On microstructure-property relationships derived by virtual materials testing with an emphasis on effective conductivity

Neumann, Matthias; Furat, Orkun; Hlushkou, Dzmitry; Tallarek, Ulrich; Holzer, Lorenz; Schmidt, Volker

doi:10.1007/978-3-319-96271-9_9

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DC Field	Value	Language
dc.contributor.author	Neumann, Matthias	-
dc.contributor.author	Furat, Orkun	-
dc.contributor.author	Hlushkou, Dzmitry	-
dc.contributor.author	Tallarek, Ulrich	-
dc.contributor.author	Holzer, Lorenz	-
dc.contributor.author	Schmidt, Volker	-
dc.date.accessioned	2019-03-01T13:27:20Z	-
dc.date.available	2019-03-01T13:27:20Z	-
dc.date.issued	2018	-
dc.identifier.isbn	978-3-319-96270-2	de_CH
dc.identifier.isbn	978-3-319-96271-9	de_CH
dc.identifier.issn	1865-0929	de_CH
dc.identifier.issn	1865-0937	de_CH
dc.identifier.uri	https://digitalcollection.zhaw.ch/handle/11475/15729	-
dc.description.abstract	Based on virtual materials testing, which combines image analysis, stochastic microstructure modeling and numerical simulations, quantitative relationships between microstructure characteristics and effective conductivity can be derived. The idea of virtual materials testing is to generate a large variety of stochastically simulated microstructures in short time. These virtual, but realistic microstructures are used as input for numerical transport simulations. Finally, a large data basis is available to study microstructure-property relationships quantitatively by classical regression analysis and tools from statistical learning. The microstructure-property relationships obtained for effective conductivity can also be applied to Fickian diffusion. For validation, we discuss an example of Fickian diffusion in porous silica monoliths on the basis of 3D image data.	de_CH
dc.language.iso	en	de_CH
dc.publisher	Springer	de_CH
dc.relation.ispartofseries	Communications in Computer and Information Science	de_CH
dc.rights	Licence according to publishing contract	de_CH
dc.subject.ddc	003: Systeme	de_CH
dc.subject.ddc	620.11: Werkstoffe	de_CH
dc.title	On microstructure-property relationships derived by virtual materials testing with an emphasis on effective conductivity	de_CH
dc.type	Konferenz: Paper	de_CH
dcterms.type	Text	de_CH
zhaw.departement	School of Engineering	de_CH
zhaw.organisationalunit	Institute of Computational Physics (ICP)	de_CH
zhaw.publisher.place	Cham	de_CH
dc.identifier.doi	10.1007/978-3-319-96271-9_9	de_CH
zhaw.conference.details	First International Workshop (SimScience 2017), Göttingen, Germany, 27-28 April 2017	de_CH
zhaw.funding.eu	No	de_CH
zhaw.originated.zhaw	Yes	de_CH
zhaw.pages.end	158	de_CH
zhaw.pages.start	145	de_CH
zhaw.publication.status	publishedVersion	de_CH
zhaw.series.number	889	de_CH
zhaw.publication.review	Peer review (Publikation)	de_CH
zhaw.title.proceedings	Simulation Science : First International Workshop, SimScience 2017, Göttingen, Germany, April 27–28, 2017 : Revised Selected Papers	de_CH
zhaw.funding.snf	NFP70 SOFC	de_CH
zhaw.webfeed	Microstructure analysis	de_CH
Appears in collections:	Publikationen School of Engineering

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Neumann, M., Furat, O., Hlushkou, D., Tallarek, U., Holzer, L., & Schmidt, V. (2018). On microstructure-property relationships derived by virtual materials testing with an emphasis on effective conductivity [Conference paper]. Simulation Science : First International Workshop, SimScience 2017, Göttingen, Germany, April 27–28, 2017 : Revised Selected Papers, 145–158. https://doi.org/10.1007/978-3-319-96271-9_9

Neumann, M. et al. (2018) ‘On microstructure-property relationships derived by virtual materials testing with an emphasis on effective conductivity’, in Simulation Science : First International Workshop, SimScience 2017, Göttingen, Germany, April 27–28, 2017 : Revised Selected Papers. Cham: Springer, pp. 145–158. Available at: https://doi.org/10.1007/978-3-319-96271-9_9.

M. Neumann, O. Furat, D. Hlushkou, U. Tallarek, L. Holzer, and V. Schmidt, “On microstructure-property relationships derived by virtual materials testing with an emphasis on effective conductivity,” in Simulation Science : First International Workshop, SimScience 2017, Göttingen, Germany, April 27–28, 2017 : Revised Selected Papers, 2018, pp. 145–158. doi: 10.1007/978-3-319-96271-9_9.

NEUMANN, Matthias, Orkun FURAT, Dzmitry HLUSHKOU, Ulrich TALLAREK, Lorenz HOLZER und Volker SCHMIDT, 2018. On microstructure-property relationships derived by virtual materials testing with an emphasis on effective conductivity. In: Simulation Science : First International Workshop, SimScience 2017, Göttingen, Germany, April 27–28, 2017 : Revised Selected Papers. Conference paper. Cham: Springer. 2018. S. 145–158. ISBN 978-3-319-96270-2

Neumann, Matthias, Orkun Furat, Dzmitry Hlushkou, Ulrich Tallarek, Lorenz Holzer, and Volker Schmidt. 2018. “On Microstructure-Property Relationships Derived by Virtual Materials Testing with an Emphasis on Effective Conductivity.” Conference paper. In Simulation Science : First International Workshop, SimScience 2017, Göttingen, Germany, April 27–28, 2017 : Revised Selected Papers, 145–58. Cham: Springer. https://doi.org/10.1007/978-3-319-96271-9_9.

Neumann, Matthias, et al. “On Microstructure-Property Relationships Derived by Virtual Materials Testing with an Emphasis on Effective Conductivity.” Simulation Science : First International Workshop, SimScience 2017, Göttingen, Germany, April 27–28, 2017 : Revised Selected Papers, Springer, 2018, pp. 145–58, https://doi.org/10.1007/978-3-319-96271-9_9.