Curriculum Vitae -- Daniel Fernández Eguibar
Profile
Aerospace engineer with a focus on aircraft design, structural design, and composite materials. Experienced in using CATIA v5 and SolidWorks for design projects. Skilled in MATLAB and JavaScript for analysis and programming tasks. Fluent in German, English, and Spanish.
Education
2011-Present Ph.D. in Aerospace Engineering, University of Stuttgart, Germany. Research focus on composite materials and structural design.
2003-2010 Aerospace Engineering Studies, Universidad Politécnica de Madrid.
2001-2003 High School, St. Patrick's English School, San Sebastián, Global Honour Grade.
Language Skills
German - Fluent
English - Native proficiency
Spanish - Native proficiency
French - Beginner
Conference Presentations
- 2019 JEC World, Paris. 2-Components-Technology for Advanced Composite Epoxy Systems
- 2018 Symposium Composites, Augsburg. FUTURE MARKET: Elevator Technologies
- 2017 DLRK 2017, Munich. Investigation of the buckling and load-bearing behavior of selectively stitched CFRP panels under multiaxial loading
- 2015 ICCE-23, Chengdu, China. Study of the Influence of UV-Light on CFRP Laminates Stitched with Aramid Thread
Publications
- Sachse, R.; Fernández, D.; Klett, Y.; Middendorf, P.: Integral, Disruptive, and Multifunctional Aircraft Structures. In: Pantelakis, S., Tserpes, K. (eds) Revolutionizing Aircraft Materials and Processes. Springer, Cham. doi: 0.1007/978-3-030-35346-9_7. 2020.
- Fernández Eguibar, D.: Selective Stitching on Composite Skin-Stiffener Bonding for Improved Damage Tolerant Structures; Verlag Dr. Hut. ISBN: 978-3-8439-4131-0. 2019.
- Fernández, D.; Begemann, B.; Middendorf, P.; Horst, P.: Investigation of the buckling and load-bearing behaviour of selectively stitched stiffened CFRP panels under multiaxial loading. CEAS Aeronaut J 10, 703–717, doi: 10.1007/s13272-018-0343-y. 2019.
- McGarrigle, C.; Fernández, D.; Middendorf, P.; et al.: Extruded high-temperature thermoplastic tufting yarns for enhanced mechanical properties of composites. Journal of Reinforced Plastics and Composites 39.7-8, 249-259. doi: 10.1177/0731684419886368. November 2019.
- Fernández, D.; Weiß, M.; Klett, Y.; Middendorf, P.: Composite Technology Potential: Utilization of Tufting Technology for Automated Manufacturing of Lightweight Structures. JEC Composites Magazine. 112, pp. 32-35. April-May 2017.
Skills
Aerospace Engineering
- Aircraft Design
- Structural Design
- Composite Materials
- Finite Element Analysis
- Failure Analysis
- Material Testing
- Technical Writing
Software and Programming
- CATIA v5 - Experienced user
- SolidWorks - Advanced user
- JavaScript - Intermediate to advanced
- LATEX - Experienced user
- MATLAB - Experienced user
- Office Suite - Experienced user, including MS Project
International Experience
2011-Present: Germany - Ph.D. studies in Stuttgart and employment at COMPOSYST GmbH since 2018.
Traveled to more than 40 countries across 5 continents. Willingness to travel.
2010-2011: India - Diploma thesis in Madras.
1994-1995: USA - School year in Boston.
