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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

2025
1. M. J. Bosch, M. Nitzlader, M. Bachmann, H. Binz, L. Blandini, and M. Kreimeyer, “Integrated fluidic actuators for two-way concrete slabs,” Applications in Engineering Science, vol. 21, p. 100208, Mar. 2025, doi: 10.1016/j.apples.2025.100208.
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  @article{Bosch_2025, author = {Bosch, Matthias J. and Nitzlader, Markus and Bachmann, Matthias and Binz, Hansgeorg and Blandini, Lucio and Kreimeyer, Matthias}, doi = {10.1016/j.apples.2025.100208}, issn = {2666-4968}, journal = {Applications in Engineering Science}, month = {03}, pages = 100208, publisher = {Elsevier BV}, title = {Integrated fluidic actuators for two-way concrete slabs}, url = {http://dx.doi.org/10.1016/j.apples.2025.100208}, volume = 21, year = 2025 }
  Link
  http://dx.doi.org/10.1016/j.apples.2025.100208
2024
1. M. J. Bosch, M. Nitzlader, M. Bachmann, H. Binz, L. Blandini, and M. Kreimeyer, “Investigation of Pressure Chambers for Integrated Fluidic Actuators in Adaptive Slabs,” Actuators, vol. 13, Art. no. 1, Jan. 2024, doi: 10.3390/act13010041.
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  @article{act13010041, abstract = {A high proportion of the CO2 emissions worldwide are caused by the construction sector or are associated with buildings. Every part of the industry needs to reduce its share of emissions, so the building sector must also do its part. One possible solution for achieving this reduction in the field of load-bearing structures is the use of adaptive structures. This research focuses on adaptive slab structures, which require specific actuators to be integrated into the system. Conventional actuators are not suitable due to the prevailing requirements, namely installation space and performance. For this investigation, the actuator is divided into different functional components. A rough description of the requirements for one component, namely the energy converter, is given. Different concepts are developed, tested, and compared with numerical results. Due to the requirements, the concepts are limited to hydraulics. The authors then present a comparison of different simulation strategies for the energy converter. Overall, this paper provides a new contribution to the design of energy converter concepts for integrated hydraulic actuators in slabs, along with experimental verification of the working principle of the energy converters to meet the requirements. A simplified numerical model is proposed to estimate the behavior of the energy converter during the early design phase.}, article-number = {41}, author = {Bosch, Matthias J. and Nitzlader, Markus and Bachmann, Matthias and Binz, Hansgeorg and Blandini, Lucio and Kreimeyer, Matthias}, doi = {10.3390/act13010041}, issn = {2076-0825}, journal = {Actuators}, language = {English}, month = {01}, number = 1, publisher = {MDPI}, title = {Investigation of Pressure Chambers for Integrated Fluidic Actuators in Adaptive Slabs}, volume = 13, year = 2024 }
2. M. J. Bosch, M. Nitzlader, M. Bachmann, H. Binz, L. Blandini, and M. Kreimeyer, “Designing a framework for actuators for adaptive structures,” in Proceedings of the Design Society: International Design Conference - DESIGN 2024, Cambridge University Press, 2024, pp. 513–522. doi: 10.1017/pds.2024.54.
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  @inproceedings{bosch2024designing, abstract = {Adaptive structures have the potential to play a significant role in saving resources in the construction industry in the future. For realisation, this requires actuators that meet the requirements of different buildings with their specific load-bearing structures. In the past, the actuators were mainly developed particularly for one exemplary load-bearing structure. This paper analyses the primary classifications for buildings, followed by challenges of adaptive structures, before outlining the draft of a framework for actuators for adaptive structures to speed up and simplify development.}, author = {Bosch, Matthias J. and Nitzlader, Markus and Bachmann, Matthias and Binz, Hansgeorg and Blandini, Lucio and Kreimeyer, Matthias}, booktitle = {Proceedings of the Design Society: International Design Conference - DESIGN 2024}, doi = {10.1017/pds.2024.54}, eventdate = {20.-23.05.2024}, eventtitle = {International Design Conference - DESIGN 2024}, language = {English}, pages = {513-522}, publisher = {Cambridge University Press}, title = {Designing a framework for actuators for adaptive structures}, url = {https://doi.org/10.1017/pds.2024.54}, volume = 4, year = 2024 }
  Link
  https://doi.org/10.1017/pds.2024.54
3. M. Nitzlader, M. J. Bosch, H. Binz, M. Kreimeyer, and L. Blandini, “Kriterien zur Dimensionierung adaptiver Stahlbetonplatten mit integrierten fluidischen Aktoren,” in Baustatik – Baupraxis 15, Mar. 2024. [Online]. Available: https://www.bb15.baustatik-baupraxis.de/Anmeldung/Upload/PDF/2b964224.pdf
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  @inproceedings{Nitzlader2024, abstract = {Um bei der Auslegung adaptiver Stahlbetonplatten mit integrierten fluidischen Aktoren den Lastfall „Aktuierung“ zu berücksichtigen, bedarf es zusätzlicher Kriterien für die Aktorplatzierung. Für die Diskussion derartiger Kriterien werden Finite Elemente Simulationen unter Verwendung eines bruchmechanischen Schädigungs-Plastizitätsmodell an einem Fallbeispiel durchgeführt und dem aufgebrachten Aktordruck gegenübergestellt.}, author = {Nitzlader, Markus and Bosch, Matthias J. and Binz, Hansgeorg and Kreimeyer, Matthias and Blandini, Lucio}, booktitle = {Baustatik – Baupraxis 15}, eventdate = {4.-5. März 2024}, eventtitle = {Baustatik – Baupraxis 15}, language = {Deutsch}, month = {März}, title = {Kriterien zur Dimensionierung adaptiver Stahlbetonplatten mit integrierten fluidischen Aktoren}, url = {https://www.bb15.baustatik-baupraxis.de/Anmeldung/Upload/PDF/2b964224.pdf}, venue = {Technische Universität Hamburg}, year = 2024 }
  Link
  https://www.bb15.baustatik-baupraxis.de/Anmeldung/Upload/PDF/2b964224.pdf
4. M. Nitzlader et al., “Experimental investigation on adaptive concrete slabs equipped with integrated fluidic actuators,” Engineering Structures, vol. 310, p. 118129, 2024, doi: https://doi.org/10.1016/j.engstruct.2024.118129.
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  @article{NITZLADER2024118129, abstract = {One possible approach for saving structural mass and related emissions is to design adaptive load-bearing structures, i.e. actively reducing deformations under changing loads through actuation. This paper describes the application of a methodology based on influence matrices to identify a feasible actuator size for actuator placement in reinforced concrete slabs under multiple load cases. The design is implemented in a physical prototype comprising a concrete slab with a clear span of 2 m x 2 m, being equipped with fluidic actuators that are controlled via a cascade controller. Experimental tests show that the displacement response of the adaptive slab under twice the design load can be kept equal to that of the passive slab under the design load. Thus, proof of concept is provided that considerable material savings can be achieved by employing integrated fluidic actuators in two-way slabs.}, author = {Nitzlader, Markus and Bosch, Matthias J. and Dakova, Spasena and Böhm, Michael and Sawodny, Oliver and Binz, Hansgeorg and Kreimeyer, Matthias and Blandini, Lucio}, doi = {https://doi.org/10.1016/j.engstruct.2024.118129}, issn = {0141-0296}, journal = {Engineering Structures}, pages = 118129, title = {Experimental investigation on adaptive concrete slabs equipped with integrated fluidic actuators}, url = {https://www.sciencedirect.com/science/article/pii/S0141029624006916}, volume = 310, year = 2024 }
  Link
  https://www.sciencedirect.com/science/article/pii/S0141029624006916
2023
1. L. Blandini et al., “Leicht bauen mit Beton - ausgewählte Forschungsarbeiten des ILEK - Teil 2: Strukturleichtbau,” Beton- und Stahlbetonbau, Apr. 2023, doi: 10.1002/best.202300026.
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  @article{Blandini_2023, author = {Blandini, Lucio and Kovaleva, Daria and Haufe, Carl Niklas and Nething, Christoph and Nigl, David and Nitzlader, Markus and Smirnova, Maiia and Strahm, Benedikt and Bosch, Matthias J. and Funaro, Daniele and Nistler, Maximilian}, doi = {10.1002/best.202300026}, journal = {Beton- und Stahlbetonbau}, language = {Deutsch}, month = {04}, publisher = {Wiley}, title = {Leicht bauen mit Beton - ausgewählte Forschungsarbeiten des ILEK - Teil 2: Strukturleichtbau}, url = {https://doi.org/10.1002/best.202300026}, year = 2023 }
  Link
  https://doi.org/10.1002/best.202300026
2. D. Borschewski et al., “Ökobilanzierung adaptiver Hüllen und Strukturen,” Bauphysik, vol. 45, Art. no. 2, Apr. 2023, doi: 10.1002/bapi.202300102.
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  @article{Borschewski_2023, 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, Philip and Nitzlader, Markus and Roth, Daniel and Sawodny, Oliver and van den Adel, Friederike and Voigt, Michael and Weber, Simon}, doi = {10.1002/bapi.202300102}, journal = {Bauphysik}, month = {04}, number = 2, pages = {107--121}, publisher = {Wiley}, title = {Ökobilanzierung adaptiver Hüllen und Strukturen}, url = {https://doi.org/10.1002%2Fbapi.202300102}, volume = 45, year = 2023 }
  Link
  https://doi.org/10.1002%2Fbapi.202300102
3. M. Bosch, M. Nitzlader, M. Bachmann, H. Binz, L. Blandini, and K. Matthias, “EXPERIMENTAL TESTING OF ACTUATOR CHAMBERS OF INTEGRATED FLUIDIC ACTUATORS FOR ADAPTIVE SLABS,” Jul. 2023, pp. 499–510.
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  @conference{bosch2023experimental, author = {Bosch, Matthias and Nitzlader, Markus and Bachmann, Matthias and Binz, Hansgeorg and Blandini, Lucio and Matthias, Kreimeyer}, eventdate = {2-7July 2023}, eventtitle = {20th International Conference on Experimental Mechanics}, month = {07}, pages = {499-510}, title = {EXPERIMENTAL TESTING OF ACTUATOR CHAMBERS OF INTEGRATED FLUIDIC ACTUATORS FOR ADAPTIVE SLABS}, venue = {Porto, Portugal}, year = 2023 }
4. M. Bosch et al., “Interdisziplinäre Entwicklung einer adaptiven Geschossdecke als leichtes Tragwerkselement im Bauwesen,” in Stuttgarter Symposium für Produktentwicklung SSP 2023: Tagungsband zur Konferenz, Stuttgart, 25. Mai 2023, Fraunhofer IAO, 2023, pp. 211–222. doi: 10.18419/opus-13131.
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  @inproceedings{bosch2023interdisziplinre, abstract = {Floor slabs comprise the majority of the mass of a building. One approach to reducing the use of materials is adaptive structures, in which external forces are counteracted by internal actuation. In the development of suitable actuation and associated actuator concepts for individual structural elements, such as floor slabs, there is a strong mutual influence between the actuation and actuator concept, meaning a clear separation between the tasks of the disciplines involved is not possible. Rather, a tight coordination as well as the identification of the mutual influence during the development process is necessary. A case study is used to analyze the dependencies for actuation and actuator concept development and to present them graphically. A condensation of the results results in a first approach for the interdisciplinary development of adaptive structural elements.}, author = {Bosch, Matthias and Nitzlader, Markus and Voigt, Michael and Bachmann, Matthias and Roth, Daniel and Binz, Hansgeorg and Blandini, Lucio and Kreimeyer, Matthias}, booktitle = {Stuttgarter Symposium für Produktentwicklung SSP 2023: Tagungsband zur Konferenz, Stuttgart, 25. Mai 2023}, doi = {10.18419/opus-13131}, pages = {211-222}, publisher = {Fraunhofer IAO}, title = {Interdisziplinäre Entwicklung einer adaptiven Geschossdecke als leichtes Tragwerkselement im Bauwesen}, url = {http://elib.uni-stuttgart.de/handle/11682/13150}, year = 2023 }
  Link
  http://elib.uni-stuttgart.de/handle/11682/13150
5. M. J. Bosch, M. Nitzlader, M. Bachmann, H. Binz, L. Blandini, and M. Kreimeyer, “EXPERIMENTAL TESTING OF ACTUATOR CHAMBERS OF INTEGRATED FLUIDIC ACTUATORS FOR ADAPTIVE SLABS,” in Proceedings ICEM20 20th International Conference on Experimental Mechanics, J. F. S. Gomes, Ed., INEGI-FEUP, 2023, pp. 499–510. [Online]. Available: https://paginas.fe.up.pt/~icem20/proceedings_icem20/data/papers/19905.pdf
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  @inproceedings{bosch2023experimental, abstract = {The building sector is responsible for a high CO2 footprint each year. To reduce the required resources and increase the load-bearing capacity of structural elements, designing structural elements adaptive seems to be an appropriate solution. In particular, for structural integration in adaptive slabs, conventional actuators are not suitable due to the requirements in terms of installation space and performance. Therefore, different concepts on fluidic pressure chambers for adaptive slabs are developed, tested, and compared with numerical results. The outcome of this investigation is presented in this contribution and can be used for the further development of fluidic actuators for adaptive slabs.}, author = {Bosch, Matthias J. and Nitzlader, Markus and Bachmann, Matthias and Binz, Hansgeorg and Blandini, Lucio and Kreimeyer, Matthias}, booktitle = {Proceedings ICEM20 20th International Conference on Experimental Mechanics}, editor = {Gomes, J.F. Silva}, eventdate = {2-7 July 2023}, eventtitle = {20th International Conference on Experimental Mechanics}, isbn = {978-989-54756-6-7}, language = {English}, pages = {499-510}, publisher = {INEGI-FEUP}, title = {EXPERIMENTAL TESTING OF ACTUATOR CHAMBERS OF INTEGRATED FLUIDIC ACTUATORS FOR ADAPTIVE SLABS}, url = {https://paginas.fe.up.pt/~icem20/proceedings_icem20/data/papers/19905.pdf}, venue = {Porto, Portugal}, year = 2023 }
  Link
  https://paginas.fe.up.pt/~icem20/proceedings_icem20/data/papers/19905.pdf
6. S. Gambarelli et al., “Failure behavior of an adaptive concrete beam with integrated fluidic actuators: non-linear three-dimensional finite element analysis,” Frontiers in Built Environment, 2023, doi: 10.3389/fbuil.2023.1272785.
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  @article{gambarelli2023failure, author = {Gambarelli, Serena and Fararoni, Noé and Shankar, Arvinth and Dakova, Spasena and Böhm, Michael and Sawodny, Oliver and Nitzlader, Markus and Blandini, Lucio}, doi = {10.3389/fbuil.2023.1272785}, journal = {Frontiers in Built Environment}, title = {Failure behavior of an adaptive concrete beam with integrated fluidic actuators: non-linear three-dimensional finite element analysis}, year = 2023 }
7. S. Gambarelli et al., “Failure behavior of an adaptive concrete beam with integrated fluidic actuators : non-linear three-dimensional finite element analysis,” Frontiers in Built Environment, vol. 9, p. 1272785, 2023, doi: 10.3389/fbuil.2023.1272785.
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  @article{gambarelli2023failure, author = {Gambarelli, Serena and Fararoni-Platas, REy Noé and Shankar, Arvinth and Dakova, Spasena and Böhm, MIchael and Sawodny, Oliver and NItzlader, Markus and Blandini, Lucio}, doi = {10.3389/fbuil.2023.1272785}, issn = {2297-3362}, journal = {Frontiers in Built Environment}, pages = 1272785, title = {Failure behavior of an adaptive concrete beam with integrated fluidic actuators : non-linear three-dimensional finite element analysis}, volume = 9, year = 2023 }
8. M. Nitzlader, M. J. Bosch, H. Binz, M. Kreimeyer, and L. Blandini, Control objectives for adaptive slabs with integrated fluidic actuators, a comparison of effects. 2023.
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  @proceedings{nitzlader2023control, author = {Nitzlader, Markus and Bosch, Matthias J and Binz, Hansgeorg and Kreimeyer, Matthias and Blandini, Lucio}, eventdate = {10-14 July 2023}, eventtitle = {IASS Annual Symposium 2023 Integration of Design and Fabrication}, title = {Control objectives for adaptive slabs with integrated fluidic actuators, a comparison of effects}, venue = {Melbourne Australia}, year = 2023 }
2022
1. D. Borschewski et al., “Ökobilanzierung adaptiver Hüllen und Strukturen,” Bautechnik, vol. 99, Art. no. 10, Oct. 2022, doi: 10.1002/bate.202200067.
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  @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 = {10.1002/bate.202200067}, ee = {http://dx.doi.org/10.1587/elex.9.945}, journal = {Bautechnik}, month = {10}, number = 10, pages = {731-745}, title = {Ökobilanzierung adaptiver Hüllen und Strukturen}, url = {https://doi.org/10.1002/bate.202200067}, volume = 99, year = 2022 }
  Link
  https://doi.org/10.1002/bate.202200067
2. M. Bosch et al., EFFECTIVE RANGE OF INTEGRATED FLUIDIC ACTUATORS IN STRUCTURAL ELEMENTS. 2022. doi: 10.23967/wccm-apcom.2022.046.
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  @proceedings{kreimeyer2022effective, author = {Bosch, Matthias and Nitzlader, Markus and Burghardt, Timon and Bachmann, Matthias and Binz, Hansgeorg and Blandini, Lucio and Kreimeyer, Matthias}, doi = {10.23967/wccm-apcom.2022.046}, ee = {http://dx.doi.org/10.1080/13658810050024304}, eventdate = {8}, eventtitle = {5th World Congress on Computational Mechanics}, title = {EFFECTIVE RANGE OF INTEGRATED FLUIDIC ACTUATORS IN STRUCTURAL ELEMENTS}, year = 2022 }
3. M. J. Bosch et al., “Design of integrated fluidic actuators for muti-axial loaded structural elements,” in 8th European Congress on Computational Methods in Applied Sciences and Engineering, CIMNE, 2022. doi: 10.23967/eccomas.2022.081.
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  @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
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.
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  @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.
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  @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, Art. no. 3, 2022, doi: 10.3390/civileng3030047.
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  @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, Art. no. 10, Oct. 2021, doi: 10.3390/act10100273.
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  @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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2023

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Akademische Ausbildung mit Abschluss

Beruflicher Werdegang nach Studienabschluss

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