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"Segment-wise model" for theoretical simulation of barely visible indentation damage in composite sandwich beams: Part II - Experimental verification and discussion
When localized transverse loading is applied to a sandwich structure, the facesheet locally deflects and the core crushes. A residual dent induced by the core crushing significantly degrades the mechanical properties of the sandwich structure. In a previous paper, the authors established a 'segment-wise model' for theoretical simulation of barely visible indentation damage in honeycomb sandwich beams with composite facesheets. Honeycomb sandwich beam was divided into many segments based on the periodic shape of the honeycomb and complicated through-thickness characteristics of the core were integrated into each segment. In this paper, the new model is validated by experiments using specimens with different types of honeycomb cores. In addition, the damage growth mechanism under indentation load was clarified from the viewpoint of the reaction force from the core to the facesheet. The applicability of the model to other types of core materials is also discussed.
"Segment-wise model" for theoretical simulation of barely visible indentation damage in composite sandwich beams: Part II - Experimental verification and discussion
When localized transverse loading is applied to a sandwich structure, the facesheet locally deflects and the core crushes. A residual dent induced by the core crushing significantly degrades the mechanical properties of the sandwich structure. In a previous paper, the authors established a 'segment-wise model' for theoretical simulation of barely visible indentation damage in honeycomb sandwich beams with composite facesheets. Honeycomb sandwich beam was divided into many segments based on the periodic shape of the honeycomb and complicated through-thickness characteristics of the core were integrated into each segment. In this paper, the new model is validated by experiments using specimens with different types of honeycomb cores. In addition, the damage growth mechanism under indentation load was clarified from the viewpoint of the reaction force from the core to the facesheet. The applicability of the model to other types of core materials is also discussed.
"Segment-wise model" for theoretical simulation of barely visible indentation damage in composite sandwich beams: Part II - Experimental verification and discussion
Minakuchi, Shu (author) / Okabe, Yoji (author) / Takeda, Nobuo (author)
Composites, Part A: Applied Science and Manufacturing ; 38 ; 2443-2450
2007
8 Seiten, 11 Bilder, 18 Quellen
Article (Journal)
English
Aluminiummatrix-Verbundwerkstoff , Druckspannung , mechanische Spannungsverteilung , Oberflächenschicht , Querrichtung , Sandwich-Bauweise , Schadensanalyse , Schadenslokalisierung , Scherspannung , Schlagbeanspruchung , Schlageindringtiefeprüfung , Simulationsmodell , theoretisches Modell , Theorie-Experiment-Vergleich , Träger (Bauwesen) , Wabenstrukturlaminat
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