Characterization for water vapour barrier and heat sealability properties of heat-treated paperboard/polylactide structure

The moisture barrier and heat sealability properties of polylactide (PLA) extrusion-coated paperboard were investigated. The first part of the study focused on the influences of coating weight and surroundings temperature and relative humidity on the water vapour transmission rate (WVTR) of the structure. The outcome arising from this part was a simple and practical equation that allows calculating the WVTR as a function of PLA coating weight under specific thermo-hygrometric conditions. The second part of the study investigated the effect of heat treatments between 100 and 150 degrees C on the WVTR and heat sealability of a 20 g/m(2) PLA-coated paperboard. According to the results, the lowest WVTR values achieved were about 2.5 times lower than the WVTR of the untreated structure. Presumably, the PLA coating experienced two types of reordering mechanisms: crystalline growth and packing of the amorphous structure. The greatest barrier improvement was achieved when both of these mechanisms were accumulated effectively. This was observed from the samples after a 40 min treatment at 130 degrees C. Ultimately, the crystalline growth was experienced by PLA at 100-130 degrees C temperatures. The packing of the amorphous section, which was also accumulated at higher temperatures, was suggested to be the decisive factor infiuencing WVTR. According to the heat sealing results, the heat treatments causing crystalline growth resulted in considerably increased sealing temperatures and reduced applicability of the material in high-speed packaging applications. The treatments at 140-150 degrees C caused only a slight increase in the sealing temperature and maintained the sealing performance of PLA. Copyright (C) 2009 John Wiley & Sons, Ltd.