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Influence of the Sperm Velocity on Fertilization Capacity in the Oscillatory Model of Mouse Zona Pellucida Read chapter Read first chapter

2020 | OriginalPaper | Chapter

Experimental Investigations of 3D-Deformations in Additively Manufactured Pantographic Structures

Authors : Gregor Ganzosch, Emilio Barchiesi, Rafal Drobnicki, Aron Pfaff, Wolfgang H. Müller

Published in: Advanced Problems in Mechanics

Publisher: Springer International Publishing

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Abstract

In the recent past new experimental techniques have been developed with the objective of linking generalized continuum theories with technology. So-called pantographic structures, which can be characterized as a meta-material, will be presented and investigated experimentally: Samples of different materials and dimensions are subjected to large deformation loading tests (tensile, shearing, and torsion) up to rupture, while their response to loading is recorded by an optical measurement system. 3D-digital image correlation is used to quantify the deformation.
Results show that the deformation behavior is strongly non-linear and that the structures are capable of performing large (elastic) deformations without complete failure. This extraordinary behavior makes pantographic structures very attractive as engineering material in technical applications for lightweight applications and in the medical industry.

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previous chapter Modeling of the Superelastic Behavior of CuAlNi - Single Crystals Accounting Anisotropy of Elastic Properties
next chapter Fatigue Reliability of Structures: Methodology of Assessment and Problems
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Metadata
Title
Experimental Investigations of 3D-Deformations in Additively Manufactured Pantographic Structures
Authors
Gregor Ganzosch
Emilio Barchiesi
Rafal Drobnicki
Aron Pfaff
Wolfgang H. Müller
Copyright Year
2020
Book
Advanced Problems in Mechanics

Print ISBN: 978-3-030-49881-8

Electronic ISBN: 978-3-030-49882-5

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-3-030-49882-5_11

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