Calculation and 3D analyses of ERR in the band crack front contained in a rectangular plate made of multilayered material

Calculation and 3D analyses of ERR in the band crack front contained in a rectangular plate made... AbstractAn investigation into the values of the Energy Release Rate (ERR) at the band crack’s front in the rectangular plate made of multilayered composite material is carried out for the opening mode. The corresponding boundary-value problem is modelled by using threedimensional linear theory and solved numerically by using 3D FEM (Three Dimensional Finite Element Method). The main purpose of the current investigation is to study the influence of mechanical and geometrical parameters on the Energy Release Rate (ERR) at this crack front. The numerical results related to the ERR, and the effect of the mechanical and other problem parameters on the ERR are presented and discussed. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Open Chemistry de Gruyter

Calculation and 3D analyses of ERR in the band crack front contained in a rectangular plate made of multilayered material

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Publisher
De Gruyter
Copyright
© 2018 Arzu Turan Dincel, Surkay D. Akbarov, published by De Gruyter
ISSN
2391-5420
eISSN
2391-5420
D.O.I.
10.1515/chem-2018-0057
Publisher site
See Article on Publisher Site

Abstract

AbstractAn investigation into the values of the Energy Release Rate (ERR) at the band crack’s front in the rectangular plate made of multilayered composite material is carried out for the opening mode. The corresponding boundary-value problem is modelled by using threedimensional linear theory and solved numerically by using 3D FEM (Three Dimensional Finite Element Method). The main purpose of the current investigation is to study the influence of mechanical and geometrical parameters on the Energy Release Rate (ERR) at this crack front. The numerical results related to the ERR, and the effect of the mechanical and other problem parameters on the ERR are presented and discussed.

Journal

Open Chemistryde Gruyter

Published: May 31, 2018

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