%0 Generic %1 fauser2024direct %A Fauser, Dominik %A Rodríguez Agudo, José Alberto %A Steeb, Holger %D 2024 %K EXC2075 PN1-4 PN1 PN1-4(II) %R 10.18419/darus-3590 %T Direct and Indirect Measurement of Complex Poisson's Ratio - Indirect Measurement in Torsion and Tension %X This data set contains indirectly calculated complex Poisson's ratio by determining the complex Young's E* and complex shear modulus G* from torsion and tension measurements. The measurements were performed on cylindric polymethyl methacrylate (PMMA, EH-Design, Wörrstadt, Germany) samples with a diameter of d = 3 mm. Frequency measurements were performed with a rheometer (MCR 702, linear motor, Anton-Paar, Graz, Austria) in a angular frequency range of 0.628 rad/s to 188 rad/s with an axial strain of epsilon = 0.01 % and shear strain of gamma = 0.01 % at constant temperatures in the range of 15 to 105 °C. The Elastic Viscoelastic Correspondence Principle (EVCP) is applied to calculate the complex Poisson's ratio.

@misc{fauser2024direct, abstract = {This data set contains indirectly calculated complex Poisson's ratio by determining the complex Young's E* and complex shear modulus G* from torsion and tension measurements. The measurements were performed on cylindric polymethyl methacrylate (PMMA, EH-Design, Wörrstadt, Germany) samples with a diameter of d = 3 mm. Frequency measurements were performed with a rheometer (MCR 702, linear motor, Anton-Paar, Graz, Austria) in a angular frequency range of 0.628 rad/s to 188 rad/s with an axial strain of epsilon = 0.01 % and shear strain of gamma = 0.01 % at constant temperatures in the range of 15 to 105 °C. The Elastic Viscoelastic Correspondence Principle (EVCP) is applied to calculate the complex Poisson's ratio. }, added-at = {2025-02-07T16:54:27.000+0100}, affiliation = {Fauser, Dominik/University of Stuttgart, Institute of Applied Mechanics (CE), Rodríguez Agudo, José Alberto/Anton Paar Germany GmbH, Steeb, Holger/University of Stuttgart, Institute of Applied Mechanics (CE) & SC SimTech}, author = {Fauser, Dominik and Rodríguez Agudo, José Alberto and Steeb, Holger}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2f9b30508ea3914aa79fe1d69241c33d9/simtech}, doi = {10.18419/darus-3590}, howpublished = {Dataset}, interhash = {12d2e2effbd0d795f80f991795ba7686}, intrahash = {f9b30508ea3914aa79fe1d69241c33d9}, keywords = {EXC2075 PN1-4 PN1 PN1-4(II)}, note = {Related to: D. Fauser, J. Rodriguez, H. Madadi, J. Haeberle, J. Renner, H. Steeb. 2024. Complex Poisson’s Ratio for Viscoelastic Materials: Direct and IndirectMeasurement Methods and Their Correlation. To be submitted}, orcid-numbers = {Fauser, Dominik/0000-0001-7989-9159, Rodríguez Agudo, José Alberto/0000-0003-0025-6252, Steeb, Holger/0000-0001-7602-4920}, timestamp = {2025-02-07T16:54:27.000+0100}, title = {Direct and Indirect Measurement of Complex Poisson's Ratio - Indirect Measurement in Torsion and Tension}, year = 2024 }