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Alexander Paolini
Researcher at Technische Universität München
Publications - 8
Citations - 333
Alexander Paolini is an academic researcher from Technische Universität München. The author has contributed to research in topics: Finite element method & Mortar. The author has an hindex of 2, co-authored 6 publications receiving 140 citations.
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Additive manufacturing in construction: A review on processes, applications, and digital planning methods
TL;DR: The application of additive manufacturing (AM) in construction has been increasingly studied in recent years as mentioned in this paper, and large robotic arm-and gantry-systems have been created to print building parts using aggregate-based materials, metals, or polymers.
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A high-order finite element model for vibration analysis of cross-laminated timber assemblies:
Alexander Paolini,Stefan Kollmannsberger,C. Winter,Martin Buchschmid,Gerhard Müller,Andreas Rabold,S. Mecking,U. Schanda,Ernst Rank +8 more
TL;DR: A model for cross-laminated timber assemblies made of volumetric high-order finite elements is presented, and suitable ranges for the stiffness parameters of the finite elements which represent the junctions are identified.
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BIM gestützte strukturdynamische Analyse mit Volumenelementen höherer Ordnung/BIM-based structural dynamic analysis using higher-order volumetric finite elements
Alexander Paolini,Felix Frischmann,Stefan Kollmannsberger,Andreas Rabold,Thomas Horger,Barbara Wohlmuth,Ernst Rank +6 more
TL;DR: Building Information Modeling ermoglicht die automatisierte Erstellung von Simulationsmodellen and schafft somit eine wichtige Grundlage, Zeit und Kosten einzusparen sowie die Qualitat der Planung von Gebauden zu erhohen as mentioned in this paper.
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A mortar formulation including viscoelastic layers for vibration analysis
TL;DR: In this article, the authors extended this mortar formulation to take damping into account such that frequency response analyses can be performed more accurately, and the proposed method is verified by numerical examples.
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Multiscale Analysis of High Damping Composites Using the Finite Cell and the Mortar Method
TL;DR: A metal lattice structure filled with a damping material such as polymer can exhibit high stiffness and good damping properties as discussed by the authors, and mechanical simulations of parts made from these composites can howeve...