Influence of seawater immersion in low energy impact behavior of a novel colombian fique fiber reinforced bio-resin laminate

  1. Fabuer Ramón-Valencia 1
  2. Alberto Lopez-Arraiza 1
  3. Joseba I. Múgica 2
  4. Jon Aurrekoetxea 2
  5. Juan Carlos Suarez 3
  6. Bladimir Ramón-Valencia 4
  1. 1 Dpto. Ciencias y Técnicas de la Navegación, Máquinas y Construcciones Navales, Universidad del País Vasco (UPV/EHU), Lejona, España
  2. 2 Dpto de Mecánica y Producción Industrial, Mondragon Goi Eskola Politeknikoa (MGEP), Mondragon Unibertsitatea, Mondragoe, España
  3. 3 Escuela Técnica Superior de Ingenieros Navales. Universidad Politécnica de Madrid, Madrid, España
  4. 4 Facultad de Ingenierías y Arquitectura, Universidad de Pamplona, Colombia
Revista:
DYNA: revista de la Facultad de Minas. Universidad Nacional de Colombia. Sede Medellín

ISSN: 0012-7353

Any de publicació: 2015

Volum: 82

Número: 194

Pàgines: 170-177

Tipus: Article

DOI: 10.15446/DYNA.V82N194.48622 DIALNET GOOGLE SCHOLAR lock_openDialnet editor

Altres publicacions en: DYNA: revista de la Facultad de Minas. Universidad Nacional de Colombia. Sede Medellín

Objectius de Desenvolupament Sostenible

Resum

This experimental work is aimed at the influence of seawater immersion in low impact energy behavior of a novel Colombian fique fiber reinforced bio-resin laminate. Such material was manufactured by vacuum infusion. The specimens were immersed in seawater during a bioactivity period of six months. Low energy impact tests were performed in order to obtain the penetration and perforation threshold according to energy profiles. The damage extent was characterized by means of Ultrasonics. Tensile stress tests were also performed and the breaking surfaces were analyzed by Scanning Electron Microscopy. The results revealed that the new biocomposite, after seawater immersion, has higher penetration and perforation thresholds than the biocomposite without immersion. Tensile test results show stiffness lost and increase of elongation at break. This behavior of the immersed biocomposite is due to a plasticization process of the material.