2021
DOI: 10.1007/978-3-030-91352-6_15
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On the Snappability and Singularity-Distance of Frameworks with Bars and Triangular Plates

Abstract: In a recent article the author presented a method to measure the snapping capability -shortly called snappability -of bar-joint frameworks based on the total elastic strain energy by computing the deformation of all bars using Hooke's law and the definition of Cauchy/Engineering strain. Within the paper at hand, we extend this approach to isostatic frameworks composed of bars and triangular plates by using the physical concept of Green-Lagrange strain. An intrinsic pseudometric based on the resulting total ela… Show more

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Cited by 4 publications
(9 citation statements)
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“…This is in accordance with known results on snapping frameworks (cf. [29,30]). The shaky pose R s can be used to compute the snappability of these structures (see Section 5.2.1).…”
Section: On Self-intersection Free Realizationsmentioning
confidence: 99%
See 3 more Smart Citations
“…This is in accordance with known results on snapping frameworks (cf. [29,30]). The shaky pose R s can be used to compute the snappability of these structures (see Section 5.2.1).…”
Section: On Self-intersection Free Realizationsmentioning
confidence: 99%
“…Within the paper we use the analytic approach of the so-called snappability [29,30], which measures the snapping capability of the structure and is based on the following property: The snap between two realizations R + and R − has to pass a shaky configuration R s at the maximum state of deformation with respect to the total elastic strain energy (using the concept of Green-Lagrange stain), which is used to evaluate the snappability. For the triangulated cone the mentioned energy can be computed for two different interpretations; namely as bar-joint structure or as panel-hinge structure.…”
Section: Snappability Computation For Triangulated Conesmentioning
confidence: 99%
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“…Terminology and notations used for 3-RPR manipulator as frameworks. According to [13], a configuration of a 3-RPR robot can be considered as a planar isostatic framework in the Euclidean plane 𝔼 2 . In this representation, the legs are modeled as bars (|) and the platform/base either as a triangular plate (▴) or a pin-jointed triangular bar structure (▵).…”
mentioning
confidence: 99%