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    Fracture analysis of composite co-cured structural joints using decohesion elements

    New search for: Camanho, P.P.
    New search for: Davila, C.G.
    New search for: Pinho, S.S.

    Delamination is one of the predominant forms of failure in laminated composite structures, especially when there is no reinforcement in the thickness direction. To develop composite structures that are more damage tolerant, it is necessary to understand how delamination develops, and how it can affect the residual performance. A number of factors such as residual thermal stresses, matrix-curing shrinkage and manufacturing defects affect how damage will grow in a composite structure. It is important to develop computationally efficient analysis methods that can account for all such factors. The objective of the current work is to apply a newly developed decohesion element to investigate the debond strength of skin-stiffener composite specimens. The process of initiation of delaminations and the propagation of delamination fronts is investigated. The numerical predictions are compared with published experimental results.

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    Fracture analysis of composite co-cured structural joints using decohesion elements

    New search for: Camanho, P.P.
    New search for: Davila, C.G.
    New search for: Pinho, S.S.

    Delamination is one of the predominant forms of failure in laminated composite structures, especially when there is no reinforcement in the thickness direction. To develop composite structures that are more damage tolerant, it is necessary to understand how delamination develops, and how it can affect the residual performance. A number of factors such as residual thermal stresses, matrix-curing shrinkage and manufacturing defects affect how damage will grow in a composite structure. It is important to develop computationally efficient analysis methods that can account for all such factors. The objective of the current work is to apply a newly developed decohesion element to investigate the debond strength of skin-stiffener composite specimens. The process of initiation of delaminations and the propagation of delamination fronts is investigated. The numerical predictions are compared with published experimental results.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Fracture analysis of composite co-cured structural joints using decohesion elements

    New search for: Camanho, P.P.
    New search for: Davila, C.G.
    New search for: Pinho, S.S.

    Delamination is one of the predominant forms of failure in laminated composite structures, especially when there is no reinforcement in the thickness direction. To develop composite structures that are more damage tolerant, it is necessary to understand how delamination develops, and how it can affect the residual performance. A number of factors such as residual thermal stresses, matrix-curing shrinkage and manufacturing defects affect how damage will grow in a composite structure. It is important to develop computationally efficient analysis methods that can account for all such factors. The objective of the current work is to apply a newly developed decohesion element to investigate the debond strength of skin-stiffener composite specimens. The process of initiation of delaminations and the propagation of delamination fronts is investigated. The numerical predictions are compared with published experimental results.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

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    Title:

    Fracture analysis of composite co-cured structural joints using decohesion elements

    Contributors:

    Camanho, P.P. (author) / Davila, C.G. (author) / Pinho, S.S. (author)

    Published in:

    Fatigue and Fracture of Engineering Materials and Structures ; 27 ; 745-757

    Publication date:

    2004

    Size:

    13 Seiten, 26 Quellen

    ISSN:

    8756-758X

    Type of media:

    Article (Journal)

    Type of material:

    Print

    Language:

    English

    Keywords:

    Schichtwerkstoff , Verbindungsstelle , Schichtablösung , Ausfall , mechanische Verstärkung , Passung , Rechenverfahren , Rissausbreitung , Steifigkeit , mechanischer Ausfall

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