[{"department":[{"_id":"152"}],"user_id":"405","_id":"23588","language":[{"iso":"eng"}],"publication":"LEAN SMART MAINTENANCE - Konzepte, Instrumente und Anwendungen für eine effiziente und intelligente Instandhaltung","type":"conference","status":"public","date_created":"2021-08-31T12:18:55Z","author":[{"orcid":"http://orcid.org/0000-0001-8778-2989","last_name":"Pottebaum","id":"405","full_name":"Pottebaum, Jens","first_name":"Jens"},{"first_name":"Iris","full_name":"Gräßler, Iris","id":"47565","orcid":"0000-0001-5765-971X","last_name":"Gräßler"}],"date_updated":"2023-11-16T09:29:21Z","title":"Szenarien für die Anwendung von Additive Manufacturing in der Instandhaltung","quality_controlled":"1","page":"49-59","citation":{"ama":"Pottebaum J, Gräßler I. Szenarien für die Anwendung von Additive Manufacturing in der Instandhaltung. In: LEAN SMART MAINTENANCE - Konzepte, Instrumente Und Anwendungen Für Eine Effiziente Und Intelligente Instandhaltung. ; 2016:49-59.","chicago":"Pottebaum, Jens, and Iris Gräßler. “Szenarien Für Die Anwendung von Additive Manufacturing in Der Instandhaltung.” In LEAN SMART MAINTENANCE - Konzepte, Instrumente Und Anwendungen Für Eine Effiziente Und Intelligente Instandhaltung, 49–59. Köln, 2016.","ieee":"J. Pottebaum and I. Gräßler, “Szenarien für die Anwendung von Additive Manufacturing in der Instandhaltung,” in LEAN SMART MAINTENANCE - Konzepte, Instrumente und Anwendungen für eine effiziente und intelligente Instandhaltung, 2016, pp. 49–59.","apa":"Pottebaum, J., & Gräßler, I. (2016). Szenarien für die Anwendung von Additive Manufacturing in der Instandhaltung. LEAN SMART MAINTENANCE - Konzepte, Instrumente Und Anwendungen Für Eine Effiziente Und Intelligente Instandhaltung, 49–59.","short":"J. Pottebaum, I. Gräßler, in: LEAN SMART MAINTENANCE - Konzepte, Instrumente Und Anwendungen Für Eine Effiziente Und Intelligente Instandhaltung, Köln, 2016, pp. 49–59.","mla":"Pottebaum, Jens, and Iris Gräßler. “Szenarien Für Die Anwendung von Additive Manufacturing in Der Instandhaltung.” LEAN SMART MAINTENANCE - Konzepte, Instrumente Und Anwendungen Für Eine Effiziente Und Intelligente Instandhaltung, 2016, pp. 49–59.","bibtex":"@inproceedings{Pottebaum_Gräßler_2016, place={Köln}, title={Szenarien für die Anwendung von Additive Manufacturing in der Instandhaltung}, booktitle={LEAN SMART MAINTENANCE - Konzepte, Instrumente und Anwendungen für eine effiziente und intelligente Instandhaltung}, author={Pottebaum, Jens and Gräßler, Iris}, year={2016}, pages={49–59} }"},"year":"2016","place":"Köln"},{"department":[{"_id":"146"}],"user_id":"13956","_id":"26113","language":[{"iso":"eng"}],"type":"book_editor","status":"public","abstract":[{"lang":"eng","text":"In the polymer laser sinter process, part quality depends on many influencing factors along the process chain. For application of the technology in series production and an integration of laser sintered parts into a technical environment, the dimensional accuracy of parts has to be taken into account. Therefore, occurring deviations of the process have to be known to define tolerances for part design. Dimensional deviations and their scattering have to be reduced and homogenized based on process parameters and build job layout. In this work, the dimensional accuracy of laser sintered parts is analyzed for varied parameter values. Influences of different process and geometrical build job parameters on dimensional deviations are figured out. The experimental results allow an evaluation of more and less important influences. Finally, measures are deduced to reduce and homogenize dimensional deviations."}],"editor":[{"first_name":"Wieland","full_name":"Kniffka, Wieland","last_name":"Kniffka"},{"full_name":"Eichmann, Michael","last_name":"Eichmann","first_name":"Michael"},{"first_name":"Gerd","last_name":"Witt","full_name":"Witt, Gerd"},{"full_name":"Josupeit, S.","last_name":"Josupeit","first_name":"S."},{"first_name":"P.","last_name":"Delfs","full_name":"Delfs, P."},{"first_name":"Tobias","last_name":"Lieneke","id":"13956","full_name":"Lieneke, Tobias"},{"first_name":"G.","last_name":"Adam","full_name":"Adam, G."},{"first_name":"Hans-Joachim","full_name":"Schmid, Hans-Joachim","id":"464","last_name":"Schmid","orcid":"000-0001-8590-1921"}],"date_created":"2021-10-13T13:49:12Z","date_updated":"2024-03-27T15:28:11Z","doi":"10.3139/9783446450608.009","title":"Geometrische Genauigkeit von Lasersinter-Bauteilen: Einflüsse und Maßnahmen / Dimensional accuracy of polymer laser sintered parts: Influences and measures","publication_identifier":{"eisbn":["978-3-446-45060-8"],"isbn":["978-3-446-45017-2"]},"publication_status":"published","citation":{"ama":"Kniffka W, Eichmann M, Witt G, et al., eds. Geometrische Genauigkeit von Lasersinter-Bauteilen: Einflüsse Und Maßnahmen / Dimensional Accuracy of Polymer Laser Sintered Parts: Influences and Measures.; 2016. doi:10.3139/9783446450608.009","ieee":"W. Kniffka et al., Eds., Geometrische Genauigkeit von Lasersinter-Bauteilen: Einflüsse und Maßnahmen / Dimensional accuracy of polymer laser sintered parts: Influences and measures. München, 2016.","chicago":"Kniffka, Wieland, Michael Eichmann, Gerd Witt, S. Josupeit, P. Delfs, Tobias Lieneke, G. Adam, and Hans-Joachim Schmid, eds. Geometrische Genauigkeit von Lasersinter-Bauteilen: Einflüsse Und Maßnahmen / Dimensional Accuracy of Polymer Laser Sintered Parts: Influences and Measures. München, 2016. https://doi.org/10.3139/9783446450608.009.","bibtex":"@book{Kniffka_Eichmann_Witt_Josupeit_Delfs_Lieneke_Adam_Schmid_2016, place={München}, title={Geometrische Genauigkeit von Lasersinter-Bauteilen: Einflüsse und Maßnahmen / Dimensional accuracy of polymer laser sintered parts: Influences and measures}, DOI={10.3139/9783446450608.009}, year={2016} }","mla":"Kniffka, Wieland, et al., editors. Geometrische Genauigkeit von Lasersinter-Bauteilen: Einflüsse Und Maßnahmen / Dimensional Accuracy of Polymer Laser Sintered Parts: Influences and Measures. 2016, doi:10.3139/9783446450608.009.","short":"W. Kniffka, M. Eichmann, G. Witt, S. Josupeit, P. Delfs, T. Lieneke, G. Adam, H.-J. Schmid, eds., Geometrische Genauigkeit von Lasersinter-Bauteilen: Einflüsse Und Maßnahmen / Dimensional Accuracy of Polymer Laser Sintered Parts: Influences and Measures, München, 2016.","apa":"Kniffka, W., Eichmann, M., Witt, G., Josupeit, S., Delfs, P., Lieneke, T., Adam, G., & Schmid, H.-J. (Eds.). (2016). Geometrische Genauigkeit von Lasersinter-Bauteilen: Einflüsse und Maßnahmen / Dimensional accuracy of polymer laser sintered parts: Influences and measures. https://doi.org/10.3139/9783446450608.009"},"year":"2016","place":"München"},{"date_created":"2021-05-04T08:47:31Z","author":[{"orcid":"https://orcid.org/0000-0003-2611-5298","last_name":"Jesinghausen","full_name":"Jesinghausen, Steffen","id":"3959","first_name":"Steffen"},{"full_name":"Weiffen, Rene","last_name":"Weiffen","first_name":"Rene"},{"first_name":"Hans-Joachim","full_name":"Schmid, Hans-Joachim","id":"464","last_name":"Schmid"}],"date_updated":"2023-01-17T07:37:53Z","doi":"10.1007/s00348-016-2241-6","main_file_link":[{"url":"https://link.springer.com/article/10.1007/s00348-016-2241-6"}],"title":"Direct measurement of wall slip and slip layer thickness of non-Brownian hard-sphere suspensions in rectangular channel flows","publication_identifier":{"issn":["0723-4864","1432-1114"]},"quality_controlled":"1","publication_status":"published","citation":{"apa":"Jesinghausen, S., Weiffen, R., & Schmid, H.-J. (2016). Direct measurement of wall slip and slip layer thickness of non-Brownian hard-sphere suspensions in rectangular channel flows. Experiments in Fluids. https://doi.org/10.1007/s00348-016-2241-6","mla":"Jesinghausen, Steffen, et al. “Direct Measurement of Wall Slip and Slip Layer Thickness of Non-Brownian Hard-Sphere Suspensions in Rectangular Channel Flows.” Experiments in Fluids, 2016, doi:10.1007/s00348-016-2241-6.","short":"S. Jesinghausen, R. Weiffen, H.-J. Schmid, Experiments in Fluids (2016).","bibtex":"@article{Jesinghausen_Weiffen_Schmid_2016, title={Direct measurement of wall slip and slip layer thickness of non-Brownian hard-sphere suspensions in rectangular channel flows}, DOI={10.1007/s00348-016-2241-6}, journal={Experiments in Fluids}, author={Jesinghausen, Steffen and Weiffen, Rene and Schmid, Hans-Joachim}, year={2016} }","ieee":"S. Jesinghausen, R. Weiffen, and H.-J. Schmid, “Direct measurement of wall slip and slip layer thickness of non-Brownian hard-sphere suspensions in rectangular channel flows,” Experiments in Fluids, 2016, doi: 10.1007/s00348-016-2241-6.","chicago":"Jesinghausen, Steffen, Rene Weiffen, and Hans-Joachim Schmid. “Direct Measurement of Wall Slip and Slip Layer Thickness of Non-Brownian Hard-Sphere Suspensions in Rectangular Channel Flows.” Experiments in Fluids, 2016. https://doi.org/10.1007/s00348-016-2241-6.","ama":"Jesinghausen S, Weiffen R, Schmid H-J. Direct measurement of wall slip and slip layer thickness of non-Brownian hard-sphere suspensions in rectangular channel flows. Experiments in Fluids. Published online 2016. doi:10.1007/s00348-016-2241-6"},"year":"2016","department":[{"_id":"150"},{"_id":"9"}],"user_id":"3959","_id":"21947","language":[{"iso":"eng"}],"keyword":["Rheology","Wall Slip","Slip","apparent slip","suspension"],"article_type":"original","publication":"Experiments in Fluids","type":"journal_article","status":"public","abstract":[{"text":"Wall slip is a long-known phenomenon in the field of rheology. Nevertheless, the origin and the evolution are not completely clear yet. Regarding suspensions, the effect becomes even more complicated, because different mechanisms like pure slip or slip due to particle migration have to be taken into account. Furthermore, suspensions themselves show many flow anomalies and the isolation of slip is complicated. In order to develop working physical models, further insight is necessary. In this work, we measured experimentally the wall slip velocities of different highly filled suspensions in a rectangular slit die directly with respect to the particle concentration and the particle size. The slip velocities were obtained using a particle image velocimetry (PIV) system. The suspensions consisting of a castor oil–cinnamon oil blend and PMMA particles were matched in terms of refractive indexes to appear transparent. Hereby, possible optical path lengths larger than 15 mm were achieved. The slip velocities were found to be in a quadratic relation to the wall shear stress. Furthermore, the overall flow rate as well as the particle concentration has a direct influence on the slip. Concerning the shear stress, there seem to be two regions of slip with different physical characteristics. Furthermore, we estimated the slip layer thickness directly from the velocity profiles and propose a new interpretation. The PIV technique is used to investigate the viscosity and implicit the concentration profile in the slit die. It is shown that the particle migration process is quite fast.","lang":"eng"}]},{"abstract":[{"text":"Die zunehmend eingesetzten hochfesten Stähle im Automobilbau können zu schwerwiegenden Problemen bei Verkehrsunfällen führen, da hydraulische Schneidgeräte zur Befreiung von Personen an ihre mechanischen Grenzen geraten. Ein Ansatz zur Behebung dieses Problems kann die Widerstandserwärmung der zu schneidenden Werkstoffe sein. Im Rahmen dieser Dissertation wurde durch Werkstoffuntersuchungen ermittelt, dass die hochfesten Stähle einen starken Abfall der Festigkeit aufweisen, während bei denselben Temperaturen potentielle Schneidwerkstoffe deutlich höhere Festigkeiten besitzen. Das Konzept wurde schließlich in einem Funktionsmuster umgesetzt. Schneidversuche zeigten, dass durch die Widerstandserwärmung ein deutlicher Abfall der erforderlichen Schneidkraft erreicht werden konnte. Insgesamt konnte gezeigt werden, dass die Widerstandserwärmung ein vielversprechendes Konzept darstellt, um hochfeste Karosseriestähle zuverlässig und schnell zu durchtrennen und somit die Befreiung eingeschlossener Fahrzeuginsassen zu gewährleisten. ","lang":"ger"}],"status":"public","type":"dissertation","keyword":["Leichtbau","Hybridsysteme","Werkstoffe"],"extern":"1","language":[{"iso":"ger"}],"_id":"37567","department":[{"_id":"9"},{"_id":"149"},{"_id":"321"}],"user_id":"15952","series_title":"Schriftenreihe Institut für Leichtbau mit Hybridsystemen","year":"2016","page":"186","citation":{"ama":"Siewers B. Einsatz der Widerstandserwärmung bei hydraulischen Schneidgeräten zum Trennen von hochfesten Stahlwerkstoffen in Kraftfahrzeugen. Vol 2016,21. Shaker Verlag; 2016.","ieee":"B. Siewers, Einsatz der Widerstandserwärmung bei hydraulischen Schneidgeräten zum Trennen von hochfesten Stahlwerkstoffen in Kraftfahrzeugen, vol. 2016,21. Shaker Verlag, 2016.","chicago":"Siewers, Bernd. Einsatz der Widerstandserwärmung bei hydraulischen Schneidgeräten zum Trennen von hochfesten Stahlwerkstoffen in Kraftfahrzeugen. Vol. 2016,21. Schriftenreihe Institut für Leichtbau mit Hybridsystemen. Shaker Verlag, 2016.","short":"B. Siewers, Einsatz der Widerstandserwärmung bei hydraulischen Schneidgeräten zum Trennen von hochfesten Stahlwerkstoffen in Kraftfahrzeugen, Shaker Verlag, 2016.","mla":"Siewers, Bernd. Einsatz der Widerstandserwärmung bei hydraulischen Schneidgeräten zum Trennen von hochfesten Stahlwerkstoffen in Kraftfahrzeugen. Shaker Verlag, 2016.","bibtex":"@book{Siewers_2016, series={Schriftenreihe Institut für Leichtbau mit Hybridsystemen}, title={Einsatz der Widerstandserwärmung bei hydraulischen Schneidgeräten zum Trennen von hochfesten Stahlwerkstoffen in Kraftfahrzeugen}, volume={2016,21}, publisher={Shaker Verlag}, author={Siewers, Bernd}, year={2016}, collection={Schriftenreihe Institut für Leichtbau mit Hybridsystemen} }","apa":"Siewers, B. (2016). Einsatz der Widerstandserwärmung bei hydraulischen Schneidgeräten zum Trennen von hochfesten Stahlwerkstoffen in Kraftfahrzeugen: Vol. 2016,21. Shaker Verlag."},"publication_identifier":{"isbn":["978-3-8440-4913-8"]},"publication_status":"published","title":"Einsatz der Widerstandserwärmung bei hydraulischen Schneidgeräten zum Trennen von hochfesten Stahlwerkstoffen in Kraftfahrzeugen","date_updated":"2023-01-19T11:24:10Z","publisher":"Shaker Verlag","volume":"2016,21","supervisor":[{"id":"553","full_name":"Tröster, Thomas","last_name":"Tröster","first_name":"Thomas"}],"author":[{"full_name":"Siewers, Bernd","last_name":"Siewers","first_name":"Bernd"}],"date_created":"2023-01-19T11:20:57Z"},{"author":[{"last_name":"Mahnken","full_name":"Mahnken, Rolf","id":"335","first_name":"Rolf"},{"full_name":"Caylak, Ismail","id":"75","last_name":"Caylak","first_name":"Ismail"},{"full_name":"Dridger, Alex","last_name":"Dridger","first_name":"Alex"}],"date_created":"2021-09-17T10:09:52Z","date_updated":"2023-01-24T14:22:25Z","doi":"10.24352/UB.OVGU-2017-003","title":"A Stochastic Finite Element Method with a Deviatoric-volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor","quality_controlled":"1","citation":{"mla":"Mahnken, Rolf, et al. “A Stochastic Finite Element Method with a Deviatoric-Volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor.” A Stochastic Finite Element Method with a Deviatoric-Volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor, 2016, doi:10.24352/UB.OVGU-2017-003.","short":"R. Mahnken, I. Caylak, A. Dridger, A Stochastic Finite Element Method with a Deviatoric-Volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor (2016).","bibtex":"@article{Mahnken_Caylak_Dridger_2016, title={A Stochastic Finite Element Method with a Deviatoric-volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor}, DOI={10.24352/UB.OVGU-2017-003}, journal={A Stochastic Finite Element Method with a Deviatoric-volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor}, author={Mahnken, Rolf and Caylak, Ismail and Dridger, Alex}, year={2016} }","apa":"Mahnken, R., Caylak, I., & Dridger, A. (2016). A Stochastic Finite Element Method with a Deviatoric-volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor. A Stochastic Finite Element Method with a Deviatoric-Volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor. https://doi.org/10.24352/UB.OVGU-2017-003","ama":"Mahnken R, Caylak I, Dridger A. A Stochastic Finite Element Method with a Deviatoric-volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor. A Stochastic Finite Element Method with a Deviatoric-volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor. Published online 2016. doi:10.24352/UB.OVGU-2017-003","chicago":"Mahnken, Rolf, Ismail Caylak, and Alex Dridger. “A Stochastic Finite Element Method with a Deviatoric-Volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor.” A Stochastic Finite Element Method with a Deviatoric-Volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor, 2016. https://doi.org/10.24352/UB.OVGU-2017-003.","ieee":"R. Mahnken, I. Caylak, and A. Dridger, “A Stochastic Finite Element Method with a Deviatoric-volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor,” A Stochastic Finite Element Method with a Deviatoric-volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor, 2016, doi: 10.24352/UB.OVGU-2017-003."},"year":"2016","department":[{"_id":"9"},{"_id":"154"},{"_id":"321"}],"user_id":"335","_id":"24644","language":[{"iso":"eng"}],"publication":"A Stochastic Finite Element Method with a Deviatoric-volumetric Split for the Stochastic Linear Isotropic Elasticity Tensor","type":"journal_article","status":"public","abstract":[{"text":"This paper presents a numerical method for solution of a stochastic partial differential equation (SPDE) for a linear elastic body with stochastic coefficients (random variables and/or random fields). To this end the stochastic finite element method (SFEM) is employed, which uses W IENER’S polynomial chaos expansion in order to decompose the coefficients into deterministic and stochastic parts. As a special case, we consider isotropic material behavior with two fluctuating parameters. Computational approaches involving GALERKIN projection are applied to reduce the SPDE into a system of deterministic PDEs. Furthermore, we consider normally distributed random variables, which are assumed to be stochastically independent, and which establish the number of stochastic dimensions. Subsequently, the resulting finite element equation is solved iteratively. Finally, in a representative example for a plate with a ring hole we study the influence of different variances for material parameters on the variances for the finite element results.","lang":"eng"}]},{"status":"public","type":"journal_article","publication":"IOP Conference Series: Materials Science and Engineering","article_number":"012016","language":[{"iso":"eng"}],"_id":"24647","user_id":"335","department":[{"_id":"9"},{"_id":"154"},{"_id":"321"}],"year":"2016","citation":{"bibtex":"@article{Ehlenbröker_Mahnken_Petersmann_Antretter_2016, title={Modeling of variant-interaction during bainitic phase transformation}, DOI={10.1088/1757-899x/119/1/012016}, number={012016}, journal={IOP Conference Series: Materials Science and Engineering}, author={Ehlenbröker, Ulrich and Mahnken, Rolf and Petersmann, M and Antretter, T}, year={2016} }","mla":"Ehlenbröker, Ulrich, et al. “Modeling of Variant-Interaction during Bainitic Phase Transformation.” IOP Conference Series: Materials Science and Engineering, 012016, 2016, doi:10.1088/1757-899x/119/1/012016.","short":"U. Ehlenbröker, R. Mahnken, M. Petersmann, T. Antretter, IOP Conference Series: Materials Science and Engineering (2016).","apa":"Ehlenbröker, U., Mahnken, R., Petersmann, M., & Antretter, T. (2016). Modeling of variant-interaction during bainitic phase transformation. IOP Conference Series: Materials Science and Engineering, Article 012016. https://doi.org/10.1088/1757-899x/119/1/012016","chicago":"Ehlenbröker, Ulrich, Rolf Mahnken, M Petersmann, and T Antretter. “Modeling of Variant-Interaction during Bainitic Phase Transformation.” IOP Conference Series: Materials Science and Engineering, 2016. https://doi.org/10.1088/1757-899x/119/1/012016.","ieee":"U. Ehlenbröker, R. Mahnken, M. Petersmann, and T. Antretter, “Modeling of variant-interaction during bainitic phase transformation,” IOP Conference Series: Materials Science and Engineering, Art. no. 012016, 2016, doi: 10.1088/1757-899x/119/1/012016.","ama":"Ehlenbröker U, Mahnken R, Petersmann M, Antretter T. Modeling of variant-interaction during bainitic phase transformation. IOP Conference Series: Materials Science and Engineering. Published online 2016. doi:10.1088/1757-899x/119/1/012016"},"publication_status":"published","quality_controlled":"1","publication_identifier":{"issn":["1757-8981","1757-899X"]},"title":"Modeling of variant-interaction during bainitic phase transformation","doi":"10.1088/1757-899x/119/1/012016","date_updated":"2023-01-24T14:23:11Z","author":[{"first_name":"Ulrich","last_name":"Ehlenbröker","full_name":"Ehlenbröker, Ulrich"},{"last_name":"Mahnken","id":"335","full_name":"Mahnken, Rolf","first_name":"Rolf"},{"full_name":"Petersmann, M","last_name":"Petersmann","first_name":"M"},{"full_name":"Antretter, T","last_name":"Antretter","first_name":"T"}],"date_created":"2021-09-17T10:13:34Z"},{"user_id":"335","department":[{"_id":"9"},{"_id":"154"},{"_id":"321"}],"_id":"24642","language":[{"iso":"eng"}],"type":"journal_article","publication":"International Journal of Solids and Structures","status":"public","author":[{"first_name":"C.","last_name":"Cheng","full_name":"Cheng, C."},{"id":"335","full_name":"Mahnken, Rolf","last_name":"Mahnken","first_name":"Rolf"}],"date_created":"2021-09-17T10:08:53Z","date_updated":"2023-01-24T14:21:51Z","doi":"10.1016/j.ijsolstr.2016.10.010","title":"Extension of a multi-mechanism model: Hardness-based flow and transformation induced plasticity for austenitization","publication_status":"published","quality_controlled":"1","publication_identifier":{"issn":["0020-7683"]},"citation":{"ama":"Cheng C, Mahnken R. Extension of a multi-mechanism model: Hardness-based flow and transformation induced plasticity for austenitization. International Journal of Solids and Structures. Published online 2016:127-141. doi:10.1016/j.ijsolstr.2016.10.010","chicago":"Cheng, C., and Rolf Mahnken. “Extension of a Multi-Mechanism Model: Hardness-Based Flow and Transformation Induced Plasticity for Austenitization.” International Journal of Solids and Structures, 2016, 127–41. https://doi.org/10.1016/j.ijsolstr.2016.10.010.","ieee":"C. Cheng and R. Mahnken, “Extension of a multi-mechanism model: Hardness-based flow and transformation induced plasticity for austenitization,” International Journal of Solids and Structures, pp. 127–141, 2016, doi: 10.1016/j.ijsolstr.2016.10.010.","mla":"Cheng, C., and Rolf Mahnken. “Extension of a Multi-Mechanism Model: Hardness-Based Flow and Transformation Induced Plasticity for Austenitization.” International Journal of Solids and Structures, 2016, pp. 127–41, doi:10.1016/j.ijsolstr.2016.10.010.","bibtex":"@article{Cheng_Mahnken_2016, title={Extension of a multi-mechanism model: Hardness-based flow and transformation induced plasticity for austenitization}, DOI={10.1016/j.ijsolstr.2016.10.010}, journal={International Journal of Solids and Structures}, author={Cheng, C. and Mahnken, Rolf}, year={2016}, pages={127–141} }","short":"C. Cheng, R. Mahnken, International Journal of Solids and Structures (2016) 127–141.","apa":"Cheng, C., & Mahnken, R. (2016). Extension of a multi-mechanism model: Hardness-based flow and transformation induced plasticity for austenitization. International Journal of Solids and Structures, 127–141. https://doi.org/10.1016/j.ijsolstr.2016.10.010"},"page":"127-141","year":"2016"},{"status":"public","publication":"steel research international","type":"journal_article","language":[{"iso":"eng"}],"_id":"26269","department":[{"_id":"9"},{"_id":"154"},{"_id":"321"}],"user_id":"335","year":"2016","page":"116-123","citation":{"chicago":"Schneidt, Andreas, and Rolf Mahnken. “Macromodelling of Transformation Induced Plasticity Combined with Viscoplasticity for Low-Alloy Steels.” Steel Research International, 2016, 116–23. https://doi.org/10.1002/srin.200806326.","ieee":"A. Schneidt and R. Mahnken, “Macromodelling of Transformation Induced Plasticity combined with Viscoplasticity for Low-Alloy Steels,” steel research international, pp. 116–123, 2016, doi: 10.1002/srin.200806326.","ama":"Schneidt A, Mahnken R. Macromodelling of Transformation Induced Plasticity combined with Viscoplasticity for Low-Alloy Steels. steel research international. Published online 2016:116-123. doi:10.1002/srin.200806326","short":"A. Schneidt, R. Mahnken, Steel Research International (2016) 116–123.","bibtex":"@article{Schneidt_Mahnken_2016, title={Macromodelling of Transformation Induced Plasticity combined with Viscoplasticity for Low-Alloy Steels}, DOI={10.1002/srin.200806326}, journal={steel research international}, author={Schneidt, Andreas and Mahnken, Rolf}, year={2016}, pages={116–123} }","mla":"Schneidt, Andreas, and Rolf Mahnken. “Macromodelling of Transformation Induced Plasticity Combined with Viscoplasticity for Low-Alloy Steels.” Steel Research International, 2016, pp. 116–23, doi:10.1002/srin.200806326.","apa":"Schneidt, A., & Mahnken, R. (2016). Macromodelling of Transformation Induced Plasticity combined with Viscoplasticity for Low-Alloy Steels. 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Penner, I. Caylak, N. Nörenberg, R. Mahnken, PAMM (2016) 675–676.","apa":"Penner, E., Caylak, I., Nörenberg, N., & Mahnken, R. (2016). SFEM for rubber-like materials at large deformations. PAMM, 675–676. https://doi.org/10.1002/pamm.201610326","ama":"Penner E, Caylak I, Nörenberg N, Mahnken R. SFEM for rubber-like materials at large deformations. PAMM. Published online 2016:675-676. doi:10.1002/pamm.201610326","ieee":"E. Penner, I. Caylak, N. Nörenberg, and R. 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Lehrbuch Der Technischen Mechanik - Band 1: Starrkörperstatik. Berlin, Heidelberg, 2016. https://doi.org/10.1007/978-3-662-52785-6.","ieee":"R. Mahnken, Lehrbuch der Technischen Mechanik - Band 1: Starrkörperstatik. Berlin, Heidelberg, 2016.","ama":"Mahnken R. Lehrbuch Der Technischen Mechanik - Band 1: Starrkörperstatik.; 2016. doi:10.1007/978-3-662-52785-6","bibtex":"@book{Mahnken_2016, place={Berlin, Heidelberg}, title={Lehrbuch der Technischen Mechanik - Band 1: Starrkörperstatik}, DOI={10.1007/978-3-662-52785-6}, author={Mahnken, Rolf}, year={2016} }","mla":"Mahnken, Rolf. Lehrbuch Der Technischen Mechanik - Band 1: Starrkörperstatik. 2016, doi:10.1007/978-3-662-52785-6.","short":"R. Mahnken, Lehrbuch Der Technischen Mechanik - Band 1: Starrkörperstatik, Berlin, Heidelberg, 2016.","apa":"Mahnken, R. (2016). Lehrbuch der Technischen Mechanik - Band 1: Starrkörperstatik. https://doi.org/10.1007/978-3-662-52785-6"}}]