How can branched building structures be optimized via analyzing plant branchings? Functional morphology, biomechanics and Finite Element (FE) simulation of Araliaceae ramifications
%0 Conference Paper
%1 bunk2017branched
%A Bunk, Katharina
%A Seitz, J. M.
%A Jonas, Florian
%A Knippers, Jan
%A Speck, Thomas
%A Masselter, Tom
%B Bionik: Patente aus der Natur. Tagungsbeiträge 8. Bionik-Kongress Bremen
%C Bremen, Germany
%D 2017
%E Kesel,
%E Zehren,
%K 2017 Araliaceae analyzing biomechanics biomimetic branched branching building bunk element fe finite functional itke knippers masselter morphology optimized plant ramfication seitzjonas simulation speck structure
%P 40-48
%T How can branched building structures be optimized via analyzing plant branchings? Functional morphology, biomechanics and Finite Element (FE) simulation of Araliaceae ramifications
@inproceedings{bunk2017branched,
added-at = {2020-05-20T09:31:32.000+0200},
address = {Bremen, Germany},
author = {Bunk, Katharina and Seitz, J. M. and Jonas, Florian and Knippers, Jan and Speck, Thomas and Masselter, Tom},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2c39331fdae1a693ff4647ffd7940a308/petraheim},
booktitle = {Bionik: Patente aus der Natur. Tagungsbeiträge 8. Bionik-Kongress Bremen},
editor = {Kesel and Zehren},
interhash = {3c46fc8a5bfbe2c159923e43f6a236b8},
intrahash = {c39331fdae1a693ff4647ffd7940a308},
keywords = {2017 Araliaceae analyzing biomechanics biomimetic branched branching building bunk element fe finite functional itke knippers masselter morphology optimized plant ramfication seitzjonas simulation speck structure},
language = {eng},
organization = {Hochschule Bremen},
pages = {40-48},
timestamp = {2020-06-02T10:07:21.000+0200},
title = {How can branched building structures be optimized via analyzing plant branchings? Functional morphology, biomechanics and Finite Element (FE) simulation of Araliaceae ramifications},
year = 2017
}
