Innovative Lightweight Concrete with Carbonated Magnesium-Based Pellets
Onur Sahin, Enis Coşkun, Abdullah Huzeyfe Akca

TL;DR
This paper introduces a new lightweight concrete made with carbonated magnesium pellets that reduces environmental impact and is suitable for restoring historical buildings.
Contribution
The study develops eco-friendly artificial aggregates from magnesium-based binders for sustainable and compatible restoration materials.
Findings
Using artificial aggregates reduced concrete density by about 16.5%, improving seismic safety in historical structures.
The 14-day cured concrete achieved a compressive strength of 34.7 MPa, suitable for restoration applications.
The material offers CO2 sequestration, making it a carbon-negative solution for construction.
Abstract
The construction industry requires sustainable building materials to reduce its environmental impact. While using these materials in newly constructed structures primarily focuses on environmental benefits, their application in the protection of architectural heritage presents an additional requirement. These materials must be physically and chemically compatible with historical substrates to ensure the longevity of the structure. Therefore, developing eco-friendly and compatible restoration materials is a significant concern. This study aims to produce artificial aggregates to develop lightweight concrete for structural interventions and reduce natural resource consumption (i.e., minimizing the destructive extraction of natural river sand and crushed stone aggregates). Magnesium-based binders were used to mimic the carbonation process of historical lime mortars. The binders were mixed…
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Taxonomy
TopicsMagnesium Oxide Properties and Applications · Building materials and conservation · Hygrothermal properties of building materials
