Robert Mangan
National University of Ireland, Galway
7 Papers
11 Citations
Robert Mangan is an academic researcher from National University of Ireland, Galway. The author has contributed to research in topics: Hyperelastic material & Simple shear. The author has an hindex of 5, co-authored 7 publications.
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Papers
Gent models for the inflation of spherical balloons
TL;DR: In this paper, Mooney and Gent-Gent phenomenological models were used to explain the stretch-strain curve of a typical inflation of a rubber spherical thin shell, and the performance of both models on fitting the data for experiments on rubber balloons and animal bladder.
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Guided waves in pre-stressed hyperelastic plates and tubes: Application to the ultrasound elastography of thin-walled soft materials
Guo-Yang Li,Qiong He,Robert Mangan,Guoqiang Xu,Chi Mo,Jianwen Luo,Michel Destrade,Yanping Cao +7 more
TL;DR: In this paper, the authors acknowledge support from the National Natural Science Foundation of China (NNF), the Irish Research Council (IRC), and the National Institute of Technology of Ireland (NIT).
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Strain energy function for isotropic non-linear elastic incompressible solids with linear finite strain response in shear and torsion
TL;DR: The authors gratefully acknowledges the funding of his PhD by a scholarship from the Irish Research Council and the research of GS is partially funded by GNFM of Istituto Nazionale di Alta Matematica.
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Wrinkles and creases in the bending, unbending and eversion of soft sectors.
TL;DR: This work studies what is clearly one of the most common modes of deformation found in nature, science and engineering, namely the large elastic bending of curved structures as well as its inverse, unbending, which can be brought beyond complete straightening to turn into eversion.
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Strain energy function for isotropic non-linear elastic incompressible solids with linear finite strain response in shear and torsion
TL;DR: In this paper, the strain energy function for isotropic incompressible solids exhibiting a linear relationship between shear stress and amount of shear, and between torque and torque, when subject to large simple shear or torsion deformations.
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