Characterization of Atlantic Forest Tucum (<i>Bactris setosa</i> Mart.) Leaf Fibers: Aspects of Innovation, Waste Valorization and Sustainability
Taynara Thaís Flohr,
Eduardo Guilherme Cividini Neiva,
Marina Proença Dantas,
Rúbia Carvalho Gomes Corrêa,
Natália Ueda Yamaguchi,
Rosane Marina Peralta,
Afonso Henrique da Silva Júnior,
Joziel Aparecido da Cruz,
Catia Rosana Lange de Aguiar,
Carlos Rafael Silva de Oliveira
Affiliations
Taynara Thaís Flohr
Textile Engineering Department, Federal University of Santa Catarina—UFSC, Blumenau Campus, Blumenau 89036-004, SC, Brazil
Eduardo Guilherme Cividini Neiva
Chemistry Department, University of Blumenau—FURB, Blumenau 89030-903, SC, Brazil
Marina Proença Dantas
Graduate Program in Clean Technologies, Cesumar Institute of Science, Technology and Innovation—ICETI, Cesumar University, Maringá 87050-900, PR, Brazil
Rúbia Carvalho Gomes Corrêa
Graduate Program in Clean Technologies, Cesumar Institute of Science, Technology and Innovation—ICETI, Cesumar University, Maringá 87050-900, PR, Brazil
Natália Ueda Yamaguchi
Graduate Program in Clean Technologies, Cesumar Institute of Science, Technology and Innovation—ICETI, Cesumar University, Maringá 87050-900, PR, Brazil
Rosane Marina Peralta
Center for Biological Sciences, Biochemistry Department, State University of Maringá—UEM, Maringá 87020-900, PR, Brazil
Afonso Henrique da Silva Júnior
Energy and Sustainability Department, Federal University of Santa Catarina—UFSC, Araranguá Campus, Araranguá 88905-120, SC, Brazil
Joziel Aparecido da Cruz
Textile Engineering Department, Federal University of Santa Catarina—UFSC, Blumenau Campus, Blumenau 89036-004, SC, Brazil
Catia Rosana Lange de Aguiar
Textile Engineering Department, Federal University of Santa Catarina—UFSC, Blumenau Campus, Blumenau 89036-004, SC, Brazil
Carlos Rafael Silva de Oliveira
Textile Engineering Department, Federal University of Santa Catarina—UFSC, Blumenau Campus, Blumenau 89036-004, SC, Brazil
This study investigates the fibers of tucum (Bactris setosa Mart.), a palm species native to the Atlantic Forest. The fibers manually extracted from tucum leaves were characterized to determine important properties that help with the recognition of the material. The fibers were also subjected to pre-bleaching to evaluate their dyeing potential. The extraction and characterization of these fibers revealed excellent properties, making this material suitable not only for manufacturing high-quality textile products but also for various technical and engineering applications. The characterization techniques included SEM (Scanning Electron Microscopy), FTIR (Fourier Transform Infrared Spectroscopy), TGA (Thermogravimetric Analysis), and tensile strength tests. These analyses showed that tucum fibers possess desirable properties, such as high tensile strength, with values comparable to linen but with a much finer diameter. The fibers also demonstrated good affinity for dyes, comparable to cotton fibers. An SEM analysis revealed a rough surface, with superficial phytoliths contributing to their excellent mechanical strength. FTIR presented a spectrum compatible with cellulose, confirming its main composition and highly hydrophilic nature. The dyeing tests indicated that tucum fibers can be successfully dyed with industrial direct dyes, showing good color yield and uniformity. This study highlights the potential of tucum fibers as a renewable, biodegradable, and sustainable alternative for the transformation industry, promoting waste valorization.
