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Development of Geopolymeric Mortar from Metakaolin and Ignimbrite from the Añashuayco Quarries, Peru, for Civil Construction

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  • Alan Ícaro Sousa Morais

    (Departamento de Ciencias Naturales, Universidad Católica San Pablo, Arequipa 04001, Peru
    Postgraduate Program in Materials Science and Engineering, Interdisciplinary Laboratory of Advanced Materials (LIMAV), Campus Universitário Ministro Petrônio Portella—Ininga, Federal University of Piauí, Teresina 64049-550, PI, Brazil)

  • Daniela Krisbéll Ortega Palmeira

    (Departamento de Ciencias Naturales, Universidad Católica San Pablo, Arequipa 04001, Peru)

  • Ariane Maria Da Silva Santos Nascimento

    (Postgraduate Program in Materials Science and Engineering, Interdisciplinary Laboratory of Advanced Materials (LIMAV), Campus Universitário Ministro Petrônio Portella—Ininga, Federal University of Piauí, Teresina 64049-550, PI, Brazil)

  • Josy Anteveli Osajima

    (Postgraduate Program in Materials Science and Engineering, Interdisciplinary Laboratory of Advanced Materials (LIMAV), Campus Universitário Ministro Petrônio Portella—Ininga, Federal University of Piauí, Teresina 64049-550, PI, Brazil)

  • Ramón Raudel Peña Garcia

    (Academic Unit of Cabo de Santo Agostinho—UACSA, Federal Rural University of Pernambuco—UFRPE, No. 300—Cohab, Cabo de Santo Agostinho 54518-430, PE, Brazil)

  • Fredy Alberto Huamán-Mamani

    (Departamento de Ciencias Naturales, Universidad Católica San Pablo, Arequipa 04001, Peru)

Abstract

The construction industry generates large amounts of waste and high CO 2 emissions, especially from cement production. Sustainable alternatives, such as geopolymers, help reduce these impacts by promoting eco-friendly materials. This study aimed to develop geopolymer mortar using ignimbrite (IG) residues from the Arequipa region, Peru, combined with metakaolin (MK). The raw materials were characterized by X-ray diffraction (XRD), X-ray fluorescence (XRF), Fourier transform infrared spectroscopy (FTIR), and scanning electron microscopy (SEM) with energy dispersive spectroscopy (EDS) to assess the chemical composition, structure, and morphology. Geopolymeric mortars were synthesized with varying MK/IG ratios while maintaining a fixed fine sand proportion. An activating solution of 9 mol/L NaOH was used with different liquid-to-solid ratios. Geopolymers cured at room temperature for 28 days exhibited lower compressive strength than those dried at 50 °C for 48 h or sequentially at 50 °C for 48 h followed by 90 °C for 12 h. The highest IG-content mixture achieved a compressive strength of 18 MPa, while the MK-based geopolymer reached 12 MPa, both under high-temperature curing. An increase in the SiO 2 /Al 2 O 3 molar ratio was also associated with improved mechanical performance, reinforcing the influence of precursor composition on geopolymerization. These results highlight the potential of regional ignimbrite for the production of geopolymer mortar, promoting sustainable and innovative building materials.

Suggested Citation

  • Alan Ícaro Sousa Morais & Daniela Krisbéll Ortega Palmeira & Ariane Maria Da Silva Santos Nascimento & Josy Anteveli Osajima & Ramón Raudel Peña Garcia & Fredy Alberto Huamán-Mamani, 2025. "Development of Geopolymeric Mortar from Metakaolin and Ignimbrite from the Añashuayco Quarries, Peru, for Civil Construction," Sustainability, MDPI, vol. 17(13), pages 1-26, June.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:13:p:5714-:d:1684206
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    References listed on IDEAS

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    1. Noushin Islam & Malindu Sandanayake & Shobha Muthukumaran & Dimuth Navaratna, 2024. "Review on Sustainable Construction and Demolition Waste Management—Challenges and Research Prospects," Sustainability, MDPI, vol. 16(8), pages 1-30, April.
    2. Elen Abuowda & Hilal El-Hassan & Tamer El-Maaddawy, 2024. "Characterization of Geopolymer Masonry Mortars Incorporating Recycled Fine Aggregates," Sustainability, MDPI, vol. 16(18), pages 1-27, September.
    3. Mohammed Ali M. Rihan & Turki S. Alahmari & Richard Ocharo Onchiri & Naftary Gathimba & Bernadette Sabuni, 2024. "Impact of Alkaline Concentration on the Mechanical Properties of Geopolymer Concrete Made up of Fly Ash and Sugarcane Bagasse Ash," Sustainability, MDPI, vol. 16(7), pages 1-17, March.
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