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Technological Innovations in Sustainable Civil Engineering: Advanced Materials, Resilient Design, and Digital Tools

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  • Carlos A. Ligarda-Samanez

    (Nutraceuticals and Biomaterials Research Group, Universidad Nacional José María Arguedas, Andahuaylas 03701, Peru
    Civil Engineering School, Universidad Nacional José María Arguedas, Andahuaylas 03701, Peru)

  • Mary L. Huamán-Carrión

    (Nutraceuticals and Biomaterials Research Group, Universidad Nacional José María Arguedas, Andahuaylas 03701, Peru)

  • Domingo J. Cabel-Moscoso

    (Ambiental Engineering School, Universidad Nacional San Luis Gonzaga, Ica 11001, Peru)

  • Doris Marlene Muñoz Sáenz

    (Faculty of Education, Universidad Peruana los Andes, Huancayo 12006, Peru)

  • Jaime Antonio Martinez Hernandez

    (Ambiental Engineering School, Universidad Nacional San Luis Gonzaga, Ica 11001, Peru)

  • Antonina J. Garcia-Espinoza

    (Ambiental Engineering School, Universidad Nacional San Luis Gonzaga, Ica 11001, Peru)

  • Dante Fermín Calderón Huamaní

    (Ambiental Engineering School, Universidad Nacional San Luis Gonzaga, Ica 11001, Peru)

  • Carlos Carrasco-Badajoz

    (Research Group on Ecology and Aquatic Biodiversity (GI-EBAQUA), Ayacucho 05000, Peru)

  • Darwin Pino Cordero

    (Professional School of Accounting Sciences, Universidad Nacional del Altiplano, Puno 21001, Peru)

  • Reynaldo Sucari-León

    (Engineering and Management Faculty, Universidad Nacional Autónoma de Huanta, Ayacucho 05000, Peru)

  • Yolanda Aroquipa-Durán

    (Professional Nursing School, Universidad Nacional Autónoma Altoandina de Tarma, Junin 12731, Peru)

Abstract

Civil engineering today faces the challenge of responding to climate change, rapid urbanization, and the need to reduce environmental impacts. These factors drive the search for more sustainable approaches and the adoption of digital technologies. This article addresses three principal dimensions: advanced low-impact materials, resilient structural designs, and digital tools applied throughout the infrastructure life cycle. To this end, a systematic search was conducted considering studies published between 2020 and 2025, including both experimental and review works. The results show that materials such as geopolymers, biopolymers, natural fibers, and nanocomposites can significantly reduce the carbon footprint; however, they still face regulatory, cost, and adoption barriers. Likewise, modular, adaptable, and performance-based design proposals enhance infrastructure resilience against extreme climate events. Finally, digital tools such as Building Information Modeling, digital twins, artificial intelligence, the Internet of Things, and 3D printing provide improvements in planning, construction, and maintenance, though with limitations related to interoperability, investment, and training. In conclusion, the integration of materials, design, and digitalization presents a promising pathway toward safer, more resilient, and sustainable infrastructure, aligning with the Sustainable Development Goals and the concept of smart cities.

Suggested Citation

  • Carlos A. Ligarda-Samanez & Mary L. Huamán-Carrión & Domingo J. Cabel-Moscoso & Doris Marlene Muñoz Sáenz & Jaime Antonio Martinez Hernandez & Antonina J. Garcia-Espinoza & Dante Fermín Calderón Huama, 2025. "Technological Innovations in Sustainable Civil Engineering: Advanced Materials, Resilient Design, and Digital Tools," Sustainability, MDPI, vol. 17(19), pages 1-24, September.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:19:p:8741-:d:1760860
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