A simplified approach to the damage tolerance design of asymmetric tapered laminates.  Part II: Methodology validation

G Allegri; MR Wisnom; SR Hallett

doi:10.1016/j.compositesa.2010.05.019

A simplified approach to the damage tolerance design of asymmetric tapered laminates. Part II: Methodology validation

G Allegri, MR Wisnom, SR Hallett

Research output: Contribution to journal › Article (Academic Journal) › peer-review

5 Citations (Scopus)

Abstract

An analytical approach for the computation of the energy release rates associated with ply drop-offs has been presented in Part I of this study; the methodology is based on the Euler–Bernoulli theory applied to layered beams, together with orthotropic rescaling. The analytical approach accounts for both thick and thin section delaminations, as well as for variable tapering angles. This paper presents the validation for the analytical methodology which has been developed in Part I. The validation is carried out via: (1) comparison with finite element solutions in terms of energy release rates versus delamination length; (2) prediction of delamination onset load in experimentally characterized tapered samples under combined tension and bending.

Translated title of the contribution	A simplified approach to the damage tolerance design of asymmetric tapered laminates. Part II: Methodology validation
Original language	English
Pages (from-to)	1395 - 1402
Number of pages	8
Journal	Composites Part A: Applied Science and Manufacturing
Volume	41
DOIs	https://doi.org/10.1016/j.compositesa.2010.05.019
Publication status	Published - 2010

Bibliographical note

Publisher: Elsevier Ltd
Other: In Press

Structured keywords

Composites UTC

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10.1016/j.compositesa.2010.05.019

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title = "A simplified approach to the damage tolerance design of asymmetric tapered laminates. Part II: Methodology validation",

abstract = "An analytical approach for the computation of the energy release rates associated with ply drop-offs has been presented in Part I of this study; the methodology is based on the Euler–Bernoulli theory applied to layered beams, together with orthotropic rescaling. The analytical approach accounts for both thick and thin section delaminations, as well as for variable tapering angles. This paper presents the validation for the analytical methodology which has been developed in Part I. The validation is carried out via: (1) comparison with finite element solutions in terms of energy release rates versus delamination length; (2) prediction of delamination onset load in experimentally characterized tapered samples under combined tension and bending.",

author = "G Allegri and MR Wisnom and SR Hallett",

note = "Publisher: Elsevier Ltd Other: In Press",

year = "2010",

doi = "10.1016/j.compositesa.2010.05.019",

language = "English",

volume = "41",

pages = "1395 -- 1402",

journal = "Composites Part A: Applied Science and Manufacturing",

publisher = "Elsevier Science",

}

TY - JOUR

T1 - A simplified approach to the damage tolerance design of asymmetric tapered laminates. Part II: Methodology validation

AU - Allegri, G

AU - Wisnom, MR

AU - Hallett, SR

N1 - Publisher: Elsevier Ltd Other: In Press

PY - 2010

Y1 - 2010

N2 - An analytical approach for the computation of the energy release rates associated with ply drop-offs has been presented in Part I of this study; the methodology is based on the Euler–Bernoulli theory applied to layered beams, together with orthotropic rescaling. The analytical approach accounts for both thick and thin section delaminations, as well as for variable tapering angles. This paper presents the validation for the analytical methodology which has been developed in Part I. The validation is carried out via: (1) comparison with finite element solutions in terms of energy release rates versus delamination length; (2) prediction of delamination onset load in experimentally characterized tapered samples under combined tension and bending.

AB - An analytical approach for the computation of the energy release rates associated with ply drop-offs has been presented in Part I of this study; the methodology is based on the Euler–Bernoulli theory applied to layered beams, together with orthotropic rescaling. The analytical approach accounts for both thick and thin section delaminations, as well as for variable tapering angles. This paper presents the validation for the analytical methodology which has been developed in Part I. The validation is carried out via: (1) comparison with finite element solutions in terms of energy release rates versus delamination length; (2) prediction of delamination onset load in experimentally characterized tapered samples under combined tension and bending.

U2 - 10.1016/j.compositesa.2010.05.019

DO - 10.1016/j.compositesa.2010.05.019

M3 - Article (Academic Journal)

VL - 41

SP - 1395

EP - 1402

JO - Composites Part A: Applied Science and Manufacturing

JF - Composites Part A: Applied Science and Manufacturing

ER -