Antiplane Deformations for Anisotropic Multilayered Media by Using the Coordinate Transform Method

Lin, Ru-Li; Ma, Chien‐Ching

doi:10.1115/1.1311273

Cited by 15 publications

(7 citation statements)

References 20 publications

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“…In practice, such combinations permit to cover the range in which the joints, actually used in aeronautical/aerospace and nautical field, fall. The above exposed theoretical approach has shown that such joints are in general characterized by two singularity orders in the plane xy (in-plane singularities x 1,i and x 2,i , i = A, B) and one singularity order out of plane xy (anti-plane singularity x 3,i , i = A, B) [16,21].…”

Section: Theoretical Analysismentioning

confidence: 99%

Toward a design method for metal-composite co-cured joints based on the G-SIFs

Russo

Zuccarello

2013

Composites Part B: Engineering

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In this work, a systematic study of the singular stress field in the zone where the interface intersects the free edge surfaces of bonded metal-composite co-cured joints, has been performed. The obtained theoretical, numerical and experimental results have permitted to detect the relationships between the joint configuration and the singular stress field, as well as to implement a new design method based on the so called generalised stress intensity factors. Such a proposed method allows the user to predict the static strength of a generic metal-composite co-cured joint, vs. the main influence parameters as the elastic modulus of the coupled materials, the overlap length, the taper angle, the imbalance, etc. The accuracy of the theoretical and numerical analyses performed in the present study, as well as the reliability of the strength predictions provided by the proposed method, have been tested by means of experimental assessments carried out by using aluminum-GFRP and aluminum-CFRP co-cured double lap joints.

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Section: Theoretical Analysismentioning

confidence: 99%

Toward a design method for metal-composite co-cured joints based on the G-SIFs

Russo

Zuccarello

2013

Composites Part B: Engineering

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“…Kuo (1992), Ma (1996), and Lin and Ma (2000), to solve the complicated problem of the anisotropic layered medium, a modified linear coordinate transformation (Ing and Chuang, 2004) is introduced as follows for: y≥0…”

Section: A Modified Linear Coordinate Transformationmentioning

confidence: 99%

Transient stress intensity factors of an anti‐plane crack propagating in anisotropic layered media

Ing¹,

Chuang

2005

Journal of the Chinese Institute of Engineers

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The transient analysis of dynamic anti-plane propagation in an anisotropic layered medium is investigated in this study. The complete effects of reflections and diffractions of stress waves that are generated from the interfaces of the anisotropic layered medium and the crack are considered. A modified linear coordinate transformation is introduced and it is successful in reducing the anisotropic layered medium problem to an equivalent isotropic problem with a similar geometry configuration. Besides, a useful fundamental solution is proposed and the solution can be determined by superposition of the fundamental solution in the Laplace transform domain. The influence of the reflected waves generated from interface boundaries on the propagating crack tip is analyzed. Analytical transient solutions for dynamic stress intensity factors of the propagating crack are expressed in compact formulations and are valid for an infinite length of time. Numerical results indicate that the reflected waves have significant influence on the stress intensity factors of propagating cracks.

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“…In other words, the anisotropic anti-plane problem can be simpliÿed to an isotropic problem with the aid of a suitable coordinate transformation. By using a linear coordinate transformation, the complete full-ÿeld static solutions of anisotropic multilayered media subjected to concentrated shear forces and screw dislocations in an arbitrary layer were obtained by Lin and Ma (2000).…”

Section: A Linear Coordinate Transformation and Fundamental Solutionsmentioning

confidence: 99%

Antiplane Deformations for Anisotropic Multilayered Media by Using the Coordinate Transform Method

Cited by 15 publications

References 20 publications

Toward a design method for metal-composite co-cured joints based on the G-SIFs

Toward a design method for metal-composite co-cured joints based on the G-SIFs

Transient stress intensity factors of an anti‐plane crack propagating in anisotropic layered media

Dynamic fracture analysis of finite cracks by horizontally polarized shear waves in anisotropic solids

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