Open Access
Diseño de un mecanismo de propulsión para bicicleta capaz de almacenar y descargar energía mecánica producida por el usuario
(AEIPRO, 2013) Villanueva Roldán, Pedro; Corral Bobadilla, Marina; Lostado Lorza, Rubén; Illera Cueva, M.; Bona, J; Ingeniería; Ingeniaritza
La energía eléctrica todavía proviene en su mayor parte de combustiones fósiles y soluciones no ecológicas. En este artículo se describe una alternativa a la bicicleta eléctrica. Se muestra el proceso de diseño de un dispositivo aplicable a una bicicleta, formado únicamente por elementos mecánicos siguiendo una moda retro o steampunk. Tiene por objetivo divertir al usuario, produciendo un estímulo directamente relacionado con la velocidad y el esfuerzo físico. Tanto el almacenamiento de energía, como la descarga de la misma, se produce a voluntad del usuario. Por un lado, una vez alcanzada una velocidad adecuada al gusto del usuario o cuando él así lo desee, da marcha atrás con los pedales cargando así el dispositivo. Por otro lado, mediante una palanca descargará la energía que ha acumulado previamente. El diseño del componente está basado en el diferencial utilizado en la dirección dentro del sector de automoción, así como en los engranajes dotados con resortes utilizados en los coches de juguete, los cuales almacenan energía al hacerlos rotar. El nuevo dispositivo combina estos elementos aplicando modificaciones en los mismos para que su efecto se adapte a los objetivos deseados.
Open Access
Design of an electromagnetic servo brake with ABS function
(Trans Tech Publications, 2015) Lostado Lorza, Rubén; Somovilla Gómez, Fatima; Corral Bobadilla, Marina; Villanueva Roldán, Pedro; Fernández Martínez, Roberto; Ingeniería; Ingeniaritza
Open Access
Design and optimization of an electromagnetic servo braking system combining finite element analysis and weight-based multi-objective genetic algorithms
(Springer, 2016) Lostado Lorza, Rubén; Villanueva Roldán, Pedro; Fernández Martínez, Roberto; Mac Donald, Bryan J.; Ingeniería; Ingeniaritza
Open Access
The integration of mechanical energy absorbers into rollover protective structures to improve the safety of agricultural tractors in the event of rollover
(MDPI, 2024) Alfaro López, José Ramón; Pérez Ezcurdia, Amaya; Latorre Biel, Juan Ignacio; Arana Navarro, Ignacio; Benito Amurrio, Marta; Villanueva Roldán, Pedro; Ingeniería; Ingeniaritza; Institute of Smart Cities - ISC; Universidad Pública de Navarra / Nafarroako Unibertsitate Publikoa, PJUPNA1912
The combination of safety belts and rollover protective structures (ROPSs) is key in improving the safety of agricultural tractors in the event of rollover. However, we also have the opportunity to enhance the security provided by each ROPS; one such example is the combination of this safety device with adequate mechanical energy absorbers (MEAs). Inexpensive disc-shaped MEAs can be included in the anchoring points of a ROPS onto the chassis of a tractor. Three configurations of ROPS combined with MEAs were tested during the application of loads that simulated the effects of side rollover in the vehicle. The tested configurations included a blank MEA as a reference case alongside a single MEA and a stack assembly containing both elements. The results of the tests show that both the deformation of the ROPS itself and the strain energy are larger in the case of blank MEAs; thus, there is also a risk that the clearance zone will be infringed upon and that the protective structure will collapse. We can conclude that the implementation of an appropriate MEA in ROPS reduces the deformation of the ROPS itself and its strain energy in cases of vehicle rollover; hence, the safety provided by such protection systems may be improved at a low cost.
Open Access
Evaluation of the potential of natural mining by-products as constituents of stabilized rammed earth building materials
(MDPI, 2025-05-06) Martín Antunes, Miguel Ángel; Perlot, Céline; Villanueva Roldán, Pedro; Abdallah, Rafik; Seco Meneses, Andrés; Ingeniería; Ingeniaritza; Institute of Smart Cities - ISC; Universidad Pública de Navarra / Nafarroako Unibertsitate Publikoa
In this investigation, different natural by-products were used to modify the Particle Size Distribution (PSD) of a soil to evaluate their potential in Stabilized Rammed Earth (SRE) building. Three different mixes were manufactured: (i) a mix composed entirely of a clayey soil, (ii) a mix consisting of mining by-products and clayey soil and (iii) a mix entirely based on mining by-products. Unstabilized and stabilized samples of the mixes were manufactured using two cement dosages (2.5% and 5%), and the samples were tested for Unconfined Compressive Strength (UCS), soaked UCS, and wetting and drying tests. Mining by-products demonstrated significant potential in SRE building, as their addition to the clayey soil resulted in higher UCS values compared to the UCS obtained from clayey soil alone. Unstabilized samples lost their integrity during exposure to water. The inclusion of mining by-products also showed potential as, although the mixes did not fully meet the requirements for soaked UCS and the wetting and drying tests, the mix containing both mining by-products and clayey soil retained its integrity in water, unlike the samples composed solely of clayey soil. M3C5 successfully met the requirements for soaked UCS and the wetting and drying tests, further highlighting the great potential of mining by-products in SRE building.
Open Access
Recovered foam impact absorption systems
(MDPI, 2024-10-19) Marcelino Sádaba, Sara; Benito Hernández, Pablo; Martín Antunes, Miguel Ángel; Villanueva Roldán, Pedro; Veiga Suárez, Fernando; Ingeniería; Ingeniaritza
The use of foam materials in environments where they come into contact with individuals often results in deterioration, necessitating periodic replacements to maintain safety and hygiene standards. Foam, a lightweight, porous plastic formed by aggregated bubbles, possesses excellent impact-absorbing properties; however, its inherent porosity and susceptibility to wear present challenges. This project aims to develop a technological application for repurposing spent polyurethane (PU) foam from leisure facilities into effective impact absorption systems. By focusing on the reuse of deteriorated foam materials, this initiative seeks to minimize environmental impact while leveraging their beneficial technical characteristics. Addressing issues related to foam degradation, this project endeavors to create sustainable solutions by reintegrating spent foam into new systems. This innovative approach promotes sustainability while enhancing safety through the provision of high-quality, impact-resistant elements. Ultimately, this work aims to contribute to environmental conservation and the advancement of effective impact protection measures in leisure facilities.
Open Access
Pugh's total design: the design of an electromagnetic servo brake with ABS function - a case study
(SAGE, 2016) Villanueva Roldán, Pedro; Lostado Lorza, Rubén; Corral Bobadilla, Marina; Ingeniería; Ingeniaritza
Open Access
Residual stresses with time-independent cyclic plasticity in finite element analysis of welded joints
(MDPI, 2017) Lostado Lorza, Rubén; Corral Bobadilla, Marina; Martínez Calvo, María Ángeles; Villanueva Roldán, Pedro; Proyectos e Ingeniería Rural; Landa Ingeniaritza eta Proiektuak
Due to the intense concentration of heat in a reduced area when Gas Metal Arc Welding (GMAW) is used to join mechanical components, the regions near the weld bead are subjected to severe thermal cycles. Firstly, the region close to the weld bead that is heated tends to be in compression and, when it cools, tends to be in tension. According to Pilipenko, the material is exposed to elastic compression and, then, reaching the yield limit, undergoes plastic deformation with the appearance of residual stresses followed by elastic-plastic unloading. This could be considered as a strain-stress cycle. This paper applies plastic-strain-range memorization based on time-independent cyclic plasticity theory for butt joints with single V-groove Finite Element (FE) models that were manufactured by GMAW. The theory combines both the isotropic hardening and the nonlinear kinematic hardening rule (Chaboche model) to reproduce the behavior of cyclic plasticity and thus to obtain the residual stresses in welded joint FE models. As a practical example, the proposed theory is validated by three welded joint specimens that were manufactured with different input parameters of speed, voltage, and current. An agreement between the residual stresses obtained by the FE model proposed and those obtained experimentally by the hole drilling method at different depths demonstrates that the proposed theory could be valid for modelling the residual stresses in welded joints when cyclic plasticity is considered over the range of speed, voltage, and current studied.
Open Access
Monitoring of blind rivets installations: contributions from the manufacturing chain and time-series imaging
(Elsevier, 2025-10-01) Penalva Oscoz, Mariluz; Gil del Val, Alain; Martín, Ander; Villanueva Roldán, Pedro; Uralde Jiménez, Virginia; Veiga Suárez, Fernando; Ingeniería; Ingeniaritza; Universidad Pública de Navarra / Nafarroako Unibertsitate Publikoa
Fastening is a crucial operation in the aircraft manufacturing cycle, and the demand for automated solutions has grown in recent years. Blind rivets are particularly suitable for automation due to their ease of use. However, fastening with blind rivets requires indirect evaluation of the formed head for in-line quality monitoring. This study presents two approaches to address this problem. Firstly, an analysis of the drilling-riveting chain assesses the impact of the previous operation on riveting outcomes. Secondly, time-dependent signals from the riveting process are coded into images and analysed using deep learning techniques. Despite some limitations, both methods for monitoring blind riveting have demonstrated high precision and accuracy values above 0.9, with 1 indicating perfect precision or accuracy, suggesting that they can reliably predict the quality of rivet installations.
Open Access
Optimización de un freno de disco mediante la combinación del método de los elementos finitos y algoritmos genéticos
(AEIPRO, 2012) Zurrón-Barragán, Carlos; Olarte-Valentín, Rubén; Ramírez-Aragón, María Cristina; Villanueva Roldán, Pedro; Lostado Lorza, Rubén; Ingeniería; Ingeniaritza
Un freno de disco es un sistema de frenado que actúa sobre las ruedas motrices de los vehículos. Este dispositivo transforma toda o parte de la energía cinética del vehículo debida al movimiento en calor a fin de detenerlo o disminuir su velocidad. Cualquier freno de disco posee una parte móvil (el disco) y una rueda que gira, así como unas pastillas de fricción o de freno. Estas pastillas son los elementos que ejercen la presión y la adherencia sobre los propios discos. Hoy en día, el diseño de este tipo de dispositivos está basado tanto en estudios teóricos como en el Método de los Elementos Finitos (MEF). Uno de los principales inconvenientes de éste método es el ajuste de las condiciones de contorno del modelo y de los parámetros de material. En este trabajo, se muestra el ajuste y la validación experimental de un modelo de elementos finitos de un freno de disco completo. Este ajuste y validación del modelo se realizó mediante técnicas de Algoritmos Genéticos (GA).