47 research outputs found
Methods for Analyzing the Structure of Creases in Heat Sealed Paperboard Packages
Press-forming of paperboard has been previously studied by several authors. A point of interest regarding gas tight heat sealing of the packages are the creases in the package. The objective of this article was to study and compare different microscopic imaging methods to research an optimal imaging method for the formation of creases in the press-forming process of polymer coated paperboard trays. The studied methods were: Scanning electrode microscopy (SEM), X-ray Microtomography, Optical light microscopy and Polarized light microscopy. All four tested methods delivered clear images. Casting of the samples in an acrylic resin and light microscope imaging was found to be the most suitable method for the analysis of heat sealed creases and leakage detection
Evaluating bicyclists’ risk perception using video clips: Comparison of frequent and infrequent city cyclists
Abstract Hazard and risk perception has been studied extensively among car drivers, and their link to crash involvement is established. Bicyclists, in particular, are vulnerable road users. Better understanding of their risk and hazard perception could help to improve their traffic safety. In this study, we investigated the risk perception of bicyclists in a city environment. Two groups of bicyclists were compared: 19 frequent and 19 infrequent bicyclists. Participants were shown video clips taken with a camera attached to the handlebar of a bicycle, and they were asked to continuously indicate with a slider how much caution the situation needed. The frequent cyclists had more frequent rises in the caution estimate, which suggest that they anticipated or detected more hazards than infrequent cyclists. This is in line with the classical hazard perception results, which link the car driving experience to faster and more accurate hazard perception. The overall level or caution was not directly related to the rise event rate or bicycling frequency. Those cyclists who reported typically cycling faster than others showed elevated overall level of caution on sidewalks compared with others, but there was no difference on bike paths.Hazard and risk perception has been studied extensively among car drivers, and their link to crash involvement is established. Bicyclists, in particular, are vulnerable road users. Better understanding of their risk and hazard perception could help to improve their traffic safety. In this study, we investigated the risk perception of bicyclists in a city environment. Two groups of bicyclists were compared: 19 frequent and 19 infrequent bicyclists. Participants were shown video clips taken with a camera attached to the handlebar of a bicycle, and they were asked to continuously indicate with a slider how much caution the situation needed. The frequent cyclists had more frequent rises in the caution estimate, which suggest that they anticipated or detected more hazards than infrequent cyclists. This is in line with the classical hazard perception results, which link the car driving experience to faster and more accurate hazard perception. The overall level or caution was not directly related to the rise event rate or bicycling frequency. Those cyclists who reported typically cycling faster than others showed elevated overall level of caution on sidewalks compared with others, but there was no difference on bike paths. (C) 2015 Elsevier Ltd. All rights reserved.Peer reviewe
Convertability and Oil Resistance of Paperboard with Hydroxypropyl-Cellulose-Based Dispersion Barrier Coatings
The convertability and barrier properties of paperboard coated with hydroxypropyl-cellulose (HPC) based dispersions were studied via tray pressing trials, oil resistance measurements and microscopic analyses. To improve the oil resistance of the HPC-based coatings and to maximize their convertability, talc, gelatin and latex were used as additives in coating formulations. The oil resistance of the coatings improved to some extent with these additives, but scanning electron micrographs revealed the existence of pinholes particularly in coatings with a high HPC content. The coated paperboard samples were pressed into rectangular trays and the convertability of the paperboards was evaluated with a microscope. Thereafter, the oil resistance of the trays was determined in order to clarify how the tray pressing process affected the oil resistance. Pure HPC coating did not provide appreciable oil resistance to the paperboard, but the composite coatings resisted oil up to 11 minutes at the tray corners, which were considered the most demanding regions in the tray. The pure HPC coating was sticky and tended to stick to the converting tools in the press forming. Adding talc to the coating dispersion reduced this problem. By applying a thin pre-coating layer, it was possible to raise the blank holding force in the pressing process from 1.16 kN to 1.55 kN without causing rupture in the tray corner areas or compromising the quality of the creases. With commercial polyethylene-terephthalate-coated reference paperboard, the use of such a high force resulted in long rupture and opened creases, which confirms the excellent applicability of the developed dispersion-coating recipes for the tray-pressing process. These observations suggest that convertibility is not necessarily a major problem with bio-based dispersion barrier coatings and that more attention should be paid to their barrier properties and particularly to the prevention of pinholes being formed during the coating process
Adding a Polymer Film Barrier Layer in the Press Forming Process of Paperboard Trays
The aim of this paper was to investigate the possibility to add a barrier layer in the press forming phase of paperboard trays by sealing a polymer film to a paperboard substrate. Plastic coating is often an important part of packages manufactured for food packaging. Traditionally the paperboards for food packaging are coated in the paper mill before the actual forming of the package. Experiments with coated and uncoated boards were made and the bonding and adhesion of materials was observed. The results indicate that adhesion between the board and the film can be achieved in the forming process. However there are challenges, such as lack of adhesion, air bubble formation and deformation of formed products. It is still shown that it is possible to achieve a bond between the paperboard and a barrier film, and to subsequently add a barrier layer from a separate film to paperboard trays in the forming process
Comparison of Organic Food Packaging in Denmark, Finland, Germany, Great Britain and Italy
The objective of this study was to provide a snapshot of organic food assortments in supermarkets in Denmark, Finland, Germany, Great Britain, and Italy, and compare the packages used for five organic food products (eggs, meat, fish, mushrooms, berries). In addition, a comparison was made between packaging for regular and organic whole eggs. The highest number of organic products was found in the Danish supermarket. The main difference between the countries was in the use of national organic logos. Of the different food products, egg cartons had the most variation in materials and visual design. In all countries the product name was generally very plain, such as “organic beef”. The most common packaging material was plastic followed by molded pulp and glass. Green coloration was used especially on organic egg and mushroom packaging, whereas berry jams and meats were packed in conventional transparent packages. Molded pulp cartons, green color, and illustrations rather than photos were used more often for organic eggs than regular eggs. For faster recognition of organic products on the supermarket shelf, a standard dark green color is recommended to be used consistently to signify organic
Suitability of Active and Intelligent Packaging for Local and Organic Food – A Case Study in Southern Finland
This study explores the suitability of innovative packaging for local and organic food. Attitudes and opinions in local and organic food chains in Southern Finland were collected via eighteen semi-structural interviews. The respondents were small-scale producers and processors of fish, meat, berries, and mushrooms, wholesalers, retailers, and institutional kitchens. The aim of this study was to understand factors promoting and preventing the penetration of innovative packaging solutions into the organic and local food market. A clear majority (89%) of respondents considered active and intelligent solutions to be equally suitable for local and organic food as for conventional food. However, less than half would actually use the technologies in their own products
Suitability of Paper-Based Substrates for Printed Electronics
Flexible plastic substrates are widely used in printed electronics; however, they cause major climate impacts and pose sustainability challenges. In recent years, paper-based electronics has been studied to increase the recyclability and sustainability of printed electronics. The aim of this paper is to analyze the printability and performance of metal conductor layers on different paper-based substrates using both flexography and screen printing and to compare the achieved performance with that of plastic foils. In addition, the re-pulpability potential of the used paper-based substrates is evaluated. As compared to the common polyethylene terephthalate (PET) substrate, the layer conductivity on paper-based substrates was found to be improved with both the printing methods without having a large influence on the detail rendering. This means that a certain surface roughness and porosity is needed for the improved ink transfer and optimum ink behavior on the surface of the substrate. In the case of uncoated paper-based substrates, the conductivity and print quality decreased by preventing the formation of the proper and intimate ink-substrate contact during the ink transfer. Finally, the re-pulpability trials together with layer quality analysis detected very good, coated substrate candidates for paper-based printed electronics competing with or even outperforming the print quality on the reference PET foil