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    Transverse fracture toughness of transparent wood biocomposites by FEM updating with cohesive zone fracture modeling

    New search for: Jungstedt, Erik
    New search for: Östlund, Sören
    New search for: Berglund, Lars

    Little is known about fracture toughness of monomer-impregnated wood biocomposites, with no data for transparent wood. For building applications, toughness is important, but the anisotropic nature of wood generates complex stress distributions that needs to be accounted for. A four-point bending fracture mechanics test is combined with digital image correlation (DIC) measurements of displacement fields and finite element model updating. The elastic parameters of an orthotropic composite and the parameters for a cohesive zone fracture model are determined from one transverse crack growth experiment. The fracture toughness for tangential longitudinal (TL) cracks was lower than expected, as explained by local peeling fracture of the wood cell wall. ; QC 20221004

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    Transverse fracture toughness of transparent wood biocomposites by FEM updating with cohesive zone fracture modeling

    New search for: Jungstedt, Erik
    New search for: Östlund, Sören
    New search for: Berglund, Lars

    Little is known about fracture toughness of monomer-impregnated wood biocomposites, with no data for transparent wood. For building applications, toughness is important, but the anisotropic nature of wood generates complex stress distributions that needs to be accounted for. A four-point bending fracture mechanics test is combined with digital image correlation (DIC) measurements of displacement fields and finite element model updating. The elastic parameters of an orthotropic composite and the parameters for a cohesive zone fracture model are determined from one transverse crack growth experiment. The fracture toughness for tangential longitudinal (TL) cracks was lower than expected, as explained by local peeling fracture of the wood cell wall. ; QC 20221004

    Access

    Download

    Transverse fracture toughness of transparent wood biocomposites by FEM updating with cohesive zone fracture modeling

    New search for: Jungstedt, Erik
    New search for: Östlund, Sören
    New search for: Berglund, Lars

    Little is known about fracture toughness of monomer-impregnated wood biocomposites, with no data for transparent wood. For building applications, toughness is important, but the anisotropic nature of wood generates complex stress distributions that needs to be accounted for. A four-point bending fracture mechanics test is combined with digital image correlation (DIC) measurements of displacement fields and finite element model updating. The elastic parameters of an orthotropic composite and the parameters for a cohesive zone fracture model are determined from one transverse crack growth experiment. The fracture toughness for tangential longitudinal (TL) cracks was lower than expected, as explained by local peeling fracture of the wood cell wall. ; QC 20221004

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    Document information
    Title:

    Transverse fracture toughness of transparent wood biocomposites by FEM updating with cohesive zone fracture modeling

    Contributors:

    Jungstedt, Erik (author) / Östlund, Sören (author) / Berglund, Lars (author)

    Publication date:

    2022-01-01

    Remarks:

    ISI:000799308500002

    DOI:

    https://doi.org/10.1016/j.compscitech.2022.109492

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Strain field measurements , Digital image correlation , Wood composites , Thermoplastic composite , Crack bridging , Applied Mechanics , Teknisk mekanik

    Classification:

    DDC:  620 / 624

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