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

Martínez-Criado C, Lara-Bocanegra AJ, Roig A, González-Quintial F, Martín-Pastor A, Majano-Majano A. (2024) Parametric design and digital fabrication of disassemblable elastic timber gridshells with principal curvature lines network and carpentry joints. P. Block, G. Boller, C. DeWolf, J. Pauli, W. Kaufmann (eds.) Proceedings of the IASS Symposium Redefining the Art of Structural Design. August 26-30, 2024, Zurich Switzerland.

Martínez-Criado C, Lara-Bocanegra AJ, Roig A, González-Quintial F, Martín-Pastor A, Majano-Majano A. (2024) Parametric design and digital fabrication of disassemblable elastic timber gridshells with principal curvature lines network and carpentry joints. P. Block, G. Boller, C. DeWolf, J. Pauli, W. Kaufmann (eds.) Proceedings of the IASS Symposium Redefining the Art of Structural Design. August 26-30, 2024, Zurich Switzerland.

Abstract This work explores the design and digital fabrication of elastic timber gridshells integrating principal meshes. These networks guarantee, among others, planar faces discretization, node offset properties and orthogonal meetings of the components what simplifies the joining solution for what

Martínez-Criado C, Lara-Bocanegra AJ, Roig A, González-Quintial F, Martín-Pastor A, Majano-Majano A. (2024) Hacia la fabricación digital de estructuras laminares de madera deformadas elásticamente con mallados ortogonales. III Congreso Ibero-Latinoamericano de la Madera en la Construcción (CIMAD). Madrid, España.

Martínez-Criado C, Lara-Bocanegra AJ, Roig A, González-Quintial F, Martín-Pastor A, Majano-Majano A. (2024) Hacia la fabricación digital de estructuras laminares de madera deformadas elásticamente con mallados ortogonales. III Congreso Ibero-Latinoamericano de la Madera en la Construcción (CIMAD). Madrid, España.

Abstract Las estructuras laminares reticulares de madera son estructuras que, gracias a la eficiencia estructural que les confiere su forma curva consiguen una notable optimización de material, constituyendo una excelente respuesta a las exigencias cada vez mayores de una construcción

Martínez-Criado C, Aira JR. (2021) CLT-concrete composite slab optimization. International Conference on Structural Integrity (ICSI), Funchal, Madeira, Portugal.

Martínez-Criado C, Aira JR. (2021) CLT-concrete composite slab optimization. International Conference on Structural Integrity (ICSI), Funchal, Madeira, Portugal.

Abstract The CLT-concrete slab solution contributes to notably improve several aspects where CLT shows some disadvantages related to its low stiffness or its low natural vibration frequency. This can affect the user’s comfort or even the structural integrity against resonance

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