A Comprehensive Overview of Recycled Glass as Mineral Admixture for Circular UHPC Solutions

This review article analyzes the influence of recycled glass (as sand and powder) beyond the durability, rheology and compressive strength of plain UHPC, even exploring flexural and direct tensile performance in fiber-reinforced UHPC. Interactions with other mineral admixtures like limestone powder,...

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Published in:Sustainability 2024-06, Vol.16 (12), p.5077
Main Authors: Redondo-Pérez, N. Marcela, Redondo-Mosquera, Jesús D, Abellán-García, Joaquín
Format: Article
Language:English
Subjects:
Carbon footprint
Cement hydration
Concrete
Construction
Costs
Energy consumption
Environmental impact
Green buildings
Mechanical properties
Outdoor air quality
Quartz
Recycling
Sustainability
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Redondo-Mosquera, Jesús D
Abellán-García, Joaquín
description This review article analyzes the influence of recycled glass (as sand and powder) beyond the durability, rheology and compressive strength of plain UHPC, even exploring flexural and direct tensile performance in fiber-reinforced UHPC. Interactions with other mineral admixtures like limestone powder, rice husk ash, fly ash, FC3R, metakaolin and slags, among others, are analyzed. Synergy with limestone powder improves rheology, reducing superplasticizer usage. Research highlights waste glass–UHPC mixtures with reduced silica fume and cement content by over 50% and nearly 30%, respectively, with compressive strengths exceeding 150 MPa, cutting costs and carbon footprints. Furthermore, with the proper fiber dosage, waste glass–UHPC reported values for strain and energy absorption capacity, albeit lower than those of traditional UHPC formulations with high cement, silica fume and quartz powder content, surpassing requirements for demanding applications such as seismic reinforcement of structures. Moreover, durability remains comparable to that of traditional UHPC. In addition, the reported life cycle analysis found that the utilization of glass powder in UHPC allows a greater reduction of embedded CO2 than other mineral additions in UHPC without jeopardizing its properties. In general, the review study presented herein underscores recycled glass’s potential in UHPC, offering economic and performance advantages in sustainable construction.
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subjects Carbon footprint
Cement hydration
Concrete
Construction
Costs
Energy consumption
Environmental impact
Green buildings
Mechanical properties
Outdoor air quality
Quartz
Recycling
Sustainability
title A Comprehensive Overview of Recycled Glass as Mineral Admixture for Circular UHPC Solutions
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