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pro vyhledávání: '"A.R. Damanpack"'
Akademický článek
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Autor:
Mahdi Bodaghi, A.R. Damanpack
Publikováno v:
Damanpack, AR & Bodaghi, M 2021, ' Large-Deformation Instability Behaviors of 3D Beams Supported with 3D Hinge Joints Subjected to Axial and Torsional Loadings ', Acta Mechanica, vol. 232, no. 8, pp. 2973-2989 . https://doi.org/10.1007/s00707-021-02977-8
In this paper, an instability analysis of three-dimensional (3D) beams supported with 3D hinges under axial and torsional loadings is presented in the large displacement and rotation regime. An exact displacement field is proposed based on the centra
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::b465b03dd2d48facee5e57ef005650a2
https://findresearcher.sdu.dk:8443/ws/files/181455060/Large_Deformation_Instability_Behaviors_of_3D_Beams_Supported.pdf
https://findresearcher.sdu.dk:8443/ws/files/181455060/Large_Deformation_Instability_Behaviors_of_3D_Beams_Supported.pdf
Publikováno v:
Damanpack, A R, Rangel de Sousa, A & Bodaghi, M 2021, ' Porous plas with controllable density by fdm 3d printing and chemical foaming agent ', Micromachines, vol. 12, no. 8, 866 . https://doi.org/10.3390/mi12080866
Micromachines, Vol 12, Iss 866, p 866 (2021)
Micromachines
Volume 12
Issue 8
Micromachines, Vol 12, Iss 866, p 866 (2021)
Micromachines
Volume 12
Issue 8
This paper shows how fused decomposition modeling (FDM), as a three-dimensional (3D) printing technology, can engineer lightweight porous foams with controllable density. The tactic is based on the 3D printing of Poly Lactic Acid filaments with a che
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::a723b563782f81f7e41ac3f87faedaba
https://findresearcher.sdu.dk:8443/ws/files/185095663/micromachines_12_00866_v2.pdf
https://findresearcher.sdu.dk:8443/ws/files/185095663/micromachines_12_00866_v2.pdf
Publikováno v:
International Journal of Non-Linear Mechanics. 108:87-110
This work deals with mechanical analysis of hyper-elastic lattices in the finite-strain range through multi-scale simulations and experimental testing. It describes designing appropriate unit cells (UCs) and mode-shapes to accurately predict mechanic
Publikováno v:
Damanpack, A R, Bodaghi, M & Liao, W H 2020, ' Contact/impact modeling and analysis of 4D printed shape memory polymer beams ', Smart Materials and Structures, vol. 29, no. 8, 085016 . https://doi.org/10.1088/1361-665X/ab883a
This study examines contact and impact behaviors of shape memory polymer (SMP) beams fabricated by four-dimensional (4D) printing technology. A 3D phenomenological constitutive model is developed to predict visco-elastic-plastic characteristics of SM
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::a3412988fbb4f6cfe1ad653f6d533da0
https://irep.ntu.ac.uk/id/eprint/39684/1/1315984_Bodaghi.pdf
https://irep.ntu.ac.uk/id/eprint/39684/1/1315984_Bodaghi.pdf
Publikováno v:
International Journal of Solids and Structures. 146:29-42
The aim of this article is to model and analyze the buckling behaviors of NiTi-based moderately thick shape memory alloy (SMA) tubes with short, intermediate and long lengths. A robust three-dimensional constitutive model is implemented so that it is
Akademický článek
Tento výsledek nelze pro nepřihlášené uživatele zobrazit.
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Publikováno v:
Materials & Design, Vol 135, Iss, Pp 26-36 (2017)
This paper shows how fused decomposition modeling (FDM) as a three-dimensional (3D) printing technology can engineer adaptive metamaterials with performance-driven functionality built directly into materials. The tactic is based on an understanding o
Publikováno v:
International Journal of Non-Linear Mechanics. 95:287-295
In this paper, a simple and robust constitutive model is proposed to simulate mechanical behaviors of hyper-elastic materials under bi-axial normal-shear loadings in the finite strain regime. The Mooney–Rivlin strain energy function is adopted to d
Publikováno v:
Materials & Design, Vol 131, Iss, Pp 81-91 (2017)
The aim of this paper is to explore large-deformation responses of hyper-elastic porous metamaterials made by three-dimensional (3D) printing technology. They are designed as a repeating arrangement of unit-cells in parallelogram and hexagonal shapes