%0 Thesis %1 baggio2020volume %A Baggio, Martina %B Thermodynamik %C München %D 2020 %I Verlag Dr. Hut %K diss phf06 ubs_10006 ubs_20010 ubs_30098 unibibliografie %T Volume of fluid numerical simulation of drop impact on superhydrophobic complex solid surfaces embedded in a staggered cartesian grid %@ 978-3-8439-4577-6

@phdthesis{baggio2020volume, added-at = {2020-11-27T15:04:38.000+0100}, address = {München}, author = {Baggio, Martina}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/231e538d0a5f1839538e80b57bc9a00ed/unibiblio-3}, eventdate = {2020-07-16}, interhash = {d8d5304bdf7ba6b0097e7dd1c2b015d8}, intrahash = {31e538d0a5f1839538e80b57bc9a00ed}, isbn = {978-3-8439-4577-6}, keywords = {diss phf06 ubs_10006 ubs_20010 ubs_30098 unibibliografie}, language = {eng}, publisher = {Verlag Dr. Hut}, school = {Universität Stuttgart}, series = {Thermodynamik}, supervisor = {Weigand, Bernhard}, supervisorgnd = {115406662}, timestamp = {2020-11-27T14:04:38.000+0100}, title = {Volume of fluid numerical simulation of drop impact on superhydrophobic complex solid surfaces embedded in a staggered cartesian grid}, type = {Dissertation}, year = 2020 }