Development and Characterization of Biopolymers

Development and characterization of biopolymers was done in AIJU’s laboratories. AIJU, Technological Institute for children’s products and leisure is based in Spain. The work has the aim to study qualities and characteristics of bioplastics’ blends, in order to design where improvements can be executed. Biopolymers represent a sector with great development possibilities because they combine high technical potential and eco-sustainability. Nowadays, plastic pollution has becoming increasingly concerning, particularly in terms of management of waste. Bioplastics provide an alternative for the disposal of products, reducing the volume of waste and enhancing the end of life recovery. Despite the growing interest in biopolymers there is some gaps that need be filled. The main objective on this work, is the optimization of bioplastics mechanical properties, to find suitable substitutes, as similar as possible to conventional plastics. Firstly, investigations on processability of biomaterials has been deepen since the project deals with toy manufacturing’s sector. Thus, starting from laboratory scale the work aspires to expand industrially. By working with traditional machines, it was notable that, with some limited modifications, the equipment can perform the same functions. Therefore, operational processes do not emerge as an obstacle to the production chain. Secondly, after processing bio-blends, they are characterized by thermal tests (melt flow index, differential scanning calorimetry-DSC, thermogravimetry-TGA) and mechanical tests (traction and flexural tests, Charpy impact, SHORE D hardness and density). While the compatibility does not show relevant results, mechanical improvements has been visualized with addition of more ductile materials. The study was developed by inclusion of sustainable additive VINNEX® to blends. The thesis has highlighted that integration of more flexible materials provides elasticity without compromising bioplastics’ properties.

End of life treatment options for bioplastics; a composting efficency case study

The constant increase in plastic production creates many problems, from its oil-based production all the way to end-of-life treatment, as the same proprieties that make plastic useful make conventional plastic into long-lasting waste that’s quickly piling up. One alternative is a different kind of plastic, bioplastic, a polymeric compound that is both functionally like synthetic plastics and largely environmentally sustainable. It is not necessarily enough to solve the plastic waste issue there's a need for effective strategies to manage bioplastic products at their end of life, to avoid undoing the reduction of environmental impact. One such treatment, unique to biodegradable bioplastics, is composting. This prompts a closer study of how efficient this process is in degrading bioplastics.