Investigador/a Doctoral en Fatiga de Estructuras WAAM
Aalto University
Descripción de la Empresa
Qué Hacen
Aalto University es una universidad pública de investigación ubicada en Espoo, Finlandia, reconocida por sus importantes programas académicos e iniciativas de investigación centradas en tecnologías de energía renovable. Aunque no es una entidad comercial, sirve como un canal vital de talento para el sector de la energía renovable, ofreciendo diversos roles académicos, de investigación y colaborativos en la industria. El enfoque tecnológico central de la universidad abarca la producción de energía sostenible, el almacenamiento y conversión de energía, y combustibles avanzados, entre otras áreas, lo que la convierte en un líder en investigación energética (fuente: aalto.fi).
Proyectos y Trayectoria
Aalto University ha estado involucrada en varios proyectos notables que destacan su compromiso con el avance de las tecnologías de energía renovable. Una de estas iniciativas es el proyecto Zero Emission Marine, que tiene como objetivo reducir las emisiones de gases de efecto invernadero en el mar en un 60% para 2030 mediante el uso de combustibles a base de hidrógeno, con Aalto contribuyendo con investigaciones críticas sobre combustión (fuente: wartsila.com). Además, el Proyecto HENNES, financiado por Business Finland, se centra en el desarrollo de tecnologías de combustión de hidrógeno para aplicaciones sin emisiones (fuente: wartsila.com). La colaboración de Aalto con Helen Ltd, que comenzó en 2024, utiliza IA para optimizar sistemas energéticos inteligentes, mostrando el enfoque innovador de la universidad ante los desafíos energéticos (fuente: helen.fi).
Desarrollos Recientes
En diciembre de 2025, Aalto University renovó su asociación de I+D de cinco años con Wärtsilä, ampliando la colaboración para incluir esfuerzos internacionales en IA, aprendizaje automático y materiales avanzados (fuente: wartsila.com). La universidad también aseguró 25.67 millones de euros del Consejo de Investigación de Finlandia para investigaciones centradas en tecnologías de transición verde, incluyendo microelectrónica sostenible y transformaciones urbanas (fuente: sciencebusiness.net). Además, Aalto ha logrado avances significativos en sostenibilidad, alcanzando un 100% de electricidad renovable desde 2016 y eliminando el carbón en la calefacción urbana antes de lo previsto (fuente: aalto.fi).
Trabajar Allí
En Aalto University, los roles abarcan una variedad de disciplinas, incluyendo posiciones de investigación en conversión de energía y modelado de sistemas, así como oportunidades de doctorado y doctorado industrial financiadas por socios de la industria como Wärtsilä. La universidad fomenta una cultura colaborativa que enfatiza las asociaciones entre la industria y la academia, con contrataciones que ocurren principalmente en el campus de Otaniemi en Espoo (fuente: aalto.fi). Los empleados se benefician de un entorno laboral de apoyo que incluye horarios flexibles, servicios de salud ocupacional y generosas licencias anuales, reflejando el compromiso de la universidad con el bienestar de los empleados (fuente: aalto.fi).
Última actualización el feb. 24, 2026 | Informar un problema
Job Description
Aalto University is where science and art meet technology and business. We shape a sustainable future by making research breakthroughs in and across our disciplines, sparking the game changers of tomorrow and creating novel solutions to major global challenges. Our community is made up of 16 000 students and 5 200 employees, including 446 professors. Our campus is in Espoo, Greater Helsinki, Finland.
Diversity is part of who we are, and we actively work to ensure our community's diversity and inclusiveness. This is why we warmly encourage qualified candidates from all backgrounds to join our community.
The School of Engineering drives science and innovation in industrial and built environment technologies. We are committed to educating a new generation of experts who combine technical excellence with a deep understanding of sustainable development in shaping societies. Our research focuses on sustainable built environment, mechanics and materials, multidisciplinary energy technology, and design and implementation of technical systems. The strength of our school lies in close collaboration with stakeholders across research and education. About 50 doctoral candidates and 400 master's students graduate from the school every year. The school is home to 700 staff members, including 70 professors. To learn more, please visit eng.aalto.fi.
The Department of Energy and Mechanical Engineering at the Aalto University School of Engineering invites applications for
Doctoral Researcher Position in Fatigue of WAAM Structures
Aalto University Department of Energy and Mechanical Engineering is a community of around 300 staff members - including 30 tenure-track professors - assembled to research, teach, create, and develop solutions to society's needs. Key research areas include marine and arctic technology; energy technologies and systems; mechanical systems and mechatronics; and materials, manufacturing, and product development. We have strong links to industry, creating lasting impact in both business and society.
Are you a passionate developer of the new era in fatigue design of sustainable structures?
We are now looking for a fully funded Doctoral Researcher position focused on fatigue modelling of Wire Arc Additive Manufacturing (WAAM) components and structures. The position is embedded in the EU-funded FATDED project (https://fatded.projectsites.aalto.fi/). The doctoral researcher position is in the Advanced Marine Structures group, led by Professors Heikki Remes and Jani Romanoff, which is well known for its research on the fatigue of advanced welded structures and the interaction of materials and structures under practical design and production constraints. The position will also be supported by the FATDED Consortium, which includes leading European experts and companies in the field.
Your role and goals
In this position, your doctoral research will focus on how WAAM-induced geometric and material imperfections affect fatigue strength. You will identify repeating surface features in WAAM builds and investigate suitable geometry and material properties to quantify their effects on fatigue life. Theoretical and numerical modelling will be validated with fatigue experiments. The key feature of the investigation is the role of local geometry imperfections, such as undercuts, in explaining their link to local stress-strain fields and fatigue crack initiation. Your research work will contribute to the development of international guidelines for fatigue design of WAAM components and structures.
This doctoral project integrates detailed geometry and microstructure with physics-based simulation to understand fatigue in WAAM components. The work involves characterizing as-built surfaces and reconstructing them into high-fidelity finite element models that preserve key geometric features. Simulations will estimate local stress concentrations and cyclic strain to assess fatigue life, guided by measurements of spatially varying material properties and microstructural features such as grain size. The simulation results will be validated with full-field deformation data and fatigue experiments, culminating in a predictive framework that links WAAM surface and microstructural heterogeneity to fatigue initiation and life.
Your experience and ambitions
Candidates must hold a Master's degree in mechanical or materials engineering, applied mechanics, naval architecture, or a related field. A strong background in fatigue, solid and structural mechanics, materials behavior, or additive manufacturing is appreciated. Finite element analysis, meshing complex geometries, and experimental data interpretation for validation are considered necessary for the work. A strong command of English and the ability to work primarily on campus are essential. In addition, the following skills are considered assets, but they can also be learnt during doctoral studies: experience with surface scanning and point-cloud processing, hardness-to-property correlations, constitutive modelling, microstructural analysis via SEM/EBSD, and scripting in Python or MATLAB.
What we offer
The position offers a meaningful research topic with high industrial relevance and impact through the EU FATDED consortium, strong supervision and mentoring, and access to state-of-the-art experimental facilities and numerical modelling resources. You will have ample professional development opportunities through courses, workshops, and project collaborations, as well as a competitive doctoral-researcher salary of 3,143-3,742 ???/month. We at Aalto University promote a healthy work-life balance with a hybrid work model; your primary workplace will be Aalto University's Otaniemi campus (Espoo), which offers excellent services and transport links. You will join an inclusive community guided by Aalto's values of responsibility, courage, and collaboration.
How to apply
To apply, please submit your application by July 31, 2026 (23:59 EET) through our recruiting system by using the "Apply now"! link. Please include the following documents in English as one PDF file:
- Motivation letter
- Curriculum vitae
- Study records
- Any research outputs (e.g., thesis, journal or conference papers)
Please note: Aalto University's employees should apply for the position via our internal HR system Workday (Internal Jobs) using their existing Workday user account (not via the external open positions webpage). If you are a student or visitor at Aalto University, please apply with your personal email address (not aalto.fi) via Aalto University open positions.
For more information
If you would like to learn more about the position, please contact Associate Professor Heikki Remes, heikki.remes(at)aalto.fi. For questions related to the application process, please contact [email protected].
We will review applications, and we may invite suitable candidates to interview during the application period.
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Aplicar ahora
¿El empleo expiró?Indica a Aalto University que encontraste este empleo en Rejobs. Nos ayuda a crecer y a que más personas trabajen en energías renovables.
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Sobre el rol
1 julio 2026
3 julio 2026
Doctorado
Híbrido
Escuela
EUR 3k–4k monthly
- Espoo, Finlandia
Master's degree required, background in relevant fields appreciated.
UTC+03:00