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oapen-20.500.12657-753582023-08-15T02:25:58Z Tortuosity and Microstructure Effects in Porous Media Holzer, Lorenz Marmet, Philip Fingerle, Mathias Wiegmann, Andreas Neumann, Matthias Schmidt, Volker Tortuosity of Materials Effective Transport Properties of Porous Media Microstructure-Property Relationships Digital Materials Design Simulation of Transport Properties Integrated Computational Materials Engineering Virtual Materials Testing Engineered Porous Materials Tortuosity-Porosity Relationships Diffusion in Porous Materials 3D Imaging X-Ray Tomography for Materials bic Book Industry Communication::P Mathematics & science::PN Chemistry bic Book Industry Communication::T Technology, engineering, agriculture::TG Mechanical engineering & materials::TGM Materials science bic Book Industry Communication::P Mathematics & science::PH Physics::PHU Mathematical physics bic Book Industry Communication::T Technology, engineering, agriculture::TG Mechanical engineering & materials::TGM Materials science::TGMB Engineering thermodynamics This open access book presents a thorough look at tortuosity and microstructure effects in porous materials. The book delivers a comprehensive review of the subject, summarizing all key results in the field with respect to the underlying theories, empirical data available in the literature, modern methodologies and calculation approaches, and quantitative relationships between microscopic and macroscopic properties. It thoroughly discusses up to 20 different types of tortuosity and introduces a new classification scheme and nomenclature based on direct geometric tortuosities, indirect physics-based tortuosities, and mixed tortuosities (geometric and physics-based). The book also covers recent progress in 3D imaging and image modeling for studying novel aspects of tortuosity and associated transport properties in materials, while providing a comprehensive list of available software packages for practitioners in the community. This book is a must-read for researchers and students in materials science and engineering interested in a deeper understanding of microstructure–property relationships in porous materials. For energy materials in particular, such as lithium-ion batteries, tortuosity is a key microstructural parameter that can greatly impact long-term material performance. Thus, the information laid out in this book will also greatly benefit researchers interested in computational modeling and design of next-generation materials, especially those for sustainability and energy applications. 2023-08-14T15:53:28Z 2023-08-14T15:53:28Z 2023 book ONIX_20230814_9783031304774_2 9783031304774 9783031304767 https://library.oapen.org/handle/20.500.12657/75358 eng Springer Series in Materials Science application/pdf n/a 978-3-031-30477-4.pdf https://link.springer.com/978-3-031-30477-4 Springer Nature Springer International Publishing 10.1007/978-3-031-30477-4 10.1007/978-3-031-30477-4 6c6992af-b843-4f46-859c-f6e9998e40d5 07f61e34-5b96-49f0-9860-c87dd8228f26 9783031304774 9783031304767 Swiss National Science Foundation (SNF) Springer International Publishing 333 190 Cham [...] Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung Swiss National Science Foundation open access
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This open access book presents a thorough look at tortuosity and microstructure effects in porous materials. The book delivers a comprehensive review of the subject, summarizing all key results in the field with respect to the underlying theories, empirical data available in the literature, modern methodologies and calculation approaches, and quantitative relationships between microscopic and macroscopic properties. It thoroughly discusses up to 20 different types of tortuosity and introduces a new classification scheme and nomenclature based on direct geometric tortuosities, indirect physics-based tortuosities, and mixed tortuosities (geometric and physics-based). The book also covers recent progress in 3D imaging and image modeling for studying novel aspects of tortuosity and associated transport properties in materials, while providing a comprehensive list of available software packages for practitioners in the community. This book is a must-read for researchers and students in materials science and engineering interested in a deeper understanding of microstructure–property relationships in porous materials. For energy materials in particular, such as lithium-ion batteries, tortuosity is a key microstructural parameter that can greatly impact long-term material performance. Thus, the information laid out in this book will also greatly benefit researchers interested in computational modeling and design of next-generation materials, especially those for sustainability and energy applications.
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