2.8:

Expansion and Contraction in Masonry Walls

JoVE Core
Civil Engineering
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JoVE Core Civil Engineering
Expansion and Contraction in Masonry Walls

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01:19 min

September 12, 2024

Masonry walls are subject to slight expansion and contraction due to variations in temperature and moisture. Thermal movement in masonry is relatively straightforward to measure and plan for. On the other hand, moisture movement poses more of a challenge. New clay masonry units typically absorb water and expand over time under normal environmental conditions. Conversely, new concrete masonry units tend to shrink as they lose the excess moisture acquired during their production process.

To accommodate these movements without causing damage to the structure, buildings must incorporate specific types of joints. Expansion joints are crucial as they are designed to open or close, allowing the material room to expand or contract in response to changes in moisture and temperature. These joints are often sealed with flexible materials to prevent the infiltration of air and water. Control joints, another essential feature, are intentionally incorporated as planes of weakness within the masonry. These joints are designed to open and manage shrinkage, particularly during the initial curing phase of the masonry.

Both expansion and control joints should be strategically placed in the structure. Common locations include points of geometric discontinuity like corners, changes in the wall's height or width, and near openings.