Base Diseño e Innovación. 2023 volumen 8: Biodiseño e innovación inspirada en la naturaleza
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Item Biopolimereando con diseñadores del futuro: Un proyecto de innovación y fortalecimiento de la docencia / Biopolimering with Future Designers: A project to innovate and strengthen the teaching profession(Universidad del Desarrollo. Facultad de Diseño, 2023) Johnson Sepúlveda, Estefanía; Zabala Ferrer, Antonia; Lazcano Alvarado, TrinidadIn september 2024, students from the ideation and creativity workshop at the design school of universidad del desarrollo (udd) showcased a series of accessories created through experimentation with biopolymers on the university’s boulevard. this initiative, led by instructors antonia zabala and estefanía johnson, along with designer trinidad lazcano, was made possible thanks to the teaching innovation and strengthening projects (pifd) fund of the udd centre for teaching innovation. introducing students to these concepts from the beginning of their professional training is essential in a context where responsible design and sustainability are increasingly relevant. the project, “sustainable design: creative innovation with gelatine biopolymers,” aimed to teach students about experimentation with sustainable materials and encourage their creativity in tackling complex problems through design.Item Revalorización de residuos forestales. Bioaglomerado a partir de Eucalyptus globulus labill / Valorization of Forest Residues. Bio-Composite from Eucalyptus Globulus Labill(Universidad del Desarrollo. Facultad de Diseño, 2023) Lazcano Alvarado, TrinidadIn a global context where sustainability has become an unavoidable priority, this research focuses on the capsules of eucalyptus globulus labill, an abundant by-product of the forestry industry. The potential of these capsules as a raw material for the development of a sustainable bio-composite is explored, proposing a strategy aimed at reducing industrial waste and laying the foundation for a fundamental shift in the conception and production of future materials. Through a rigorous process of development and evaluation, it is demonstrated how this approach can transform forest waste into viable and environmentally responsible solutions. With the active participation of designers, industry experts, and chemistry specialists, this work is situated within a national context that reflects a growing demand for sustainable alternatives. A critical perspective on the challenges addressed and the emerging opportunities are presented, emphasising the revaluation of natural resources and the integration of concepts from circular economy and place-based design.