{"year":"2007","user_id":"220548","citation":{"ama":"Hoppe RHW, Petrova S. Adaptive refinement techniques in homogenization design method. In: Glowinski R, Zolesio J-P, eds. Free and Moving Boundaries Analysis, Simulation and Control. Vol 252. Chapman & Hall/CRC; 2007:349-362.","mla":"Hoppe, Ronald H. W., and Svetozara Petrova. “Adaptive Refinement Techniques in Homogenization Design Method.” Free and Moving Boundaries Analysis, Simulation and Control, edited by Roland Glowinski and Jean-Paul Zolesio, vol. 252, Chapman & Hall/CRC, 2007, pp. 349–62.","bibtex":"@inbook{Hoppe_Petrova_2007, title={Adaptive refinement techniques in homogenization design method}, volume={252}, booktitle={Free and Moving Boundaries Analysis, Simulation and Control}, publisher={Chapman & Hall/CRC}, author={Hoppe, Ronald H.W. and Petrova, Svetozara}, editor={Glowinski, Roland and Zolesio, Jean-Paul Editors}, year={2007}, pages={349–362} }","alphadin":"Hoppe, Ronald H.W. ; Petrova, Svetozara: Adaptive refinement techniques in homogenization design method. In: Glowinski, R. ; Zolesio, J.-P. (Hrsg.): Free and Moving Boundaries Analysis, Simulation and Control. Bd. 252 : Chapman & Hall/CRC, 2007, S. 349–362","short":"R.H.W. Hoppe, S. Petrova, in: R. Glowinski, J.-P. Zolesio (Eds.), Free and Moving Boundaries Analysis, Simulation and Control, Chapman & Hall/CRC, 2007, pp. 349–362.","ieee":"R. H. W. Hoppe and S. Petrova, “Adaptive refinement techniques in homogenization design method,” in Free and Moving Boundaries Analysis, Simulation and Control, vol. 252, R. Glowinski and J.-P. Zolesio, Eds. Chapman & Hall/CRC, 2007, pp. 349–362.","chicago":"Hoppe, Ronald H.W., and Svetozara Petrova. “Adaptive Refinement Techniques in Homogenization Design Method.” In Free and Moving Boundaries Analysis, Simulation and Control, edited by Roland Glowinski and Jean-Paul Zolesio, 252:349–62. Chapman & Hall/CRC, 2007.","apa":"Hoppe, R. H. W., & Petrova, S. (2007). Adaptive refinement techniques in homogenization design method. In R. Glowinski & J.-P. Zolesio (Eds.), Free and Moving Boundaries Analysis, Simulation and Control (Vol. 252, pp. 349–362). Chapman & Hall/CRC."},"publication":"Free and Moving Boundaries Analysis, Simulation and Control","project":[{"name":"Institute for Data Science Solutions","_id":"f432a2ee-bceb-11ed-a251-a83585c5074d"}],"title":"Adaptive refinement techniques in homogenization design method","date_created":"2024-05-29T09:17:25Z","status":"public","_id":"4613","author":[{"last_name":"Hoppe","full_name":"Hoppe, Ronald H.W.","first_name":"Ronald H.W."},{"id":"201871","first_name":"Svetozara","last_name":"Petrova","full_name":"Petrova, Svetozara"}],"publisher":"Chapman & Hall/CRC","editor":[{"first_name":"Roland ","last_name":"Glowinski","full_name":"Glowinski, Roland "},{"last_name":"Zolesio","full_name":"Zolesio, Jean-Paul ","first_name":"Jean-Paul "}],"volume":252,"publication_identifier":{"isbn":["978-1-58488-606-8"]},"abstract":[{"text":"Naturally grown plants perform like wood allowing the manufacturing of cellular ceramics with unidirectional porous structures. Natural wood morphologies are characterized by an open porous system of tracheidal cells, which provide the transportation path for water and minerals in the living plant (cf., e.g., [13]). The inherent cellular highly open porous system, accessible for infiltration of various liquid or gaseous metals, is used for the design of novel porous ceramics. The transformation of carbonized wood into porous carbide ceramics can be done by infiltration–reaction processes with various carbide-forming metals (e.g., Si, Ti).","lang":"eng"}],"type":"book_chapter","intvolume":" 252","language":[{"iso":"eng"}],"page":"349-362","date_updated":"2024-06-11T13:42:35Z"}