# Experimental Evaluation of a Concealed Anchoring System for Large-Format Thin Ceramic Panels Under Wind Loading in Ventilated Façades

**Authors:** Jordi Roviras Miñana, Vicente Sarrablo Moreno, Pedro Casariego Vales

PMC · DOI: 10.3390/ma19061062 · 2026-03-11

## TL;DR

This study tests a hidden anchoring system for large ceramic panels in building façades, showing it can handle high wind loads without damage.

## Contribution

The study experimentally validates a concealed anchoring system for large-format thin ceramic panels under wind loading in ventilated façades.

## Key findings

- Ceramic panels showed no cracking or anchor pull-out under wind pressures up to 3006 Pa.
- Maximum deflection at service pressure (1300 Pa) was 5.7 mm, below the L/200 criterion.
- Stresses in panels remained below flexural strength, confirming structural reliability.

## Abstract

Large-format thin ceramic panels are increasingly used in ventilated façade systems due to their reduced weight, high durability and architectural versatility. However, their reduced thickness and large dimensions require reliable anchoring solutions capable of safely transferring wind loads to the supporting structure. This study investigates the structural behaviour of a concealed mechanical anchoring system for large-format porcelain stoneware panels installed in ventilated façades. An experimental campaign was carried out using a full-scale façade prototype representative of real construction conditions. The specimen was subjected to incremental wind pressure and suction loading in a controlled laboratory environment while monitoring the deformation of the ceramic panels, backing support layer and aluminium substructure. The experimental results show that the ceramic panels exhibited stable structural behaviour without cracking or anchor pull-out under pressure levels up to 3006 Pa, exceeding twice the design service pressure. The maximum estimated deflection at the service pressure level (1300 Pa) was 5.7 mm, significantly below the admissible limit defined by the L/200 serviceability criterion. A simplified mechanical analysis based on classical bending theory confirmed that the stresses induced in the ceramic panels remained well below their flexural strength. The results demonstrate that the investigated concealed anchoring system provides reliable structural performance for large-format thin ceramic panels subjected to wind loading in ventilated façade systems, while the simplified analytical verification confirms the mechanical consistency between the measured deformation levels and the flexural capacity of the ceramic material.

## Full-text entities

- **Chemicals:** aluminium (MESH:D000535)

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13027595/full.md

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Source: https://tomesphere.com/paper/PMC13027595