Green plastics for food packaging 525 hydrophillic and cationic part hydrophilic and H-bond active part (clay compatible) (starch compatible) Fig. 24.1 Example of possible modifiers for starch-clay nano-composites and quirements for clay modification. In order to achieve the final clay-starch nano-composite material, a clay modification'and an'extrusion' processing step can be distinguished, which are described below. For the preparation of nano-composite materials consisting of starch and clay, the use of special compatibilising agents(modifier) between the two basic materials is necessary as depicted in Fig. 24.1 Layered silicates are characterised by a periodic stacking of mineral sheets with a weak interaction between the layers and a strong interaction within the layer. The space between the layers is occupied by cations. By cation exchange reactions between the clay and organic cations(such as alkyl ammonium salts) the layered silicate can be transformed into organically modified clay. The inter layer distance will increase by using voluminous modifiers. If this modifier is compatible with starch as well, a homogeneously and nanoscaled distribution (exfoliation) of the clay sheets can be effected in the polymer matrix. The odified clay can be analysed by X-ray investigation(XRD) to determine the inter-layer distance. The pure clay shows an interlayer distance of 1. 26nm It ha been proven by XRD analysis that most of the layers are indeedswollen'after the modification reaction. The interlayer distance changes to 2. 34nm-an increase of nearly 100% compared to the pure clay 24.3.3 Extrusion The starch and the modified clay are mixed at temperatures above the softening point of the polymer by polymer melt processing (extrusion). At these temperatures the polymer melt intercalates. The success of the polymer intercalation depends on the modification of the clay, on the degree of increased interlayer distance and on the interaction between the modifier and the matrix material. A full destructurisation is needed for a successful polymer melt process of starch. Therefore, it is very important to find the optimal starch/clay/ plasticiser content, the most effective geometry of the screws and the right temperature profile within the extruder. 243. 4 Properties of the starch-clay nanocomposites A homogeneous incorporation of clay particles into a starch matrix on a true nano scale has proved to be possible. The addition of clay during processing supports and intensifies the destructuring process of starch, providing a means of easier processing. The obtained starch/clay nanocomposite films show a very strong decrease in hydrophilicity. The stiffness, the strength and the toughneIn order to achieve the final clay-starch nano-composite material, a ‘clay modification’ and an ‘extrusion’ processing step can be distinguished, which are described below. For the preparation of nano-composite materials consisting of starch and clay, the use of special compatibilising agents (modifier) between the two basic materials is necessary as depicted in Fig. 24.1. Layered silicates are characterised by a periodic stacking of mineral sheets with a weak interaction between the layers and a strong interaction within the layer. The space between the layers is occupied by cations. By cation exchange reactions between the clay and organic cations (such as alkyl ammonium salts) the layered silicate can be transformed into organically modified clay. The inter layer distance will increase by using voluminous modifiers. If this modifier is compatible with starch as well, a homogeneously and nanoscaled distribution (exfoliation) of the clay sheets can be effected in the polymer matrix. The modified clay can be analysed by X-ray investigation (XRD) to determine the inter-layer distance. The pure clay shows an interlayer distance of 1.26nm. It has been proven by XRD analysis that most of the layers are indeed ‘swollen’ after the modification reaction. The interlayer distance changes to 2.34nm – an increase of nearly 100% compared to the pure clay. 24.3.3 Extrusion The starch and the modified clay are mixed at temperatures above the softening point of the polymer by polymer melt processing (extrusion). At these temperatures the polymer melt intercalates. The success of the polymer intercalation depends on the modification of the clay, on the degree of increased interlayer distance and on the interaction between the modifier and the matrix material. A full destructurisation is needed for a successful polymer melt process of starch. Therefore, it is very important to find the optimal starch/clay/ plasticiser content, the most effective geometry of the screws and the right temperature profile within the extruder. 24.3.4 Properties of the starch-clay nanocomposites A homogeneous incorporation of clay particles into a starch matrix on a true nano scale has proved to be possible. The addition of clay during processing supports and intensifies the destructuring process of starch, providing a means of easier processing. The obtained starch/clay nanocomposite films show a very strong decrease in hydrophilicity. The stiffness, the strength and the toughness Fig. 24.1 Example of possible modifiers for starch-clay nano-composites and requirements for clay modification. Green plastics for food packaging 525