ICME: Metodología de modelización multi-escala proceso-microestructura-propiedades-desempeño para la agilización del diseño de materiales, procesos y componentes metálicos en la industria vasca
UPV/EHU - University of Basque Country
University of Mondragon
BCAM - Basque Center for Applied Mathematics
Objective:The aim of the project is the development of a multi-scale modelling methodology for metallic materials that allows establishing the relationship between the chemical composition of the material and the characteristics of its manufacturing process, with the resulting microstructure, with the material properties corresponding to this microstructure, and with its performance, in what is known as a PSPP (Process - Structure - Properties - Performance) approach. This type of methodology will provide a significant breakthrough that will accelerate both the development of new metallic materials and their process conditions, and the adaptation of existing materials to new extreme operating and manufacturing situations. The modelling methodology will be structured on the basis of different specific models (focused on certain processes, materials, etc.), independent and interchangeable, which can be coupled together, so that in the future it can also be extended to other types of models (focused on other processes, based on other modelling technologies, etc.).
MATH4SPORTS - Modelización matemática para la industria deportiva: salud y rendimiento
MATH4SPORTS seeks to transfer applied mathematics as a driving technology to the field of the sports industry, with a high potential for technology transfer to start-ups, professional clubs, researchers and other agents in the innovative environment of Bizkaia.
M-KONTAK - Investigación de los Fenómenos Asociados al Contacto Metal-Metal en Tecnologías de H2 a Alta Presión
The main objective of the M-KONTAK project is to gain an in-depth understanding of the failure modes and their effect on metallic materials and the surfaces of threaded joints in candidate technologies for high-pressure H2 effect on the metallic materials and surfaces that make up the threaded jo
KAIROS - Digitalización predictiva del comportamiento a largo plazo de materiales poliméricos composites. Empleo de IA, modelización basada en la física y metodologías de aceleración de ensayos
KAIROS was created with the main objective of researching and obtaining a solution that allows multi-scale digitisation combined with ML and accelerated testing methodologies, for the study of the long-term behaviour (creep, fatigue, ageing) of polymeric materials applicable, for example, to the
CHARGER+ - Nueva Generación de Puntos de Recarga de Vehículo Eléctrico con Funcionalidades Autónomas y Colaborativas e Impacto Cero
The general objective of the CHARGER+ project is to generate the necessary knowledge to define a new generation of electric vehicle (EV) charging points, so that the related Basque companies (electricity companies, charging post installation companies and charger manufacturers) will be in an adva