@inproceedings{Laack2016, author = {Laack, Walter van}, title = {Schnittstelle Tod: Wo stehen wir nach 40 Jahren NTE-Forschung?}, publisher = {van Laack GmbH}, address = {Aachen}, isbn = {978-3-936624-30-4 (Print-Ausgabe)}, url = {http://nbn-resolving.de/urn:nbn:de:101:1-201603132912}, pages = {92 Seiten}, year = {2016}, language = {de} } @book{LohseLaumannWolf2016, author = {Lohse, Wolfram and Laumann, J{\"o}rg and Wolf, Christian}, title = {Stahlbau, 1: Bemessung von Stahlbauten nach Eurocode mit zahlreichen Beispielen}, edition = {25., {\"u}berarbeitete und aktualisierte Auflage}, publisher = {Springer Vieweg}, address = {Wiesbaden}, isbn = {978-3-8348-0867-7}, doi = {10.1007/978-3-8348-2058-7}, pages = {XIII, 572 Seiten}, year = {2016}, language = {de} } @book{Huening2016, author = {H{\"u}ning, Felix}, title = {Sensoren und Sensorschnittstellen}, publisher = {De Gruyter Oldenbourg}, address = {Berlin}, isbn = {978-3-11-043854-3}, pages = {VII, 237 S. : Ill., graph. Darst.}, year = {2016}, language = {de} } @book{GalleyMinoggioSchubaetal.2016, author = {Galley, Birgit and Minoggio, Ingo and Schuba, Marko and Bischoff, Barbara and H{\"o}fken, Hans-Wilhelm}, title = {Unternehmenseigene Ermittlungen : Recht - Kriminalistik - IT}, publisher = {Erich Schmidt Verlag}, address = {Berlin}, isbn = {978-3-503-16531-5}, pages = {XIII, 372 S.}, year = {2016}, language = {de} } @incollection{ButenwegRoeser2016, author = {Butenweg, Christoph and Roeser, W.}, title = {Auslegung von Bauwerken gegen Erdbeben - Rechenbeispiele}, series = {Stahlbetonbau aktuell 2016 : Praxishandbuch / herausgegeben von: Prof. Dr.-Ing. Josef Hegger, Prof. Dr.-Ing. habil. Peter Mark}, booktitle = {Stahlbetonbau aktuell 2016 : Praxishandbuch / herausgegeben von: Prof. Dr.-Ing. Josef Hegger, Prof. Dr.-Ing. habil. Peter Mark}, publisher = {Beuth Verlag GmbH}, address = {Berlin ; Wien ; Z{\"u}rich}, isbn = {978-3-410-25202-3 (Print) ; 978-3-410-25203-0 (E-Book)}, year = {2016}, language = {de} } @article{SchuellerKowalskiRaback2016, author = {Sch{\"u}ller, K. and Kowalski, Julia and Raback, P.}, title = {Curvilinear melting - A preliminary experimental and numerical study}, series = {International Journal of Heat and Mass Transfer}, journal = {International Journal of Heat and Mass Transfer}, number = {92}, publisher = {Elsevier}, address = {Amsterdam}, issn = {0017-9310}, doi = {10.1016/j.ijheatmasstransfer.2015.09.046}, pages = {884 -- 892}, year = {2016}, abstract = {When exploring glacier ice it is often necessary to take samples or implement sensors at a certain depth underneath the glacier surface. One way of doing this is by using heated melting probes. In their common form these devices experience a straight one-dimensional downwards motion and can be modeled by standard close-contact melting theory. A recently developed melting probe however, the IceMole, achieves maneuverability by simultaneously applying a surface temperature gradient to induce a change in melting direction and controlling the effective contact-force by means of an ice screw to stabilize its change in attitude. A modeling framework for forced curvilinear melting does not exist so far and will be the content of this paper. At first, we will extend the existing theory for quasi-stationary close-contact melting to curved trajectories. We do this by introducing a rotational mode. This additional unknown in the system implies yet the need for another model closure. Within this new framework we will focus on the effect of a variable contact-force as well as different surface temperature profiles. In order to solve for melting velocity and curvature of the melting path we present both an inverse solution strategy for the analytical model, and a more general finite element framework implemented into the open source software package ELMER. Model results are discussed and compared to experimental data conducted in laboratory tests.}, language = {de} }