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Oxygen-reducing enzymes in coatings and films for active packagingJohansson, Kristin January 2013 (has links)
Oxygen scavengers are used in active packages to protect the food against deteriorative oxidation processes. The aim of this work was to investigate the possibilities to produce oxygen-scavenging packaging materials based on oxygen-reducing enzymes. The enzymes were incorporated into a dispersion coating formulation applied onto a food-packaging board using conventional laboratory coating techniques. Various enzymes were used: a glucose oxidase, an oxalate oxidase and three laccases originating from different organisms. All of the enzymes were successfully incorporated into a coating layer and could be reactivated after drying. For at least two of the enzymes, re-activation was possible not only by using liquid water but also by using water vapour. Re-activation of the glucose oxidase and a laccase required relative humidities of greater than 75% and greater than 92%, respectively. Catalytic reduction of oxygen gas by glucose oxidase was promoted by creating an open structure through addition of clay to the coating at a level above the critical pigment volume concentration. Migration of the enzyme and the substrate was reduced by adding an extrusion-coated liner of polypropylene on top of the coating. For the laccase-catalysed reduction of oxygen it was possible to use lignin derivatives as substrates for the enzymatic reaction. The laccase-catalysed reaction created a polymeric network by cross-linking of lignin-based entities, which resulted in increased stiffness and increased water-resistance of biopolymer films. The laccases were also investigated with regard to their potential to function as oxygen scavengers at low temperatures. At 7°C all three laccases retained more than 20% of the activity they had at room temperature (25°C), which suggests that the system is also useful for packaging of refrigerated food.
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The Influence of Pigment Additives on the Barrier Properties of Dispersion Coatings / Olika pigments påverkan på dispersionsbarriärers egenskaperEriksson, Malin January 2022 (has links)
Att minska plastavfall och uppmuntra återvinning har fått hög prioritet i många affärsverksamheter och olika typer av regleringar implementeras för att minska den negativa påverkan av plastanvändningen. Papper och kartong består i huvudsak av cellulosa som har många egenskaper som är essentiella för en hållbar ekonomi (t.ex. förnyelsebar, återvinningsbar och bionedbrytbar) och pappersprodukter kan ersätta plast i många applikationer. Återvinningsgraden för pappersförpackningar är i vissa områden redan hög men det finns fortfarande begränsningar i att använda återvunna fibrer i vissa applikationer. Återvunna fibrer kan innehålla mineraloljor som kan migrera och ansamlas i mat som lagras i förpackningarna. Utvecklingen av barriärer för papper och kartong är nödvändig för att öka graden av användningsområden för förpackningar. Laminering är en traditionell teknik som används för bestrykningar, dock kan metoden leda till lägre återvinningsgrad. Dispersionsbarriärer är en typ av barriär där en emulsionspolymer stelnar till en icke porös film på pappersytan. Dispersionsbarriärer är enkla att separera från pappret under återvinningsprocesser och bra barriäregenskaper kan uppnås redan för låga ytvikter. I denna masteruppsats testas tre olika pigment (kaolin, talk och kalciumkarbonat) i olika koncentrationer i styrenakrylat latex och effekten på barriäregenskaper utvärderas. Dispersionerna beströks på papper med hjälp av bänkbestrykning. Viskositeten mättes med en reometer och pigmenten tenderade att sänka viskositeten under lägre skjuvhastigheter. Mineraloljebarriäregenskaper testades genom att mäta migrationen av ett flyktigt kolväte (n-heptan) genom barriären. Oljeresistens testades med palmkärnoljemetoden och ingen oljemigration observerades efter 24 timmar. Vikt oljeresistens testades också för alla prover. Kaolin tenderade att ge sämre fettbarriär efter viktning, jämfört med talk. Detta förklarades genom att kaolin har en högre modul än talk vilket kan skapa sprickbildning i barriären under vikning. Vatten och vattenångbarriär testades med Cobb och WVTR. Testen visade bättre barriäregenskaper för tillsatt kaolin, liknande eller sämre för talk, och sämre för kalciumkarbonat. Försämringen av egenskaper förklarades genom sprickbildning orsakad i toppbestrykningen för de prover som innehöll kalciumkarbonat. Kaolin gav generellt sett mer stabila förbättringar i barriäregenskaper, vilket förklarades av de bättre dispergerade och mindre partiklarna jämfört med talk, samt den höga formfaktorn. Delaminering av barriären från pappret förekom i alla prover, utom för talk i högre koncentrationer. Svepelektronmikroskop användes för att studera ytråhet, pinholes, vätning, barriärens tjocklek och struktur, pigmentens form och orientering samt sprickbildning efter vikning. Resultaten visade på en barriär med få eller inga pinholes. Diskformade pigment tenderade att orientera sig parallellt med papperets yta. Ingen direkt skada på barriären eller sprickbildning kunde observeras i vecken efter vikning. FTIR användes för att studera interaktioner i gränsytan mellan matris och filler. Det fanns ingen indikation för nya kemiska bindningar i något av proverna. Återvinningstest utfördes också vilka visade att barriären enkelt kan separeras från pappret och en hög grad fibrer kan utvinnas under återvinning. / Reducing plastic littering and encouraging recycling have become top priorities for many businesses, and regulatory actions are taken around the world to target the adverse effects of plastic materials. Paper and paperboards mainly consist of cellulose which has many properties that are essential for a sustainable economy (e.g., renewable, recyclable and biodegradable), and paper products can be an alternative for plastics in many applications. Although the recycling rate for paper and cardboard in some areas is already relatively high, there are still some concerns about using recirculated fibres in some applications. Recycled cardboard can contain mineral oil hydrocarbons which could migrate and accumulate in food during storage. Developing coatings for paperboards is necessary to increase the range of usage for paper products in packaging applications. A traditional way of coating paper is by lamination, but this technique tends to lead to lower recycling rates. Dispersion coating is a type of barrier where an emulsion polymer is applied and solidified to a non-porous protective film on the paper surface. Dispersion coatings are readily removed from the paper during recycling, and proper barrier functions can be achieved already at low coat weights. In this thesis, three different types of pigments (kaolin, talc, and calcium carbonate) were tested in different concentrations in a styrene acrylate copolymer latex, and the effect on barrier properties was evaluated. The dispersions were coated onto papers by rod coating. Viscosity tests were done by using a rheometer. The pigments tended to decrease viscosity at low shear rates. Mineral oil barrier properties were tested by measuring the migration of a volatile hydrocarbon (n-heptane) through the barrier. Grease resistance was tested with the palm kernel oil test, and no oil migration was observed in any of the samples after 24h. The effect of folding on barrier properties depending on the pigment type and concentration was also evaluated as a part of testing grease resistance. Reduced barrier performance was seen after folding for kaolin compared to talc which was explained by the higher modulus of kaolin which may cause crack formation in the coating. Water and water vapour barrier properties were tested through the Cobb test, and by a Water Vapour Transmission Rate (WVTR) analyser. The results showed an increased barrier performance with kaolin in higher concentrations and a reduction with calcium carbonate. This behaviour was explained by crackelations in the top-coating layers for the samples containing calcium carbonate. Kaolin seemed to give a more stable improvement of barrier performance, and this was explained by a better dispersion of smaller particles with a high aspect ratio. Adhesive strength and delamination were measured by heat seal tests. Delamination of the barrier was seen in all samples except for talc in higher concentrations. Scanning Electron Microscope (SEM) was used to evaluate surface roughness, voids, wetting of particles, barrier thickness and integrity, pigment shape and orientation, and crack formation after folding. The results showed a barrier with good integrity and few voids, and platy particles tended to orient parallel to the paper surface. No clear visual damage was observed after folding, and no crack formation could be seen at the creases. Fourier Transform Infrared Spectroscopy – Attenuated Total Reflectance (FTIR–ATR) was used to study matrix/filler interactions, and bond formation during consolidation. No indication of additional bond formation was seen in any of the samples. Recyclability tests were also performed which showed that the coatings are readily removable, and a large fibre fraction is available during the recycling of the fibres.
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