TU Dresden RWTH Leibniz Institut

Publikationen / Publications 2020, 2021, 2022, 2023

Backes, J.G.; Traverso, M. (2023) Social Life Cycle Assessment in the construction industry – systematic literature review and identification of relevant social indicators for carbon reinforced concrete in Environment, Development and Sustainability - https://doi.org/10.1007/s10668-023-03005-6

Backes, J.G.; Hinkle-Johnson, R.; Traverso, M. (2023) The Influence of the Functional Unit on the Comparability of Life Cycle Assessments in the Construction Sector: A Systematic Literature Review and Attempt at Unification for Reinforced Concrete in Case Studies in Construction Materials, e01966 -  https://doi.org/10.1016/j.cscm.2023.e01966

Weniger, A.; Del Rosario, P.; Backes, J.G.; Traverso, M. (2023) Consumer Behavior and Sustainability in the Construction Industry—Relevance of Sustainability-Related Criteria in Purchasing Decision in Buildings, 13(3), 638 - https://doi.org/10.3390/buildings13030638

Backes, J. G.; Del Rosario, P.; Luthin, A.; Traverso, M. (2022) Comparative Life Cycle Assessment of End-of-Life Scenarios of Carbon-Reinforced Concrete: A Case Study in Applied Sciences 12, 9255 - https://doi.org/10.3390/app12189255

Backes, J. G.; Del Rosario, P.; Petrosa, D.; Traverso, M.; Hatzfeld, T.; Günther, E. (2022) Building Sector Issues in About 100 Years: End-of-Life Scenarios of Carbon-Reinforced Concrete Presented in the Context of a Life Cycle Assessment, Focusing the Carbon Footprint in Processes, 10, 1791 - https://doi.org/10.3390/pr10091791.

Backes, J. G.; Traverso, M. (2021) Application of Life Cycle Sustainability Assessment in the Construction Sector: A Systematic Literature Review in Processes 9 (7), 1248 – https://doi.org/10.3390/pr9071248

Backes, J. G.; Traverso, M. (2021) Life Cycle Sustainability Assessment—A Survey Based Potential Future Development for Implementation and Interpretation in Sustainability 13 (24), 13688 – https://doi.org/10.3390/su132413688

Backes, J. G.; Traverso, M. (2022) Life Cycle Sustainability Assessment as a metrics towards SDGs Agenda 2030 in Current Opinion in Green and Sustainable Chemistry, 100683 - https://doi.org/10.1016/j.cogsc.2022.100683.

Backes, J. G.; Traverso, M. (2021) Life Cycle Sustainability Assessment in the construction sector – actual application and future outlook in E3S Web of Conferences, Vol. 349 (2022)  S. Albrecht, M. Fischer, C. Scagnetti, M. Barkmeyer and A. Braune (Eds.): Proc. of LCM 2021, 01.–08.09.2021 in Stuttgart (Deutschland, digital), 2021, 6 pages  DOI: https://doi.org/10.1051/e3sconf/202234904007

Backes, J. G.; Traverso, M. (2021) Sustainability of disruptive innovation – Cradle-to-gate LCA of Carbon Reinforced Concrete in Proc. of X Convegno dell’Associazione Rete Italiana LCA, 22.–24.09.2021 in Reggio Calabria (Italien), 207-214 - ISBN: 9791221004564

Backes, J. G.; Vogelsang, M. E.; Traverso, M. (2021) Life Cycle Sustainability Assessment interpretation and communication Vortrag bei 14th Biennal Int. Conf. on EcoBalance – EcoBalance Conf. 2020, 04./05.03.2021 in Sendai (Japan, digital), 2021, p. 6/7 (Book of Conf. Abstracts) – https://www.ecobalanceconference.org/conference/2020/pdf/EcoBalance2020Abstract_0225.pdf

Beckmann, B.; Bielak, J.; Bosbach, S.; Scheerer, S.; Schmidt, Chr.; Hegger, J.; Curbach, M. (2021) Collaborative research on carbon reinforced concrete structures in the CRC/TRR 280 project in Civil Engineering Design  3, issue 3, p. 99–109 – DOI: 10.1002/cend.202100017

Beckmann, B.; Bielak, J.; Scheerer, S.; Schmidt, Chr.; Hegger, J.; Curbach, M. (2021) Standortübergreifende Forschung zu Carbonbetonstrukturen im SFB/TRR 280 in Bautechnik  98, issue 3, p. 232–242 – DOI: 10.1002/bate.202000116

Becks, H.; Bielak, J.; Camps, B.; Hegger, J. (2021) Application of fiber optic measurement in textile-reinforced concrete testing in Structural Concrete (first published online: 25.11.2021) – DOI: 10.1002/suco.202100252

Chasapi, M.; Mester, L.; Simeon, B.; Klinkel, S. (2021) Isogeometric analysis of 3D solids in boundary representation for problems in nonlinear solid mechanics and structural dynamics in Int J Numer Methods Eng, p.1–25 – DOI: 10.1002/nme.6893

Chudoba, R.; Li, Y.; Rypl, R.; Spartali, H.; Vořechovský, M. (2021) Probabilistic multiple cracking model of brittle-matrix composite based on a one-by-one crack tracing algorithm in Applied Mathematical Modelling 92, issue April, p. 315–332 – DOI: 10.1016/j.apm.2020.10.041

Friese, D. (2021) Biologically inspired load adapted 3D Textile Reinforcement Structures in AUTEX 2021 – 20th World Textile Conference, online (Guimarães, Portugal), 05.–09.09.2021, p. 187/188 (Vortrag)

Friese, D. (2021) Biologie und Robotik am Bau Biologisch inspirierte lastangepasste 3D-Textilbewehrungsstrukturen / Biology and robotics in construction Biologically inspired load-adapted 3D textile reinforcement structures in CU reports, 2, p. 26/27

Friese, D.; Cherif, Ch. (2021) Biologically inspired load adapted 3D textile reinforcement structures in TRENDGUIDE Technical Textiles 64:2, p. E117

Friese, D.; Scheurer, M.; Hahn, L.; Gries, T.; Cherif, Ch. (2022) Textile reinforcement structures for concrete construction applications––a review in: Journal of Composite Materials, online first. https://doi.org/10.1177/00219983221127181

Hatzfeld, T., Backes, J. G., Guenther, E., & Traverso, M. (2022) Modeling circularity as Functionality Over Use-Time to reflect on circularity indicator challenges and identify new indicators for the circular economy. Journal of Cleaner Production, (in press). https://doi.org/10.1016/j.buildenv.2022.109520

Hatzfeld, T., Schlüter, D., Scope, C., Krois, K., Guenther, E., Etzold, B., Curbach, M. (2022) Rethinking residential energy storage: GHG minimization potential of a Carbon Reinforced Concrete facade with function integrated supercapacitors. Building and Environment, 224: 109520. https://doi.org/10.1016/j.jclepro.2022.134797

Kalthoff, M.; Raupach, M.; Matschei, T.Investigation of Rheological Test Methods for the Suitability of Mortars for Manufacturing of Textile-Reinforced Concrete Using a Laboratory Mortar Extruder (LabMorTex). Constr. Mater. 2022, 2, 217-233. https://doi.org/10.3390/constrmater2040015

Kalthoff, M.; Bosbach, S.; Matschei, T.; Raupach, M.; Claßen, M.; Hegger, J.: Investigations on material-minimized slabs made of extruded carbon reinforced concrete, Proceedings, pp. 1047-1057, 6th fib Congress Oslo Norway June 2022

Kalthoff, M.; Raupach, M.; Matschei, T. (2022) Extrusion and Subsequent Transformation of Textile-Reinforced Mortar Components—Requirements on the Textile, Mortar and Process Parameters with a Laboratory Mortar Extruder (LabMorTex) in Buildings 12, 726 – https://doi.org/10.3390/buildings12060726

Kalthoff, M.; Raupach, M.; Matschei, T. (2022) Investigation into the Integration of Impregnated Glass and Carbon Textiles in a Laboratory Mortar Extruder (LabMorTex) in Materials 14, 7406, S: 217–233 – https://doi.org/10.3390/ma14237406

Kalthoff, M.; Raupach, M.; Matschei, T. (2022) Materialminimiertes Bauen mit extrudiertem Textilbeton in Beton 72, Issue 6, S. 195–198

Liebold, F.; Lorenzoni, R.; Curosu, I.; Léonard, F.; Mechtcherine, V.; Paciornik, S.; Maas, H.-G. (2021) 3D Least Squares Matching Applied to Micro-Tomography Data in: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences 43, issue B2, p. 533–539https://doi.org/10.5194/isprs-archives-XLIII-B2-2021-533-2021

Liebold, F.; Maas, H.-G. (2022) 3D-Deformationsanalyse und Rissdetektion in multitemporalen Voxeldaten von Röntgentomographen
in: Kersten T., Tilly, N. [eds.] 42. Wissenschaftlich-Technische Jahrestagung der DGPF, Band 30, 05./06.10.2022 in Dresden, S. 105–116 – https://doi.org/10.24407/KXP:1796026123

Liebold, F.; Maas, H.-G. (2022) Computational Optimization of the 3D Least-Squares Matching Algorithm by Direct Calculation of Normal Equations in: Tomography 8, Issue 2, S. 760–777 – https://doi.org/10.3390/tomography8020063

Loehnert, S.; Krüger, C.; Klempt, V.; Munk, L. (2023) An enriched phase-field method for the efficient simulation of fracture processes in: Computational Mechanics - https://doi.org/10.1007/s00466-023-02285-z

Macek, D., Holthusen, H., Rjosk, A., Ritzert, S., Lautenschläger, T., Neinhuis, C., Simon, JW. and Reese, S. (2022).Mechanical investigations of the peltate leaf of Stephania japonica (Menispermaceae): Experiments and a continuum mechanical material model. Frontiers in Plant Science, 13.

Mechtcherine, V.; Buswell, R.; Kloft, H.; Bos, F. P.; Hack, N.; Wolfs, R.; Saranjan, J.; Nematollahi, B.; Ivaniuk, E.; Neef, T. (2021) Integrating reinforcement in digital fabrication with concrete: A review and classification framework in Cement and Concrete Composites 119, 103964 – DOI: 10.1016/j.cemconcomp.2021.103964

Mechtcherine, V.; Michel, A.; Neef, T.; Liebscher, M.; Müller, S. (2020) 3D printing with carbon reinforced concretein CPT – Construction Printing Technology, issue 3, p. 23–29

Mester, L.; Klarmann, S.; Klinkel, S. (2021) A homogenisation approach for shell structures using scaled boundary isogeometric analysis on RVE-level in Proc. Appl. Math. Mech. 21:1 – Special Issue: 92nd Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), 15.–19.03.2021 in Kassel, paper no. e202100157, 2 pageshttps://doi.org/10.1002/pamm.202100157

Neef, T.; Müller, S.; Mechtcherine, V. (2020) 3D-Druck mit Carbonbeton: Technologie und die ersten Untersuchungsergebnisse in Beton- und Stahlbetonbau 115, issue 12, p. 943–951 – DOI: 10.1002/best.202000069

Neef, T.; Müller, S. (2020) Neue Carbonfaserbewehrung für Beton-3D-Druck und andere digitale Betonbauverfahren in: C3 – Carbon Concrete Composite e. V.; TUDALIT e. V. [eds.] Tagungsband der 12. Carbon- und Textilbetontage, 22./23.09.2020 (held digitally), p. 32/33

Platen, J.; Zreid, I.; Kaliske, M. (2023) : A nonlocal microplane approach to model textile reinforced concrete at finite deformations in International Journal of Solids and Structures, Vol. 267, p. 112151, DOI: https://doi.org/10.1016/j.ijsolstr.2023.112151

Rjosk, A., Neinhuis, C., Lautenschläger, T. (2022). Anatomy and Biomechanics of Peltate Begonia Leaves—Comparative Case Studies. Plants 11: 3297.

Scheurer, M.; Kalthoff, M.; Matschei, T.; Raupach, M.; Gries, T. (2022) Analysis of Curing and Mechanical Performance of Pre-Impregnated Carbon Fibers Cured within Concrete in: Textiles, Vol. 2, Issue 4, p. 657-672. https://doi.org/10.3390/textiles2040038

Spartali, H.; Rastegarian. S.; Will, N.; Chudoba, R. (2021) Moment-curvature model for flexural assessment of textile-reinforced concrete beams in: Si Larbi, A.; Nassif, H. [eds.] Proc. of 13th International Symposium on Ferrocement and Thin Fiber Reinforced Inorganic Matrices, 21.–23.06.2021 in Lyon, France (online), p. 145–156 – http://dx.doi.org/10.5281/zenodo.5028860

Wunnenberg, J., Rjosk, A., Neinhuis, C., Lautenschläger, T. (2021). Strengthening structures in the petiole-lamina junction of peltate leaves. Biomimetics 6(2): 25.

Wuth, J.; Scope, C. (2021) Nachhaltiges Bauen in der Praxis: Bewertung des Zertifizierungsprozesses der ökologischen Qualität nach DGNB System in Bauingenieur 96, issue 9, p. 296–308 – DOI: 10.37544/0005-6650-2021-09-40