Search Results - "D'Angella, Davide"

Synergizing Algorithmic Design, Photoclick Chemistry and Multi-Material Volumetric Printing for Accelerating Complex Shape Engineering by Chansoria, Parth, Rütsche, Dominic, Wang, Anny, Liu, Hao, D'Angella, Davide, Rizzo, Riccardo, Hasenauer, Amelia, Weber, Patrick, Qiu, Wanwan, Ibrahim, Nafeesah Bte Mohamed, Korshunova, Nina, Qin, Xiao-Hua, Zenobi-Wong, Marcy

“…The field of biomedical design and manufacturing has been rapidly evolving, with implants and grafts featuring complex 3D design constraints and materials…”
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Efficient extraction of hierarchical B-Splines for local refinement and coarsening of Isogeometric Analysis by D’Angella, Davide, Reali, Alessandro

“…The main motivation for hierarchical B-Splines in Isogeometric Analysis is to perform a local refinement that is globally not a tensor product. Compared to…”
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Multi-level Bézier extraction for hierarchical local refinement of Isogeometric Analysis by D’Angella, Davide, Kollmannsberger, Stefan, Rank, Ernst, Reali, Alessandro

“…One of the main topics of research on Isogeometric Analysis is local refinement. Among the various techniques currently studied and developed, one of the most…”
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Hierarchically refined isogeometric analysis of trimmed shells by Coradello, Luca, D’Angella, Davide, Carraturo, Massimo, Kiendl, Josef, Kollmannsberger, Stefan, Rank, Ernst, Reali, Alessandro

“…This work focuses on the study of several computational challenges arising when trimmed surfaces are directly employed for the isogeometric analysis of…”
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A Selection of Benchmark Problems in Solid Mechanics and Applied Mathematics by Schröder, Jörg, Wick, Thomas, Reese, Stefanie, Wriggers, Peter, Müller, Ralf, Kollmannsberger, Stefan, Kästner, Markus, Schwarz, Alexander, Igelbüscher, Maximilian, Viebahn, Nils, Bayat, Hamid Reza, Wulfinghoff, Stephan, Mang, Katrin, Rank, Ernst, Bog, Tino, D’Angella, Davide, Elhaddad, Mohamed, Hennig, Paul, Düster, Alexander, Garhuom, Wadhah, Hubrich, Simeon, Walloth, Mirjam, Wollner, Winnifried, Kuhn, Charlotte, Heister, Timo

“…In this contribution we provide benchmark problems in the field of computational solid mechanics. In detail, we address classical fields as elasticity,…”
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Biofabricated soft network composites for cartilage tissue engineering by Bas, Onur, De-Juan-Pardo, Elena M, Meinert, Christoph, D'Angella, Davide, Baldwin, Jeremy G, Bray, Laura J, Wellard, R Mark, Kollmannsberger, Stefan, Rank, Ernst, Werner, Carsten, Klein, Travis J, Catelas, Isabelle, Hutmacher, Dietmar W

“…Articular cartilage from a material science point of view is a soft network composite that plays a critical role in load-bearing joints during dynamic loading…”
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Rational design and fabrication of multiphasic soft network composites for tissue engineering articular cartilage: A numerical model-based approach by Bas, Onur, Lucarotti, Sara, Angella, Davide D., Castro, Nathan J., Meinert, Christoph, Wunner, Felix M., Rank, Ernst, Vozzi, Giovanni, Klein, Travis J., Catelas, Isabelle, De-Juan-Pardo, Elena M., Hutmacher, Dietmar W.

“…•Composites consisting of a hydrogel matrix and 3D printed microfibers are developed.•An in silico design library based on a numerical model is presented.•The…”
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An Integrated Design, Material, and Fabrication Platform for Engineering Biomechanically and Biologically Functional Soft Tissues by Bas, Onur, D’Angella, Davide, Baldwin, Jeremy G, Castro, Nathan J, Wunner, Felix M, Saidy, Navid T, Kollmannsberger, Stefan, Reali, Alessandro, Rank, Ernst, De-Juan-Pardo, Elena M, Hutmacher, Dietmar W

“…We present a design rationale for stretchable soft network composites for engineering tissues that predominantly function under high tensile loads. The…”
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An accurate strategy for computing reaction forces and fluxes on trimmed locally refined meshes by D’Angella, Davide, Kollmannsberger, Stefan, Reali, Alessandro, Rank, Ernst, Hughes, Thomas J R

“…Abstract The finite element method is classically based on nodal Lagrange basis functions defined on conforming meshes. In this context, total reaction forces…”
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Spline‐ and hp‐basis functions of higher differentiability in the finite cell method by Kollmannsberger, Stefan, D'Angella, Davide, Rank, Ernst, Garhuom, Wadhah, Hubrich, Simeon, Düster, Alexander, Stolfo, Paolo Di, Schröder, Andreas

“…In this paper, the use of hp‐basis functions with higher differentiability properties is discussed in the context of the finite cell method and numerical…”
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Multi-level hp-adaptivity and explicit error estimation by D’Angella, Davide, Zander, Nils, Kollmannsberger, Stefan, Frischmann, Felix, Rank, Ernst, Schröder, Andreas, Reali, Alessandro

“…Recently, a multi-level hp -version of the finite element method (FEM) was proposed to ease the difficulties of treating hanging nodes, while providing full hp…”
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Robust and parallel scalable iterative solutions for large-scale finite cell analyses by Jomo, John N, de Prenter, Frits, Elhaddad, Mohamed, D'Angella, Davide, Verhoosel, Clemens V, Kollmannsberger, Stefan, Kirschke, Jan S, Nübel, Vera, van Brummelen, Harald, Rank, Ernst

“…The finite cell method is a highly flexible discretization technique for numerical analysis on domains with complex geometries. By using a non-boundary…”
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