Mechanical and physical characterization of composite bamboo-guadua products: Plastiguadua

Hector Archila Archila, Caori Takeuchi, David Trujillo

    Research output: Chapter in Book/Report/Conference proceedingConference proceeding

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    Abstract

    The bamboo species Guadua angustifolia Kunth (Guadua) was subjected to different fibre extraction processes, chemically treated and used in combination with a set range of polymers to form various composite materials. Novel technologies and artisan methods for veneer production and fibre extraction were explored. Extensive experimental work was undertaken on the composites manufacture, mixes and arrangements to form flat sheets. Physical and mechanical properties of these sheets were assessed on two material configurations: Plastiguadua-L and Plastiguadua-P. The former was a laminated material with 70% by weight of thin veneers of Guadua and 30% thermoset polyester resin. The latter had a 1:1 ratio by weight of short fibre bundles and resin content respectively. For the mechanical characterization, bending, tensile and impact-Izod tests were undertaken. Rockwell hardness, UV, condensation and water absorption were carried out to assess their physical properties. Values obtained for the elastic properties of Plastiguadua-L were lower than those of Plastiguadua-P, whilst strength values showed the opposite response for both bending, tension and impact. Bending and tensile modulus of elasticity for the former were 3.96 GPa and 2.21 GPa respectively, and 4.61 GPa and 2.38 GPa respectively for the latter. Tensile and impact strength values obtained were 38.3 MPa and 20.73 MPa respectively for Plastiguadua-L and 157 J/m and 55 J/m respectively for Plastiguadua-P. Improved resistance to degradation was observed through the UV/condensation test on samples embedded on resin when compared to those with none or slight preservation treatments. Overall, the research project showcased a range of products manufactured by mixing different forms of Guadua fibres and mats with polymers and assessed the mechanical and physical features of two of them. The project focused on a holistic approach to the use and manufacture of bamboo products for engineering applications and as potential substitutes for wood applications.
    Original languageUndefined
    Title of host publication68th FPS-IC and WCTE 2014
    Publication statusPublished - 2015
    EventWCTE 2014 and FPS 68th IC - Quebec, Canada
    Duration: 10 Aug 201414 Aug 2014

    Conference

    ConferenceWCTE 2014 and FPS 68th IC
    CountryCanada
    CityQuebec
    Period10/08/1414/08/14

    Cite this

    Mechanical and physical characterization of composite bamboo-guadua products: Plastiguadua. / Archila, Hector Archila; Takeuchi, Caori; Trujillo, David.

    68th FPS-IC and WCTE 2014. 2015.

    Research output: Chapter in Book/Report/Conference proceedingConference proceeding

    Archila, HA, Takeuchi, C & Trujillo, D 2015, Mechanical and physical characterization of composite bamboo-guadua products: Plastiguadua. in 68th FPS-IC and WCTE 2014. WCTE 2014 and FPS 68th IC, Quebec, Canada, 10/08/14.
    Archila, Hector Archila ; Takeuchi, Caori ; Trujillo, David. / Mechanical and physical characterization of composite bamboo-guadua products: Plastiguadua. 68th FPS-IC and WCTE 2014. 2015.
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    AU - Trujillo, David

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    N2 - The bamboo species Guadua angustifolia Kunth (Guadua) was subjected to different fibre extraction processes, chemically treated and used in combination with a set range of polymers to form various composite materials. Novel technologies and artisan methods for veneer production and fibre extraction were explored. Extensive experimental work was undertaken on the composites manufacture, mixes and arrangements to form flat sheets. Physical and mechanical properties of these sheets were assessed on two material configurations: Plastiguadua-L and Plastiguadua-P. The former was a laminated material with 70% by weight of thin veneers of Guadua and 30% thermoset polyester resin. The latter had a 1:1 ratio by weight of short fibre bundles and resin content respectively. For the mechanical characterization, bending, tensile and impact-Izod tests were undertaken. Rockwell hardness, UV, condensation and water absorption were carried out to assess their physical properties. Values obtained for the elastic properties of Plastiguadua-L were lower than those of Plastiguadua-P, whilst strength values showed the opposite response for both bending, tension and impact. Bending and tensile modulus of elasticity for the former were 3.96 GPa and 2.21 GPa respectively, and 4.61 GPa and 2.38 GPa respectively for the latter. Tensile and impact strength values obtained were 38.3 MPa and 20.73 MPa respectively for Plastiguadua-L and 157 J/m and 55 J/m respectively for Plastiguadua-P. Improved resistance to degradation was observed through the UV/condensation test on samples embedded on resin when compared to those with none or slight preservation treatments. Overall, the research project showcased a range of products manufactured by mixing different forms of Guadua fibres and mats with polymers and assessed the mechanical and physical features of two of them. The project focused on a holistic approach to the use and manufacture of bamboo products for engineering applications and as potential substitutes for wood applications.

    AB - The bamboo species Guadua angustifolia Kunth (Guadua) was subjected to different fibre extraction processes, chemically treated and used in combination with a set range of polymers to form various composite materials. Novel technologies and artisan methods for veneer production and fibre extraction were explored. Extensive experimental work was undertaken on the composites manufacture, mixes and arrangements to form flat sheets. Physical and mechanical properties of these sheets were assessed on two material configurations: Plastiguadua-L and Plastiguadua-P. The former was a laminated material with 70% by weight of thin veneers of Guadua and 30% thermoset polyester resin. The latter had a 1:1 ratio by weight of short fibre bundles and resin content respectively. For the mechanical characterization, bending, tensile and impact-Izod tests were undertaken. Rockwell hardness, UV, condensation and water absorption were carried out to assess their physical properties. Values obtained for the elastic properties of Plastiguadua-L were lower than those of Plastiguadua-P, whilst strength values showed the opposite response for both bending, tension and impact. Bending and tensile modulus of elasticity for the former were 3.96 GPa and 2.21 GPa respectively, and 4.61 GPa and 2.38 GPa respectively for the latter. Tensile and impact strength values obtained were 38.3 MPa and 20.73 MPa respectively for Plastiguadua-L and 157 J/m and 55 J/m respectively for Plastiguadua-P. Improved resistance to degradation was observed through the UV/condensation test on samples embedded on resin when compared to those with none or slight preservation treatments. Overall, the research project showcased a range of products manufactured by mixing different forms of Guadua fibres and mats with polymers and assessed the mechanical and physical features of two of them. The project focused on a holistic approach to the use and manufacture of bamboo products for engineering applications and as potential substitutes for wood applications.

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