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Treml, Simon

Simon Treml

M.A. M.Sc.

Research Associate
2022 - Current

Contact

+49 711 685 81937
Email

Stuttgart
Deutschland

Publications

Tapia Camu, C. A., Wagner, H.-J., Treml, S., Menges, A., & Aicher, S. (2023). Point-Support Reinforcement for a Highly Efficient Timber Hollow Core Slab System. World Conference on Timber Engineering (WCTE 2023), 2978–2986. https://doi.org/10.52202/069179-0388
- BibTeX
BibTeX
@inproceedings{tapiacamu2023pointsupport, author = {Tapia Camu, Cristobal Arnoldo and Wagner, Hans-Jakob and Treml, Simon and Menges, Achim and Aicher, Simon}, booktitle = {World Conference on Timber Engineering (WCTE 2023)}, doi = {10.52202/069179-0388}, eventdate = {2023-06-19/2023-06-22}, eventtitle = {World Conference on Timber Engineering (WCTE 2023)}, language = {eng}, pages = {2978-2986}, publisher = {Curran Associates, Inc.}, title = {Point-Support Reinforcement for a Highly Efficient Timber Hollow Core Slab System}, venue = {Oslo, Norway}, year = 2023 }
Opgenorth, N., Cheng, T., Lauer, P. R. A., Stark, T., Tahouni, Y., Treml, S., Göbel, M., Kiesewetter, L., Schlopschnat, C., Zorn, M. B., Yang, X., Amtsberg, F., Wagner, H. J., Wood, D., Sawodny, O., Wortmann, T., & Menges, A. (2024). Multi-scalar computational fabrication and construction of bio-based building envelopes – the livMatS biomimetic shell. Fabricate 2024: Creating Resourceful Futures, 22–31. https://doi.org/10.2307/jj.11374766.7
- BibTeX
BibTeX
@inproceedings{Opgenorth2024, author = {Opgenorth, Nils and Cheng, Tiffany and Lauer, Patricia Regina Anja and Stark, Tim and Tahouni, Yasaman and Treml, Simon and Göbel, Monika and Kiesewetter, Laura and Schlopschnat, Christoph and Zorn, Max Benjamin and Yang, Xiliu and Amtsberg, Felix and Wagner, Hans Jakob and Wood, Dylan and Sawodny, Oliver and Wortmann, Thomas and Menges, Achim}, booktitle = {Fabricate 2024: Creating Resourceful Futures}, doi = {10.2307/jj.11374766.7}, isbn = {9781800086357}, pages = {22-31}, publisher = {UCL Press}, title = {Multi-scalar computational fabrication and construction of bio-based building envelopes – the livMatS biomimetic shell}, url = {http://www.jstor.org/stable/jj.11374766.7}, year = 2024 }
Di Bari, R., Lauer, A., Schlopschnat, C., Treml, S., Opgenorth, N., Skoury, L., Stark, T., Bechert, S., Göbel, M., Wagner, H.-J., Wood, D., Leistner, P., Knippers, J., Menges, A., Sawodny, O., & Wortmann, T. (2024). Computational design and robotic fabrication for high environmental quality timber constructions: the livMatS Biomimetic Shell case study. https://doi.org/10.18419/darus-4434
- BibTeX
BibTeX
@misc{dibari2024computational, abstract = {The dataset includes the raw data and the corresponding report for the life cycle assessment of the building demonstrator 'livMatS Biomimetic Shell' (Website).The pressure on the construction industry to reduce its environmental impact is leading practitioners to investigate the use of more sustainable materials, such as timber. Still, due to its limited availability, it is questioned to which degree timber could substitute steel and concrete, and strategies to reduce its consumption are necessary. The Cluster of Excellence “IntCDC” investigates novel approachesto sustainable architecture. These exploit integrative computational design and automatic fabrication. These have been showcased in the livMatS Biomimetic Shell, for which a hollow timber cassette has been realized. In this study, the Lifecycle Assessment (LCA) analysis evaluated the developed cassette's environmental profile compared with other functionally equivalent systems. The analyses showed that the livMatS Biomimetic Shell reduced material consumption by 51% and a Global Warming Potential (GWP) 39% lower than conventional timber construction. Optimized fabrication processes allowed for emissions reduction by 60% in comparison with a solid cross-laminated timber box. }, affiliation = {Di Bari, Roberta/University of Stuttgart, Lauer, Anja Patricia Regina/University of Stuttgart, Schlopschnat, Christoph/University of Stuttgart, Treml, Simon/University of Stuttgart, Opgenorth, Nils/University of Stuttgart, Skoury, Lior/University of Stuttgar, Stark, Tim/University of Stuttgart, Bechert, Simon/University of Stuttgart, Göbel, Monika/University of Stuttgart, Wagner, Hans Jakob/University of Stuttgart, Wood, Dylan/University of Oregon, Leistner, Philip/University of Stuttgart, Knippers, Jan/University of Stuttgart, Menges, Achim/University of Stuttgart, Sawodny, Oliver/University of Stuttgart, Wortmann, Thomas/University of Stuttgart}, author = {Di Bari, Roberta and Lauer, Anja and Schlopschnat, Christoph and Treml, Simon and Opgenorth, Nils and Skoury, Lior and Stark, Tim and Bechert, Simon and Göbel, Monika and Wagner, Hans-Jakob and Wood, Dylan and Leistner, Philip and Knippers, Jan and Menges, Achim and Sawodny, Oliver and Wortmann, Thomas}, doi = {10.18419/darus-4434}, howpublished = {Dataset}, orcid-numbers = {Di Bari, Roberta/0000-0002-0203-5755, Lauer, Anja Patricia Regina/0000-0002-5640-7438, Schlopschnat, Christoph/0000-0002-7768-125X, Treml, Simon/0009-0006-5362-4193, Opgenorth, Nils/0009-0008-7209-4903, Skoury, Lior/0000-0002-2835-827X, Stark, Tim/0000-0002-4179-1887, Bechert, Simon/0000-0002-5088-5658, Wagner, Hans Jakob/0000-0001-8600-8481, Wood, Dylan/0000-0003-0922-5399, Leistner, Philip/0000-0001-7393-9754, Knippers, Jan/0000-0002-6683-8004, Menges, Achim/0000-0001-9055-4039, Sawodny, Oliver/0000-0002-6910-2473, Wortmann, Thomas/0000-0002-5604-1624}, title = {Computational design and robotic fabrication for high environmental quality timber constructions: the livMatS Biomimetic Shell case study}, year = 2024 }
Skoury, L., Treml, S., Opgenorth, N., Amtsberg, F., Wagner, H. J., Menges, A., & Wortmann, T. (2024). Towards data-informed co-design in digital fabrication. Automation in Construction, 158(February), Article February. https://doi.org/10.1016/j.autcon.2023.105229
- BibTeX
BibTeX
@article{skoury2024towards, affiliation = {Skoury, L (Corresponding Author), Univ Stuttgart, Inst Computat Design & Construct, Keplerstr 11, D-70174 Stuttgart, Germany. Skoury, Lior; Treml, Simon; Opgenorth, Nils; Amtsberg, Felix; Wagner, Hans Jakob; Menges, Achim; Wortmann, Thomas, Univ Stuttgart, Inst Computat Design & Construct, Keplerstr 11, D-70174 Stuttgart, Germany.}, author = {Skoury, Lior and Treml, Simon and Opgenorth, Nils and Amtsberg, Felix and Wagner, Hans Jakob and Menges, Achim and Wortmann, Thomas}, doi = {10.1016/j.autcon.2023.105229}, issn = {0926-5805}, journal = {Automation in construction}, language = {eng}, number = {February}, pages = 105229, publisher = {Elsevier}, research-areas = {Construction & Building Technology; Engineering}, title = {Towards data-informed co-design in digital fabrication}, unique-id = {WOS:001136239600001}, volume = 158, year = 2024 }

Teaching

University of Stuttgart

ITECH Master Thesis Advising:

2023 / 24: Finite Element Simulation of Local Densified Timber: Numerical Modeling and Experimental Investigation of Locally Densified Wood at Column-Slab Interface in Point-Supported CLT Systems - by Kumaraguru Rangaraj Venkatachalam

State Academy of Art and Design Stuttgart

Studio Advising:

2018/19: Fundamentals of Experimental Design

Simon Treml is a registered architect in Germany, a research associate and a doctoral candidate at the Institute for Computational Design and Construction (ICD). His research focuses on the development of resource-efficient timber building systems that leverage the potential of computational design and robotic manufacturing strategies.

He visited the Higher Technical College Hallstatt for Interior Design and Wood Technology and holds a Bachelor of Science in Architecture from the Technical University in Vienna. Later on, he graduated with a Master in Architecture from the State Academy of Art and Design Stuttgart as well as a Master of Science in Integrative Technologies and Architectural Design Research (ITECH) from the University of Stuttgart.

Prior to joining the ICD in 2022, he gained professional experience as a craftsman, architect and project manager for small to large-scale projects in enterprises and offices across Austria and Germany.

Simon is currently working on the development of the IntCDC Wood Multi-Story System and Implementation of the research in the large scale demonstrator IntCDC Building.

Research and Projects

Presentations

Controlled Anisotropy: A Design-to-Assembly Method for Resource-Efficient Timber Structures with Fibrous Joints | Paper Presentation, Acadia 2024 – Design Change, 14.11.2024, Banff, Canada
livMatS Biomimetic Shell – Integrativ Planen und Bauen, Invited Lecture, 26.09.2024 Freiburg, Germany
livMats Biomimetic Shell – Robotic Fabrication of a Segmented Timber Shell, Invited Lecture, 17.05.2024, Stuttgart, Germany
Punktgestütztes Flachdeckensystem für den Mehrgeschossigen Holzbau & Explorative Entwurfsmethoden für Urbane Nachverdichtung, Invited Lecture, ASP Architects, 17.05.2024, Stuttgart, Germany
Punktgestütztes Holz-Flachdeckensystem für den Mehrgeschoßbau | News | Mar 6, 2024 | Institute for Computational Design and Construction | University of Stuttgart, Invited Online Lecture, 06.03.2024, Initiative Schöttleareal Stuttgart, Germany
livMatS Biomimetic Shell | News | Dec 1, 2023 | Institute for Computational Design and Construction | University of Stuttgart, Invited Online Lecture, 01.12.2023, Stuttgart, Germany
livMatS Biomimetic Shell, Project Presentation, Advances in Architectural Geometry (AAG), 06.10.2023, Stuttgart, Germany
Buga Shell - Computational Design, Digital Fabrication and Circular Construction, Invited Lecture, 08.05.2023, Buga Mannheim, Germany

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Simon Treml

Contact

Publications

BibTeX

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BibTeX

BibTeX

Teaching

Vita

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