Hauschild Arencibia, P (2026). Exploring the structural behavior of reticular shells: Integrated system for load application and digital reconstruction (Bachelor’s Thesis)

Hauschild Arencibia, P (2026). Exploring the structural behavior of reticular shells: Integrated system for load application and digital reconstruction (Bachelor’s Thesis)

Title: Exploring the structural behavior of reticular shells: Integrated system for load application and digital reconstruction. Author: Hauschild Arencibia, P. Supervisor: Lara-Bocanegra AJ. Rating: 10 (MH) University: Higher Tech. School of Architecture of Madrid (ETSAM) | Tech. University of Madrid

Lara-Bocanegra AJ, Martínez-Criado Carlos, Roig A, Majano-Majano A (2025). Towards a new concept of laminar reticular timber structures. Lignomad 25. 24–26 Sep 2025. Granada, Spain. ISBN: 978-84-09-78213-0.

Lara-Bocanegra AJ, Martínez-Criado Carlos, Roig A, Majano-Majano A (2025). Towards a new concept of laminar reticular timber structures. Lignomad 25. 24–26 Sep 2025. Granada, Spain. ISBN: 978-84-09-78213-0.

AbstractThis work presents an innovative concept for the design and construction of timber grid shells, combining the advantages of active bending, carpentry joints, and digital fabrication, using a new laminated veneer lumber (LVL) made from Eucalyptus globulus L., which allows a fast

Martínez-Criado C, Lara-Bocanegra AJ, Roig A, González-Quintial F, Martín-Pastor A, Majano-Majano A. (2025) Multilayer elastic timber gridshells with Monge meshes. 6th International Conference on Structures and Architecture (ICSA). 8-11 July 2025. University of Antwerp, Belgium.

Martínez-Criado C, Lara-Bocanegra AJ, Roig A, González-Quintial F, Martín-Pastor A, Majano-Majano A. (2025) Multilayer elastic timber gridshells with Monge meshes. 6th International Conference on Structures and Architecture (ICSA). 8-11 July 2025. University of Antwerp, Belgium.

Abstract This work presents an alternative strategy to the design and fabrication of elastic timber gridshells to bring this type of structures closer to an industrialization and prefabrication context. The research focuses on the use of Moge surfaces as a

Lara-Bocanegra AJ, Martínez-Criado C, Roig A, Majano-Majano A. (2025) Rethinking elastic timber gridshells. 6th International Conference on Structures and Architecture (ICSA). 8-11 July 2025. University of Antwerp, Belgium.

Lara-Bocanegra AJ, Martínez-Criado C, Roig A, Majano-Majano A. (2025) Rethinking elastic timber gridshells. 6th International Conference on Structures and Architecture (ICSA). 8-11 July 2025. University of Antwerp, Belgium.

Abstract This work presents an innovative construction concept for timber gridshells, integrating active bending, CNC fabrication and carpentry joints, using high-performance Eucalyptus globulus LVL. This engineered wood product enables a fast and dry bending process. The research focuses on material

Bernabeu Larena A, González Sanz G, Alves T, Janković N, Ljubinković F, Simões da Silva L, Conde Conde J, Lara Bocanegra AL, Majano Majano A, Duchêne L, Neutelers A, Demonceau JF, Silva De Carvaloh A, Bodgan T, Odenbreit C, Mela K (2025). CONNECT4C: High-strength steel connections for circular construction 6th International Conference on Structures and Architecture (ICSA). 8-11 July 2025. University of Antwerp, Belgium.

Bernabeu Larena A, González Sanz G, Alves T, Janković N, Ljubinković F, Simões da Silva L, Conde Conde J, Lara Bocanegra AL, Majano Majano A, Duchêne L, Neutelers A, Demonceau JF, Silva De Carvaloh A, Bodgan T, Odenbreit C, Mela K (2025). CONNECT4C: High-strength steel connections for circular construction 6th International Conference on Structures and Architecture (ICSA). 8-11 July 2025. University of Antwerp, Belgium.

Abstract Connect4C is a research project funded by the European Union, which aimsto develop a system of high-strength steel connections for circular steel construction. It focuseson developing ready-to-use, standardized solutions for demountable, reusable, and adaptable3D connections, taking advantage of the

Martinez-Topete, A., Robles, M., Pérez, G., Martín-Consuegra, F., Castellote, M. & Jiménez-Relinque, E. Ecofriendly multifunctional bismuth oxyiodides pigment and paint coatings: Photocatalytic and cooling functionalities. Journal of Photochemistry and Photobiology A: Chemistry, Volume 460, 116151 (2025).

Martinez-Topete, A., Robles, M., Pérez, G., Martín-Consuegra, F., Castellote, M. & Jiménez-Relinque, E. Ecofriendly multifunctional bismuth oxyiodides pigment and paint coatings: Photocatalytic and cooling functionalities. Journal of Photochemistry and Photobiology A: Chemistry, Volume 460, 116151 (2025).

Abstract This work explores the potential application of bismuth oxyiodides as “cool” and photocatalytic materials. The BiOI-orange (microflower) and Bi5O7I-white (microneedle) pigments demonstrated multifunctional properties. The enhanced photocatalytic activity is attributed to their suitable band structures for NOx pollutant degradation.

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