mixed oriented structures that can be exploited to tailor the drug release profile
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