1,299 research outputs found

    MultiRec: Effects of multiple extrusion in cast and blown film applications

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    The MultiRec project investigates the degradation of physicochemical and mechanical properties in linear low-density polyethylene granulate subjected to multiple reprocessing cycles without intermediate additivation. This reprocessed granulate is incorporated into stretch films for automatic wrapping. To ensure industry relevance, additional case studies benchmark commercially available virgin films and films with recycled content from MultiRec partners. Two virgin films and two films with 30% post-consumer recyclate (PCR), each 20–24 µm thick, were evaluated. Characterization includes a standard tensile test (ISO 527-3) and a stretch-specific test (ASTM D5459) to assess permanent deformation and stress retention at prestretch values of 200% (safe), 300% (challenging for films with PCR), and 400% (extreme). Transport simulations involve wrapping column-stacked pallets with these films, followed by horizontal shock tests, some preceded by vibrations or exposure to humid, hot conditions, and additional tilt tests at 26°. Video analysis tracks tilting during simulations, while layer displacement is measured before and after. Virgin films have slightly higher maximum stress than films with PCR, with averages of 46.6 ± 4.2 MPa and 45.1 ± 12.7 MPa for virgin films compared to 41.7 ± 1.9 MPa and 40.5 ± 3.1 MPa for films with PCR. No clear trend was observed for strain at break. Prestretch level significantly influences stress retention and permanent deformation, higher prestretch reduces stress retention and increases permanent deformation. Stress retention ranges from 73% at 200% prestretch to 65% at 400%, while permanent deformation ranges from 54% at 200% to 76% at 400%. These findings indicate that commercially available films with recycled content, likely reprocessed only once, have comparable tensile properties to virgin films. The presentation will include transport simulation results and preliminary findings on films with multi-reprocessed granulate compared to these commercial standards

    Caput mundi: Rome as Center in Roman Representation and Construction of Space

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    This is the author accepted manuscript. The final version is available from Peeters Publishers via the DOI in this record

    Effect of Nanoparticle Incorporation on Functional Properties and Migration of Ag/polyhydroxyalkanoate Nanocomposites

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    Silver-nanocomposites offer great potential as active packaging material due to their antimicrobial properties. However, limited understanding of silver nanoparticle (Ag NP) release mechanisms, especially from biodegradable nanocomposites, poses challenges in terms of human health and environmental risks, resulting in restrictive regulatory measures. This study aims to understand how the incorporation of Ag NPs affects dispersity, functional properties and Ag°/Ag+ migration from Ag/poly(3-hydroxybutyrate-co-3-hydroxyhexanoate (PHBHHx) nanocomposite films. Commercial spherical polyvinylpyrrolidone-coated Ag NPs of 40 nm were incorporated in PHBHHx (0.2-2 wt.%) via melt extrusion (Dry-mix method). Alternatively, a Masterblend method was applied by pre-dispersing the NPs via solvent casting, before extrusion. Nanocomposite films were obtained via subsequent hot-pressing for further characterization. Specific migration was assessed by full immersion tests, using Milli-Q water and food simulants A and B at 40 °C (EU Regulation 10/2011). The leachate was analysed over 10 days via Single Particle Inductively Coupled Plasma Mass Spectrometry to monitor NP size, particle number concentration and dissolved concentrations. The Dry-mix approach seems optimal in terms of time efficiency and NP dispersity. The latter is evidenced by colour, opacity, UV-VIS transmittance and scanning electron microscopy analyses. Interestingly, using both methods, the tensile properties, crystallinity and thermal stability do not change significantly when varying NP loading up to 2 wt.%. In addition, a 30 % reduction in oxygen permeability is achieved for the highest NP loading. Although increasing NP loading did result in an incremental release of Ag°/Ag+, the migration remained under the specific migration limit of 50 µg Ag/kg food for all food simulants, with the highest migration in the acidic food simulant B. So far, we conclude that the fabricated Ag/PHBHHx films show potential as safe, non-transparent active food packaging material with improved oxygen barrier properties

    Effect of Nanoparticle Incorporation on Functional Properties and Migration of Ag/polyhydroxyalkanoate Nanocomposites

    No full text
    Silver-nanocomposites offer great potential as active packaging material due to their antimicrobial properties. However, limited understanding of silver nanoparticle (Ag NP) release mechanisms, especially from biodegradable nanocomposites, poses challenges in terms of human health and environmental risks, resulting in restrictive regulatory measures. This study aims to understand how the incorporation of Ag NPs affects dispersity, functional properties and Ag°/Ag+ migration from Ag/poly(3-hydroxybutyrate-co-3-hydroxyhexanoate (PHBHHx) nanocomposite films. Commercial spherical polyvinylpyrrolidone-coated Ag NPs of 40 nm were incorporated in PHBHHx (0.2-2 wt.%) via melt extrusion (Dry-mix method). Alternatively, a Masterblend method was applied by pre-dispersing the NPs via solvent casting, before extrusion. Nanocomposite films were obtained via subsequent hot-pressing for further characterization. Specific migration was assessed by full immersion tests, using Milli-Q water and food simulants A and B at 40 °C (EU Regulation 10/2011). The leachate was analysed over 10 days via Single Particle Inductively Coupled Plasma Mass Spectrometry to monitor NP size, particle number concentration and dissolved concentrations. The Dry-mix approach seems optimal in terms of time efficiency and NP dispersity. The latter is evidenced by colour, opacity, UV-VIS transmittance and scanning electron microscopy analyses. Interestingly, using both methods, the tensile properties, crystallinity and thermal stability do not change significantly when varying NP loading up to 2 wt.%. In addition, a 30 % reduction in oxygen permeability is achieved for the highest NP loading. Although increasing NP loading did result in an incremental release of Ag°/Ag+, the migration remained under the specific migration limit of 50 µg Ag/kg food for all food simulants, with the highest migration in the acidic food simulant B. So far, we conclude that the fabricated Ag/PHBHHx films show potential as safe, non-transparent active food packaging material with improved oxygen barrier properties

    Descriptive study and evaluation of shrink hoods with recycled content for regulatory compliance

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    In preparation for the European Commission's Packaging and Packaging Waste Regulation (PPWR), mandating 35% recycled content in tertiary plastic transport packaging by 2030, distributors are already producing films with similar content. As part of the TETRA-CORNET MultiRec project (HBC.2023.0176), funded by VLAIO VLAIO and in collaboration with industry partners, this case study evaluates shrink hoods with 30% and 35% post-consumer recycled (PCR) content, designed to protect palletised loads of 1.3 tons of bricks. This study provides a framework for systematic assessment of these films, enabling their improvement in a later phase, aligning with regulatory requirements and ensuring transport performance, and identifying correlations between mechanical, thermal, and chemical properties as well as transport performance. Key mechanical properties, such as coefficient of friction (dynamic COF: 0.19–0.25), tensile stress, and thermal shrinkage, were analysed, revealing notable variability between films. Differential scanning calorimetry (DSC) and gel permeation chromatography (GPC) assessed thermal transitions (melting peaks: 118–124 °C) and molecular weights, while gas chromatography-mass spectrometry (GC-MS) identified additives. PCR granulates exhibited notable variability, including lower melt enthalpy (95-103 J/g) compared to the full films (>108 J/g), indicating reduced crystallinity. Granulate colour varied noticeably, with lighter ones having lower molecular weight (199.6 kg/mol) than darker ones (275.3 kg/mol). Transport simulations further highlighted performance differences between films, emphasizing the need for tighter control over variables such as PCR composition, compensatory measures in virgin fractions, and production parameters. In conclusion, this study highlights the variability in both PCR granulate and film properties, emphasizing the need for systematic and open research to address performance challenges and support the transition to circular materials while maintaining sufficient transport protection in demanding applications

    Can patients who have low-grade hip osteoarthritis expect the same outcome after total hip arthroplasty compared to those who have end-stage osteoarthritis? - A Matched Case-Control Study

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    Background Total hip arthroplasty (THA) is an effective procedure for patients with end-stage hip osteoarthritis (OA). In addition, when hip preservation surgery is no longer indicated due to the presence of early or mild arthritic changes, THA can also be considered. Whether these patients can expect the same outcome after THA as patients who have end-stage OA remains unclear. The goal of this study was to compare the clinical outcomes after THA of patients who have low-grade OA versus a matched cohort with end-stage OA. Methods This is a retrospective, single-center, multi-surgeon case-control study in a high-volume referral center. Based on a cohort of 2,189 primary anterior approach THAs (1,815 patients), 50 low-grade OA cases were matched 1:1 by age, sex, and Body Mass Index (BMI) to 50 controls who have end-stage OA. Patient-reported outcomes (PROMS) were Hip Disability and Osteoarthritis Outcome Scores (HOOS) and Short Form-36 (SF-36). Results No significant differences in preoperative PROMs between low-grade and end-stage OA patients were found, except for SF-36 pain (33.0 versus 41.0; P = 0.045). In both groups a significant improvement of all PROMs was found postoperatively. However, all HOOS scores were significantly lower in the low-grade OA group compared to the end-stage OA group. In the group with low-grade OA, a significantly lower percentage of patients achieved the minimum clinically important difference (MCID) and substantial clinical benefit (SCB) after THA compared to the group with end-stage OA. Conclusion Patients who have low-grade OA can expect substantial clinical improvement after THA. However, the improvement is lower compared to patients who have end-stage OA. A thorough understanding of the factors that may lead to inferior clinical outcomes is imperative to improving the indications for THA in individuals who have low-grade OA.This research did not receive any specific grants from funding agencies in the public, commercial, or not-for-profit sectors

    Commencer et se mettre à : une description axiologico-conceptuelle

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    2. B. Peeters, « Commencer and se mettre à : an axiologico-conceptual description » This paper examines in full detail all syntactic environments in which the Modern French aspectual verbs commencer and se mettre à are currently used. It also investigates the precise semantic differences between both verbs. Definitions are couched in semantic primitives. The author attempts to take a stand with respect to all observations made by others on these verbs over the last thirty years. Most examples are drawn from a corpus of weekly magazines and/or 20th century novels.Peeters Bert. Commencer et se mettre à : une description axiologico-conceptuelle. In: Langue française, n°98, 1993. Les primitifs sémantiques, sous la direction de Bert Peeters. pp. 24-47

    Turbulent heat transfer in channels with irregular roughness

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    It is well known that rough surfaces affect turbulent flows significantly. How such surfaces affect turbulent heat transfer is less well understood. To gain more insight, we have performed a series of direct numerical simulations of turbulent heat transfer in a channel flow with grit-blasted surfaces. An immersed boundary method is used to account for the rough surface. A source term in the thermal energy balance is used to maximise the analogy between the transport of heat and the transport of streamwise momentum. The wall roughness size is varied from to =120. Turbulence statistics like mean temperature profile, mean temperature fluctuations and heat fluxes are presented. The structure of the turbulent temperature field is analysed in detail. Recirculation zones, which are the result of an adverse pressure gradient, have a profound effect on heat transfer. This is important as it leads to the wall-scaled mean temperature profiles being of larger magnitude than the mean velocity profiles both inside and outside the roughness layer. This means that the temperature wall roughness function is different from the momentum wall roughness function . Since the bulk temperature and velocity depend on and , it was shown that the Stanton number and the skin friction factor directly depend on and , respectively. Therefore, the failure of the Reynolds analogy in fully rough conditions can be directly related to the difference between and
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