@misc{KlepelDannebergDraegeretal., author = {Klepel, Olaf and Danneberg, Nina and Dr{\"a}ger, Matti and Erlitz, Marcel and Taubert, Michael}, title = {Synthesis of Porous Carbon Monoliths Using Hard Templates}, series = {Materials}, volume = {9}, journal = {Materials}, number = {3}, issn = {1996-1944}, doi = {10.3390/ma9030214}, pages = {14}, language = {en} } @misc{KlepelDannebergSuckowetal., author = {Klepel, Olaf and Danneberg, Nina and Suckow, Matthias and Erlitz, Marcel}, title = {Carbon Replicas of Porous Concrete Obtained by Chemical Vapor Deposition - Some Aspects of the Synthesis Mechanism}, series = {Materials Sciences and Applications}, volume = {8}, journal = {Materials Sciences and Applications}, number = {8}, issn = {2153-117X}, doi = {10.4236/msa.2017.88043}, pages = {614 -- 627}, language = {en} } @inproceedings{ErlitzDannebergKlepel, author = {Erlitz, Marcel and Danneberg, Nina and Klepel, Olaf}, title = {Template assisted synthesis of porous carbon: insight in the process of the carbon deposition in the template}, series = {Carbon 2015 : innovation with carbon materials; the Annual World Conference on Carbon, Dresden, Germany, July 12 - 17, 2015}, booktitle = {Carbon 2015 : innovation with carbon materials; the Annual World Conference on Carbon, Dresden, Germany, July 12 - 17, 2015}, publisher = {Deutsche Keramische Gesellschaft e.V.}, address = {K{\"o}ln}, pages = {S. 21}, language = {en} } @misc{KlepelDanneberg, author = {Klepel, Olaf and Danneberg, Nina}, title = {Porous Carbon Monoliths Made from Cellulose and Starch}, series = {C - Journal of Carbon Research}, volume = {6}, journal = {C - Journal of Carbon Research}, number = {2}, issn = {2311-5629}, doi = {10.3390/c6020032}, pages = {11}, language = {en} } @misc{DannebergSchneiderGalovicetal., author = {Danneberg, Nina and Schneider, Robert and Galovic, M. and Probst, M.}, title = {Damage analysis and damage prevention on an extrusion line}, series = {"Machine-building and Energy: New Concepts and Technologies" International Scientific-practical Conference materials, December 2-3, 2021, AzTU, Baku, Azerbaijan}, journal = {"Machine-building and Energy: New Concepts and Technologies" International Scientific-practical Conference materials, December 2-3, 2021, AzTU, Baku, Azerbaijan}, publisher = {Universit{\"a}t}, address = {Baku}, pages = {21 -- 23}, abstract = {In the following parts, a damage analysis of an extrusion line is presented. An important point is the recording of the damage and the consideration of all facts around the operation and the history of the machine. The investigations in the laboratory confirmed the facts gathered in the hypothesis [1]. The main cause to be assumed is the age of the machine and the resulting load changes, in connection with the additional holes and the carbide concentration. By an unfavourable coincidence, a borehole was drilled in a place where there was a high concentration of carbides. From the already partially corroded fracture edges, it can be assumed that it was a gradual process until the final fracture of the component occurred. The fracture of the component could be prevented in the future by a different maintenance strategy for machines of the same construction [2].}, language = {en} } @misc{SchneiderDannebergRiederetal., author = {Schneider, Robert and Danneberg, Nina and Rieder, Thomas and Fritsch, Tim and Hernschier, Stephan and Magister, Jan}, title = {Presentation of a new type of axial clearance testing device and evaluation of suitable limit values for the axial displaceability rollers with a bearing size of 6308, 6310 and 6312}, series = {"Machine-building and Energy : New Concepts and Technologies" International Scientific-practical Conference materials}, journal = {"Machine-building and Energy : New Concepts and Technologies" International Scientific-practical Conference materials}, pages = {45 -- 47}, abstract = {In the following, the results of the investigations on rollers with bearing failures from a bearing size above 6308 are presented. The values for the axial clearance were too low, which turned out to be the cause of the damage. DIN 22112 part 2 only lists limit values for the axial displacement of rollers up to a bearing size of 6306. An evaluation of idlers with larger bearings in terms of quality was not possible until now. Based on the results, a new axial test device was developed and comparative tests were carried out on the rollers using the test device from DIN 22112 Part 3.}, language = {en} }