Modulus of Elasticity and Mechanical Properties Assessment of Historical Masonry Elements After Elevated Temperature: Experimental Study and Numerical Analysis

Modulus of Elasticity and Mechanical Properties Assessment of Historical Masonry Elements After Elevated Temperature: Experimental Study and Numerical Analysis

Historical masonry structures deteriorate over time, requiring restoration and strengthening. Hydraulic lime-based mortars (HLMs), due to their compatibility with historical materials, are commonly used for this purpose. This study examines the fire resistance of masonry walls constructed with HLMs....

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Bibliographic Details
Main Authors: Ahmet Fazıl Kara, Ferit Cakir, Metehan Calis
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Buildings
Subjects:
elastic modulus
mechanical properties
masonry walls
elevated temperature
transient thermal analysis
digital image correlation
Online Access:https://www.mdpi.com/2075-5309/15/13/2324
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Summary:Historical masonry structures deteriorate over time, requiring restoration and strengthening. Hydraulic lime-based mortars (HLMs), due to their compatibility with historical materials, are commonly used for this purpose. This study examines the fire resistance of masonry walls constructed with HLMs. Masonry prisms with clay bricks were prepared using HLMs in accordance with material testing standards. Specimens were subjected to high temperatures ranging from 200 °C to 800 °C, followed by flexural–compression tests for mortar and compression tests for masonry prisms. A total of 20 masonry prism specimens, 15 brick specimens, and 15 mortar specimens were tested, including reference specimens at room temperature. Experimental results indicate that masonry prisms, clay bricks, and HLMs progressively lose their mechanical properties as temperature increases. The elastic modulus of masonry prisms was evaluated according to relevant standards, and Finite Element Analysis (FEA) was conducted to validate temperature-dependent material properties. The stress–strain response of M15 HLM masonry prisms was determined, addressing the absence of such data in EN 1996-1-2. Additionally, compression test results were compared with digital image correlation (DIC) analyses to enhance measurement accuracy. This study provides critical insights into the thermal performance of masonry walls with HLMs, contributing to the development of fire-resistant restoration materials.
ISSN:2075-5309

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