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Nitzlader, Markus

Markus Nitzlader

M. Eng.

Doctoral Researcher
Institut für Leichtbau Entwerfen und Konstruieren

Contact

+49 711 685 63570
Email

Pfaffenwaldring 14
70569 Stuttgart
Deutschland

Subject

Beteiligt an Teilprojekten, inklusive Position:

C02 - Integrierte Fluidaktoren, Wissenschaftlicher Mitarbeiter.

Publications

2022
1. D. Borschewski et al., “Ökobilanzierung adaptiver Hüllen und Strukturen,” Bautechnik 99, vol. 10, pp. 731–745, Sep. 2022, doi: https://doi.org/10.1002/bate.202200067.
  - BibTeX
  BibTeX
  @article{borschewski2022kobilanzierung, author = {Borschewski, David and Albrecht, Stefan and Bischoff, Manfred and Blandini, Lucio and Bosch, Matthias and Dazer, Martin and Efinger, Dshamil and Eisenbarth, Christina and Haase, Walter and Kreimeyer, Matthias and Leistner, Phillip and Nitzlader, Markus and Roth, Daniel and Sawodny, Oliver and van den Adel, Friederike and Voigt, Michael and Weber, Simon}, doi = {https://doi.org/10.1002/bate.202200067}, ee = {http://dx.doi.org/10.1587/elex.9.945}, journal = {Bautechnik 99}, month = {09}, pages = {731-745}, title = {Ökobilanzierung adaptiver Hüllen und Strukturen}, volume = 10, year = 2022 }
2. M. J. Bosch et al., “Design of integrated fluidic actuators for muti-axial loaded structural elements,” presented at the 8th European Congress on Computational Methods in Applied Sciences and Engineering, Oslo, Norway, 2022. doi: 10.23967/eccomas.2022.081.
  - BibTeX
  - Link
  BibTeX
  @inproceedings{Bosch_2022, author = {Bosch, Matthias J. and Nitzlader, Markus and Burghardt, Timon and Bachmann, Matthias and Binz, Hansgeorg and Blandini, Lucio and Kreimeyer, Matthias}, booktitle = {8th European Congress on Computational Methods in Applied Sciences and Engineering}, doi = {10.23967/eccomas.2022.081}, eventtitle = {8th European Congress on Computational Methods in Applied Sciences and Engineering}, language = {English}, publisher = {{CIMNE}}, title = {Design of integrated fluidic actuators for muti-axial loaded structural elements}, url = {https://doi.org/10.23967/eccomas.2022.081}, venue = {Oslo, Norway}, year = 2022 }
  Link
  https://doi.org/10.23967/eccomas.2022.081
3. M. J. Bosch et al., “Effective range of integrated fluidic actuators in structural elements,” presented at the 15th World Congress on Computational Mechanics (WCCM-XV) and 8th Asian Pacific Congress on Computational Mechanics (APCOM-VIII), Yokohama, Jun. 2022. doi: 10.23967/wccm-apcom.2022.046.
  - BibTeX
  - Link
  BibTeX
  @inproceedings{bosch2022effective, author = {Bosch, Matthias J. and Nitzlader, Markus and Burghardt, Timon and Bachmann, Matthias and Binz, Hansgeorg and Blandini, Lucio and Kreimeyer, Matthias}, booktitle = {15th World Congress on Computational Mechanics ({WCCM}-{XV}) and 8th Asian Pacific Congress on Computational Mechanics ({APCOM}-{VIII})}, doi = {10.23967/wccm-apcom.2022.046}, eventdate = {31.07.-05.08.2022}, eventtitle = {15th World Congress on Computational Mechanics (WCCM-XV) and 8th Asian Pacific Congress on Computational Mechanics (APCOM-VIII)}, language = {English}, month = {06}, publisher = {{CIMNE}}, title = {Effective range of integrated fluidic actuators in structural elements}, url = {https://doi.org/10.23967%2Fwccm-apcom.2022.046}, venue = {Yokohama}, year = 2022 }
  Link
  https://doi.org/10.23967%2Fwccm-apcom.2022.046
4. T. Burghardt et al., “Investigation of a large-scale adaptive concrete beam with integrated fluidic actuators,” Civil Engineering Design, vol. 2022, 2022, doi: 10.1002/cend.202100037.
  - BibTeX
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  BibTeX
  @article{burghardt2022investigation, author = {Burghardt, Timon and Kelleter, Christian and Bosch, Matthias and Nitzlader, Markus and Bachmann, Matthias and Binz, Hansgeorg and Blandini, Lucio and Sobek, Werner}, doi = {10.1002/cend.202100037}, journal = {Civil Engineering Design}, language = {English}, title = {Investigation of a large-scale adaptive concrete beam with integrated fluidic actuators}, url = {https://onlinelibrary.wiley.com/doi/10.1002/cend.202100037}, volume = 2022, year = 2022 }
  Link
  https://onlinelibrary.wiley.com/doi/10.1002/cend.202100037
5. M. Nitzlader, M. Bosch, H. Binz, M. Kreimeyer, and L. Blandini, “ACTUATION OF CONCRETE SLABS UNDER BENDING WITH INTEGRATED FLUIDIC ACTUATORS,” 2022. doi: 10.23967/wccm-apcom.2022.014.
  - BibTeX
  BibTeX
  @conference{nitzlader2022actuation, author = {Nitzlader, Markus and Bosch, Matthias and Binz, Hansgeorg and Kreimeyer, Matthias and Blandini, Lucio}, doi = {10.23967/wccm-apcom.2022.014}, ee = {http://dx.doi.org/10.1007/s10851-015-0562-3}, eventdate = {8}, eventtitle = {5th World Congress on Computational Mechanics}, title = {ACTUATION OF CONCRETE SLABS UNDER BENDING WITH INTEGRATED FLUIDIC ACTUATORS}, year = 2022 }
6. M. Nitzlader, S. Steffen, M. J. Bosch, H. Binz, M. Kreimeyer, and L. Blandini, “Designing Actuation Concepts for Adaptive Slabs with Integrated Fluidic Actuators Using Influence Matrices,” CivilEng, vol. 3, no. 3, Art. no. 3, 2022, doi: 10.3390/civileng3030047.
  - BibTeX
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  BibTeX
  @article{civileng3030047, abstract = {Previous work has shown that floor slabs make up most of the material mass of building structures and are typically made of reinforced concrete. Considering the associated resource consumption and greenhouse gas emissions, new approaches are needed in order to reduce the built environment’s impact on the ongoing climate crisis. Various studies have demonstrated that adaptive building structures offer a potential solution for reducing material resource consumption and associated emissions. Adaptive structures have the ability to improve load-bearing performance by specifically reacting to external loads. This work applies the concept of adaptive structures to reinforced concrete slabs through the integration of fluidic actuators into the cross-section. The optimal integration of actuators in reinforced concrete slabs is a challenging interdisciplinary design problem that involves many parameters. In this work, actuation influence matrices are extended to slabs and used as an analysis and evaluation tool for deriving actuation concepts for adaptive slabs with integrated fluidic actuators. To define requirements for the actuator concept, a new procedure for the selection of actuation modes, actuator placement and the computation of actuation forces is developed. This method can also be employed to compute the required number of active elements for a given load case. The new method is highlighted in a case study of a 2 m × 2 m floor.}, author = {Nitzlader, Markus and Steffen, Simon and Bosch, Matthias J. and Binz, Hansgeorg and Kreimeyer, Matthias and Blandini, Lucio}, doi = {10.3390/civileng3030047}, issn = {2673-4109}, journal = {CivilEng}, number = 3, pages = {809--831}, title = {Designing Actuation Concepts for Adaptive Slabs with Integrated Fluidic Actuators Using Influence Matrices}, url = {https://www.mdpi.com/2673-4109/3/3/47}, volume = 3, year = 2022 }
  Link
  https://www.mdpi.com/2673-4109/3/3/47
2021
1. S. Steffen, M. Nitzlader, T. Burghardt, H. Binz, L. Blandini, and W. Sobek, “An Actuator Concept for Adaptive Concrete Columns,” vol. 10, no. 10, Art. no. 10, Oct. 2021, doi: 10.3390/act10100273.
  - BibTeX
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  BibTeX
  @article{2021, abstract = {The building industry accounts for half of the global resource consumption and roughly one third of global CO2 emissions. Global population growth and increasing resource scarcities require engineers and architects to build for more people with less material and emissions. One promising solution are adaptive load-bearing structures. Here, the load-bearing structure is equipped with actuators, sensors, and a control unit which allows the structure to adapt to different load cases, resulting in substantial material savings. While the first prototypes use industry standard actuators to manipulate deformations and stress states, it is essential to develop actuator concepts which fit the specific requirements of civil engineering structures. This paper introduces new concepts for linear actuators, developed within the Collaborative Research Centre (SFB) 1244 Adaptive Skins and Structures for the Built Environment of Tomorrow, which can be used as adaptive concrete columns. The concept of an actuator which actuates a concrete column by external compression through hydraulic pressure is discussed in further detail. This concept allows for controlled axial extension while also increasing the compressive strength of the concrete column. }, author = {Steffen, Simon and Nitzlader, Markus and Burghardt, Timon and Binz, Hansgeorg and Blandini, Lucio and Sobek, Werner}, doi = {10.3390/act10100273}, month = {10}, number = 10, pages = 273, publisher = {MDPI Actuators}, title = {An Actuator Concept for Adaptive Concrete Columns}, url = {https://doi.org/10.3390%2Fact10100273}, volume = 10, year = 2021 }
  Link
  https://doi.org/10.3390%2Fact10100273

Akademische Ausbildung mit Abschluss

Projektmanagement (Bau) (2013 – 2015), Masterstudium mit Vertiefungsrichtung Anwendungskompetenz-Ingenieurhochbau, Hochschule Biberach, Abschluss: M.Eng.

Projektmanagement/Bauingenieurwesen (2008 – 2012), Bachelorstudium mit Vertiefungsrichtung Ingenieurhochbau (Tragwerke und Gebäudetechnik im Hochbau, Schlüsselfertigbau und Ausbau im Hochbau), Hochschule Biberach, Abschluss: B.Eng.

Beruflicher Werdegang nach Studienabschluss

07/2017 – heute, Wissenschaftlicher Mitarbeiter am Institut für Leichtbau Entwerfen und Konstruieren, Universität Stuttgart

10/2012 – 06/2017, Projektingenieur, nps Bauprojektmanagement GmbH, Ulm

09/2010 – 02/2011, Mitarbeit Energieberatung, LUWOGE Consult GmbH Tochter der BASF SE, Ludwigshafen

Markus Nitzlader

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Publications

2022

BibTeX

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2021

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Akademische Ausbildung mit Abschluss

Beruflicher Werdegang nach Studienabschluss

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