TY - JOUR
T1 - Parametric study of crushing parameters and failure patterns of pultruded composite tubes using cohesive elements and seam, Part I
T2 - Central delamination and triggering modelling
AU - Palanivelu, Sivakumar
AU - Van Paepegem, Wim
AU - Degrieck, Joris
AU - Kakogiannis, Dimitrios
AU - Van Ackeren, Johan
AU - Van Hemelrijck, Danny
AU - Wastiels, Jan
AU - Vantomme, John
PY - 2010/9
Y1 - 2010/9
N2 - Typically, most brittle composite tubes exhibit circumferential delamination, lamina bending, axial cracking and brittle fracture when subjected to static and dynamic loading conditions. In this work, a new innovative approach was adopted to model the above said failure modes using cohesive elements in an axial impact loading case. Circular and square cross sectional pultruded profiles made of glass-polyester were considered for the study. A numerical parametric study has been conducted to study the effect of the delamination on the failure patterns and the corresponding energy absorption using single layer and two layer shell elements. To predict the peak crushing load and the energy absorption, the importance of adequate numerical modelling of triggering is discussed. All numerical simulations were carried out using the commercially available finite element code ABAQUS V6.7-3 Explicit. Finally, the results of this comprehensive numerical investigation are compared with previously published experimental results [1]. Part II of this paper deals with the influence of multiple delaminations and modelling of axial cracks on the deformation patterns and the effect of initial geometric imperfections on the energy absorption.
AB - Typically, most brittle composite tubes exhibit circumferential delamination, lamina bending, axial cracking and brittle fracture when subjected to static and dynamic loading conditions. In this work, a new innovative approach was adopted to model the above said failure modes using cohesive elements in an axial impact loading case. Circular and square cross sectional pultruded profiles made of glass-polyester were considered for the study. A numerical parametric study has been conducted to study the effect of the delamination on the failure patterns and the corresponding energy absorption using single layer and two layer shell elements. To predict the peak crushing load and the energy absorption, the importance of adequate numerical modelling of triggering is discussed. All numerical simulations were carried out using the commercially available finite element code ABAQUS V6.7-3 Explicit. Finally, the results of this comprehensive numerical investigation are compared with previously published experimental results [1]. Part II of this paper deals with the influence of multiple delaminations and modelling of axial cracks on the deformation patterns and the effect of initial geometric imperfections on the energy absorption.
KW - Cohesive element
KW - Composite tubes
KW - Delamination
KW - Energy absorption
KW - Peak crushing load
KW - Triggering mechanism
UR - http://www.scopus.com/inward/record.url?scp=77954507655&partnerID=8YFLogxK
U2 - 10.1016/j.polymertesting.2010.05.010
DO - 10.1016/j.polymertesting.2010.05.010
M3 - Article
AN - SCOPUS:77954507655
SN - 0142-9418
VL - 29
SP - 729
EP - 741
JO - Polymer Testing
JF - Polymer Testing
IS - 6
ER -