Departamento de Ingeniería de la Construcción y Proyectos de Ingenieríahttps://hdl.handle.net/10481/196582026-04-18T23:39:55Z2026-04-18T23:39:55ZDesign and laboratory evaluation of a low-cost, portable sensor-based system for pavement condition monitoringWołukanis, KarolinaMoreno Navarro, Fernando ManuelGámiz Pérez, Francisco JesúsRubio Gámez, María Del Carmenhttps://hdl.handle.net/10481/1126892026-04-08T10:30:00ZDesign and laboratory evaluation of a low-cost, portable sensor-based system for pavement condition monitoring
Wołukanis, Karolina; Moreno Navarro, Fernando Manuel; Gámiz Pérez, Francisco Jesús; Rubio Gámez, María Del Carmen
Effective pavement condition monitoring is essential for road safety, maintenance planning, and sustainability. However, traditional monitoring systems are costly and complex, limiting their widespread deployment by road authorities. High cost and complexity encouraged the development of more affordable monitoring tools. Most of these existing low-cost monitoring systems rely on single-sensor configurations or simplified data processing methods, which limit their robustness and adaptability under real-world conditions. This study addresses this gap by developing a novel, low-cost, portable monitoring device for monitoring surface characteristics. This solution integrates multiple sensors (laser distance, accelerometer and temperature-humidity) into a single system supported by Internet of Things connectivity, with a total component cost under €100. The system addresses key barriers to adoption by offering an affordable and scalable solution suitable for municipalities, road maintenance contractors, infrastructure agencies, and smart city planners. Validation under laboratory controlled conditions using a Wheel Track machine demonstrates the device’s ability to reliably detect surface irregularities, measure environmental effects, and assess changes in surface texture and geometry under controlled conditions. The impact of environmental humidity on sensor performance was also quantified. These results confirm the system’s technical feasibility and measurement reliability. Given its affordability and modular design, the tool holds significant promise for enabling more frequent, data-driven road maintenance, ultimately reducing long-term infrastructure costs.
Assessing the effects of sea level rise on coastal wetlands and urban infrastructure using the SLAMM model: A case study in the Valdivia River, ChileGarcía Ruiz, Andrés MarceloLeal, GerardoBermúdez, MaríaCarpio Martínez, ManuelVerichev, Konstantinhttps://hdl.handle.net/10481/1125952026-04-06T09:23:56ZAssessing the effects of sea level rise on coastal wetlands and urban infrastructure using the SLAMM model: A case study in the Valdivia River, Chile
García Ruiz, Andrés Marcelo; Leal, Gerardo; Bermúdez, María; Carpio Martínez, Manuel; Verichev, Konstantin
Climate change poses a critical threat to coastal wetlands and urban infrastructure, especially in the Valdivia River basin in Chile. This study uses the Sea Level Affecting Marshes Model (SLAMM) to project changes in land use and areas prone to flooding due to sea level rise. The results indicate that a loss of approximately 15 km2 of irregularly flooded wetlands is expected, which will be transformed into regularly flooded wetlands. This will increase flood risk to adjacent communities, with 12.06% of stormwater discharge points located in flood-prone areas by 2030, increasing to 15.51% by 2050 and 18.97% by 2100. In addition, it is estimated that 64% of existing discharge points will be obstructed by wetland expansion, underscoring the need for integrated water management and a proactive approach to urban planning. The economic repercussions include increased costs for flood mitigation and infrastructure repairs, while social impacts may manifest as heightened vulnerability for local populations, particularly those in low-income areas. The study underscores the need for significant investment in adaptive measures to protect both the environment and community well-being. This research not only enhances understanding of climate change impacts on coastal ecosystems but also provides essential tools for decision-making in managing urban infrastructure amidst future risk scenarios.
Analysis of the Viability of Manufacturing MASAI Mixtures at Ambient TemperatureGarcía Travé, Gema MaríaTauste Martínez, RaúlMoreno Navarro, Fernando ManuelRubio Gámez, María Del Carmenhttps://hdl.handle.net/10481/1115182026-02-25T13:49:00ZAnalysis of the Viability of Manufacturing MASAI Mixtures at Ambient Temperature
García Travé, Gema María; Tauste Martínez, Raúl; Moreno Navarro, Fernando Manuel; Rubio Gámez, María Del Carmen
The main goal of this study is to evaluate the feasibility of designing high-performance
MASAI mixtures produced at ambient temperature. For this purpose, the impacts of
certain variables, such as the type and amount of asphalt emulsion and the use or non-use
of RAP, on its performance are evaluated. Subsequently, its stiffness modulus, tensile
strength, permanent deformation, and resistance to thermal cracking were evaluated and
compared against a conventional dense-graded asphalt concrete (AC 16) and an open
graded (BBTM11B) hot-mix asphalt used for wearing courses. The results showed that
these materials could represent more sustainable and good solutions for the rehabilitation
of some types of pavements.
Ciencia y Tecnología de Materiales de Construcción. Apuntes de TeoríaDel Sol Sánchez, Miguelhttps://hdl.handle.net/10481/1106302026-02-04T07:12:40ZCiencia y Tecnología de Materiales de Construcción. Apuntes de Teoría
Del Sol Sánchez, Miguel
Este documento ha sido elaborado con fines docentes como apuntes de teoría de
la asignatura de “Ciencia y Tecnología de Materiales” de las titulaciones de Grado
en Ingeniería Civil y Doble Grado en Ingeniería Civil y Administración y Dirección de
Empresas de la Universidad de Granada.
El principal objetivo consiste en servir de apuntes generales, con mero carácter
docente, sobre la mayor parte de la materia teórica que se imparte en la citada
asignatura de las titulaciones mencionadas.
El autor reconoce el uso de herramientas de inteligencia artificial en la creación de
imágenes ilustrativas a partir de figuras utilizadas en clases de teoría de la
asignatura.
Experimental Evaluation of Waste PET Bottles as a Sustainable Building MaterialÁvila, FernandoPuertas, EstherBlanca-Hoyos, ÁlvaroOrdóñez García, Bonifacio Javierhttps://hdl.handle.net/10481/1102222026-01-26T08:37:24ZExperimental Evaluation of Waste PET Bottles as a Sustainable Building Material
Ávila, Fernando; Puertas, Esther; Blanca-Hoyos, Álvaro; Ordóñez García, Bonifacio Javier
Sustainable development and the preservation of the natural environment are two concepts that are becoming increasingly important in the construction sector, leading to a growing interest in the development of ecofriendly building solutions. In this regard, the use of waste polyethylene terephthalate (PET) bottles as a construction material is an interesting alternative that can help to reduce the environmental impact of the building activity at little or no cost, while providing a second life to a material that is one of the main sources of pollution. The present study analyses the mechanical behavior of PET bottles for their use as construction materials, carrying compression tests to assess the elastic properties of PET bottles filled with sand or plastic waste, both alone and embedded in a concrete matrix. In asecond part of the study, a finite-element method model of an existing water tank built with PET bottles in Tanzania is developed and tested. The results obtained show the suitability of the composite bottle-and-concrete samples as a sustainable construction technique.