Experimental characterization of the mechanical and functional performance of innovative ultra-low carbon sandwich panels and envelope systems for buildings

H. Gervásio; L. Simões da Silva; A. Eizaguirre-Iribar; X. Olano-Azkune; J. Lange; E. M. Pradhan; T. Renaux; T. Gelders; V. Huet; D. Izabel; D. Spagni; A. Palisson; V. Prudor

doi:10.1016/j.tws.2025.112999

Experimental characterization of the mechanical and functional performance of innovative ultra-low carbon sandwich panels and envelope systems for buildings

H. Gervásio^*, L. Simões da Silva, A. Eizaguirre-Iribar, X. Olano-Azkune, J. Lange, E. M. Pradhan, T. Renaux, T. Gelders, V. Huet, D. Izabel, D. Spagni, A. Palisson, V. Prudor

^*Corresponding author for this work

Products and Components Fire

Research output: Contribution to journal › Article › peer-review

Abstract

The use of low-carbon materials is key for decarbonizing the construction sector, but their innovation potential is still relatively unexplored. The EU research project InCSEB aimed at the development of five ultra-low carbon steel building envelope systems and sandwich panels for cladding and roofing applications. These façade systems and sandwich panels incorporate the innovative use of wood fiber, a renewable and bio-sourced insulation material, while achieving a high level of mechanical and functional performances and ensuring compliance with other requirements such as sustainability criteria. This paper provides an overview of the results of the experimental study that has been carried out to assess and validate the functional and mechanical performances of the proposed innovative insulation sandwich panels and façade systems, aiming to achieve a technology readiness level of TRL 7 by the end of the project. The experimental study shows very promising results, fulfilling market expectations regarding mechanical, seismic, thermal, environmental, and regulatory requirements.

Original language	English
Article number	112999
Journal	Thin-Walled Structures
Volume	210
DOIs	https://doi.org/10.1016/j.tws.2025.112999
Publication status	Published - May 2025

Keywords

Decarbonization
Double skin systems
Light-weight steel structures
Low-carbon envelope systems
Sandwich panels
Wood fiber insulation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.tws.2025.112999

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Gervásio, H., Simões da Silva, L., Eizaguirre-Iribar, A., Olano-Azkune, X., Lange, J., Pradhan, E. M., Renaux, T., Gelders, T., Huet, V., Izabel, D., Spagni, D., Palisson, A., & Prudor, V. (2025). Experimental characterization of the mechanical and functional performance of innovative ultra-low carbon sandwich panels and envelope systems for buildings. Thin-Walled Structures, 210, Article 112999. https://doi.org/10.1016/j.tws.2025.112999

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title = "Experimental characterization of the mechanical and functional performance of innovative ultra-low carbon sandwich panels and envelope systems for buildings",

abstract = "The use of low-carbon materials is key for decarbonizing the construction sector, but their innovation potential is still relatively unexplored. The EU research project InCSEB aimed at the development of five ultra-low carbon steel building envelope systems and sandwich panels for cladding and roofing applications. These fa{\c c}ade systems and sandwich panels incorporate the innovative use of wood fiber, a renewable and bio-sourced insulation material, while achieving a high level of mechanical and functional performances and ensuring compliance with other requirements such as sustainability criteria. This paper provides an overview of the results of the experimental study that has been carried out to assess and validate the functional and mechanical performances of the proposed innovative insulation sandwich panels and fa{\c c}ade systems, aiming to achieve a technology readiness level of TRL 7 by the end of the project. The experimental study shows very promising results, fulfilling market expectations regarding mechanical, seismic, thermal, environmental, and regulatory requirements.",

keywords = "Decarbonization, Double skin systems, Light-weight steel structures, Low-carbon envelope systems, Sandwich panels, Wood fiber insulation",

author = "H. Gerv{\'a}sio and {Sim{\~o}es da Silva}, L. and A. Eizaguirre-Iribar and X. Olano-Azkune and J. Lange and Pradhan, {E. M.} and T. Renaux and T. Gelders and V. Huet and D. Izabel and D. Spagni and A. Palisson and V. Prudor",

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doi = "10.1016/j.tws.2025.112999",

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Gervásio, H, Simões da Silva, L, Eizaguirre-Iribar, A , Olano-Azkune, X, Lange, J, Pradhan, EM, Renaux, T, Gelders, T, Huet, V, Izabel, D, Spagni, D, Palisson, A & Prudor, V 2025, 'Experimental characterization of the mechanical and functional performance of innovative ultra-low carbon sandwich panels and envelope systems for buildings', Thin-Walled Structures, vol. 210, 112999. https://doi.org/10.1016/j.tws.2025.112999

TY - JOUR

T1 - Experimental characterization of the mechanical and functional performance of innovative ultra-low carbon sandwich panels and envelope systems for buildings

AU - Gervásio, H.

AU - Simões da Silva, L.

AU - Eizaguirre-Iribar, A.

AU - Olano-Azkune, X.

AU - Lange, J.

AU - Pradhan, E. M.

AU - Renaux, T.

AU - Gelders, T.

AU - Huet, V.

AU - Izabel, D.

AU - Spagni, D.

AU - Palisson, A.

AU - Prudor, V.

PY - 2025/5

Y1 - 2025/5

N2 - The use of low-carbon materials is key for decarbonizing the construction sector, but their innovation potential is still relatively unexplored. The EU research project InCSEB aimed at the development of five ultra-low carbon steel building envelope systems and sandwich panels for cladding and roofing applications. These façade systems and sandwich panels incorporate the innovative use of wood fiber, a renewable and bio-sourced insulation material, while achieving a high level of mechanical and functional performances and ensuring compliance with other requirements such as sustainability criteria. This paper provides an overview of the results of the experimental study that has been carried out to assess and validate the functional and mechanical performances of the proposed innovative insulation sandwich panels and façade systems, aiming to achieve a technology readiness level of TRL 7 by the end of the project. The experimental study shows very promising results, fulfilling market expectations regarding mechanical, seismic, thermal, environmental, and regulatory requirements.

AB - The use of low-carbon materials is key for decarbonizing the construction sector, but their innovation potential is still relatively unexplored. The EU research project InCSEB aimed at the development of five ultra-low carbon steel building envelope systems and sandwich panels for cladding and roofing applications. These façade systems and sandwich panels incorporate the innovative use of wood fiber, a renewable and bio-sourced insulation material, while achieving a high level of mechanical and functional performances and ensuring compliance with other requirements such as sustainability criteria. This paper provides an overview of the results of the experimental study that has been carried out to assess and validate the functional and mechanical performances of the proposed innovative insulation sandwich panels and façade systems, aiming to achieve a technology readiness level of TRL 7 by the end of the project. The experimental study shows very promising results, fulfilling market expectations regarding mechanical, seismic, thermal, environmental, and regulatory requirements.

KW - Decarbonization

KW - Double skin systems

KW - Light-weight steel structures

KW - Low-carbon envelope systems

KW - Sandwich panels

KW - Wood fiber insulation

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SN - 0263-8231

VL - 210

JO - Thin-Walled Structures

JF - Thin-Walled Structures

M1 - 112999

ER -

Experimental characterization of the mechanical and functional performance of innovative ultra-low carbon sandwich panels and envelope systems for buildings

Abstract

Keywords

UN SDGs

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