Ms. Hüray Ilayda Kök | Topology Optimization | Women Researcher Award

Education & Experience 🎓💼

• Ph.D. Candidate (2022-Present) – Leibniz University Hannover 🏛️
• M.Sc. in Mechanical Engineering (2022) – Western Norway University of Applied Sciences, Norway 🇳🇴
  • Thesis: Finite element modeling of low cycle fatigue in steel specimens ⚙️
• B.Sc. in Mechanical Engineering (2019) – Leibniz University Hannover 🇩🇪
  • Thesis: Design, modeling, and assembly of an electrified high-speed drivetrain ⚡🚗
• Research Associate (2022-Present) – Leibniz University Hannover 🔬
• Deputy Head (Development & Design), VDI Hannover – Leading innovation in engineering methodology and product data management 🏗️

Professional Development (100 Words) 🌍📈

Hüray Ilayda Kök actively engages in interdisciplinary research, focusing on the numerical and experimental characterization of additively manufactured implants. As a core member of DFG Research Group 5250, she integrates computational modeling with real-world applications to enhance implant longevity and biocompatibility. Her collaborations with leading experts in damage mechanics and topology optimization contribute to the advancement of medical engineering. She is also committed to professional networking, serving as deputy head of VDI Hannover’s Development and Design working group. Through Meet the In(g)dustry, she fosters connections between academia and industry, bridging research with practical applications for future technological advancements. 🔍🛠️

Research Focus (100 Words) 🔬📊

Hüray Ilayda Kök specializes in continuum mechanics, damage modeling, fatigue analysis, and topology optimization. Her research primarily revolves around additively manufactured implants, specifically permanent and bioresorbable magnesium-based structures. She works on predicting the long-term mechanical behavior of implants under physiological loads and corrosion conditions using advanced finite element simulations. Her role in DFG Research Group 5250 contributes to optimizing lattice structures for improved implant durability and biocompatibility. By bridging experimental and numerical approaches, she enhances implant design methodologies, aiming for safer and more efficient medical solutions. Her research plays a crucial role in advancing biomedical and mechanical engineering. 🏥⚙️

Awards & Honors 🏅🎖️

• Best Researcher Award Nominee 🏆
• Women Research Award Nominee 👩‍🔬
• Young Scientist Award Nominee 🌟
• DFG Research Group 5250 Member – Prestigious German Research Foundation initiative 🔬
• VDI Hannover Deputy Head (Development & Design) – Recognized for leadership in engineering innovation 🏗️

Publication Top Notes

• Reduction of stress-shielding and fatigue-resistant dental implant design through topology optimization and TPMS lattices

  • Authors: HI Kök, M Kick, O Akbas, S Stammkötter, A Greuling, M Stiesch, F Walther, …
  • Year: 2025
  • Journal: Journal of the Mechanical Behavior of Biomedical Materials

• Topology optimization and high cycle fatigue modeling in additively manufactured dental implants

  • Authors: HI Kök, P Junker, M Kick
  • Year: 2024
  • Journal: Transactions on Additive Manufacturing Meets Medicine 6 (S1), 1853-1853

• S25: Computational and mathematical methods in data science

  • Author: B Schmitzer
  • Year: 2023
  • Journal: Minisymposia 16, 590

• S03: Damage and fracture mechanics

  • Authors: P Steinmann, H Lammen, J Mosler
  • Year: Not available
  • Journal: Minisymposia 16 202, 118