Hüseyin Sendir | Earth Sciences | Best Researcher Award

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Assist. Prof. Dr. Hüseyin Sendir | Earth Sciences | Best Researcher Award

Asst. Prof. Dr., Eskişehir Osmangazi University, Turkey

Dr. Hüseyin Sendir is an Assistant Professor of Geological Engineering at Eskişehir Osmangazi University, Turkey, with a Ph.D. (2009) in Geological Engineering from the same institution. His early career research focused on rock mechanics, landslide risk, and structural geology, as reflected in high‑impact papers such as his widely cited 2002 study on gypsum strength correlations. Over two decades his scholarship expanded into mineral deposit geology, isotopic geochemistry, and even planetary mining studies. He serves in multiple academic and quality commissions at his university, and currently holds leadership roles including Deputy Head of Department.

Professional Profile

Scopus | Google Scholar | ORCID

Education

Dr. Sendir completed his Bachelor of Engineering in Geological Engineering at Sivas Cumhuriyet University (1995–1999), followed by two Master’s degrees: at Cumhuriyet University (1999–2001) and at Eskişehir Osmangazi University (2001–2004), both thesis‑based in Geological Engineering. He earned his Ph.D. from Eskişehir Osmangazi University’s Institute of Science (2004–2009), specializing in geological engineering. His doctoral research investigated rock mechanics, geomechanical behavior, and field‑based measurements, which underpinned his later contributions to landslide analysis and compressive strength modeling. His formal academic training blends engineering fundamentals, field geology, and advanced isotopic and mineralogical methods.

Experience

Since completing his doctorate in 2009, Dr. Sendir has served as faculty in the Department of Geological Engineering at Eskişehir Osmangazi University. He was Head of Department from 2015 to 2016, again 2017–2022, and since 2023 has been Deputy Head. He is regularly a member of academic, quality‑assurance and accreditation commissions affiliated with the university and faculty—including roles in curriculum development and stakeholder engagement. In 2025 he also joined the Department Academic Incentive Evaluation Commission. His administrative service reflects sustained leadership in shaping educational quality and academic policy within the engineering faculty. Simultaneously, he taught postgraduate and doctoral courses in topics such as isotope geology and rare earth elements, supervising master’s theses and contributing to the academic development of the department.

Research Focus

Dr. Sendir’s research spans applied geological engineering, mineral deposit geology, isotope geochemistry, and emerging frontiers like planetary mining. His early landmark work established empirical correlations between Schmidt hammer rebound indices and rock mechanical properties (UCS, Young’s modulus) in gypsum—widely cited and used as a benchmark in rock mechanics. He has contributed to the geomorphological and geomechanical analysis of landslides in the North Anatolian Fault Zone. More recent work explores chromium and manganese deposits in Türkiye, Eocene granitoid magmatism and tectono‑magmatic evolution in NW Anatolia, and geochemical and isotopic controls on gold, copper‑molybdenum‑tungsten‑gold systems in porphyry‑skarn complexes. His research is deeply interdisciplinary, blending fieldwork, petrography, isotopic dating, and geochemistry, with growing interest in extraplanetary resource environments like lunar and Martian mining. He positions geological engineering at the intersection of energy, resources, and environmental resilience.

Publication Top Notes

  1. Yılmaz I, Sendir H. Correlation of Schmidt hardness with unconfined compressive strength and Young’s modulus in gypsum from Sivas (Turkey). Engineering Geology 66 (3–4): 211–219 (2002).

    • This empirical study developed regression relationships between Schmidt rebound values and mechanical properties of gypsum, providing fast, field‑based strength estimation tools for engineering geology; the work has been cited hundreds of times ResearchGate.

  2. Sendir H, Yılmaz I. Structural, geomorphological and geomechanical aspects of the Koyulhisar landslides in the North Anatolian Fault Zone (Sivas, Turkey). Environmental Geology 42(1): 52–60 (2002).

    • Investigated the 1998–2000 landslides through joint structural mapping, slope stability criteria (SMR/RMR), rainfall data and geomorphology; demonstrated the influence of faulting, steep topography and heavy precipitation on landslide activation ResearchGate.

  3. Sendir H. Arifler (Domaniç, Kütahya) yöresi manganöz cevherleşmesinin jeolojik özellikleri. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi (2020).

    • Documented geological setting, stratigraphy, and mineralization of manganese deposits hosted in Cretaceous mélange units near Domaniç, offering regional insights into ultramafic‑hosted ore systems avesis.ogu.edu.tr+2ResearchGate+2DergiPark+2.

  4. Sendir H, Yasin D, Karabacak V. Jeoloji Mühendisliği Güncel Çalışma Alanları. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi, 31(4): 1087–1093 (Dec 2023).

    • A comprehensive review of historical and contemporary research directions in geological engineering in Türkiye, covering educational developments, research themes and future horizons avesis.ogu.edu.tr+2DergiPark+2ResearchGate+2.

  5. Kocatürk H, Kumral M, Creaser RA, Dufrane SA, Ünlüer AT, Sendir H, et al. Magmatic Redox Evolution and Porphyry–Skarn Transition in Multiphase Cu‑Mo‑W‑Au Systems of the Eocene Tavşanlı Belt, NW Türkiye. Minerals 15(8):792 (2025).

    • Employing field mapping, whole‑rock geochemistry, Re–Os molybdenite dating and mineral chemistry, this open‑access article explains magmatic controls on porphyry to skarn mineralization across four mineralized zones in the Nilüfer complex mdpi.com+1ResearchGate+1.

  6. Umucu Y, Ünal N, Deniz V, Gürsoy YH, Sendir H. Investigation of ball mill optimization based on kinetic model and separator particle‑size separation. Physicochemical Problems of Mineral Processing (2025).

    • Presented a kinetic breakage model linking mill capacity, shaft power, and particle size distribution; suggests operational relationships to improve energy efficiency in dry ball‑mill grinding circuits

Conclusion

Overall, Asst. Prof. Hüseyin Sendir’s longstanding commitment to academic service, teaching excellence, and research — particularly his early, highly cited geotechnical studies and recent ventures into cutting-edge areas like extraterrestrial mining — illustrate a dynamic and evolving academic trajectory. Given his contributions to both scientific knowledge and institutional development, he is a strong candidate for the Best Researcher Award, and recognition at this stage would both honor his past work and encourage further high-impact contributions in the years ahead.

Gulseren dagdelenler | Engineering Geology | Women Researcher Award

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Assoc. Prof. Dr. Gulseren dagdelenler | Engineering Geology | Women Researcher Award

Gulseren dagdelenler, Hacettepe University, Turkey

Gulseren Dagdelenler is a distinguished researcher and academic at Hacettepe University, specializing in geological engineering. Her research focuses on engineering geology, landslides, GIS, rock mechanics, and soft computing methods. With extensive expertise, she has contributed significantly to improving rock excavation techniques and landslide susceptibility mapping. Her academic journey spans from her undergraduate studies at Hacettepe University to her Ph.D. in geological engineering. With numerous publications and active participation in scientific research, she is a leading figure in her field. Gulseren’s work has earned recognition both nationally and internationally, making her a prominent researcher in the geotechnical engineering community. Beyond academia, she is passionate about contributing to safer, more sustainable construction practices and environmental protection, particularly in landslide-prone regions.

Profile

Education

Gulseren Dagdelenler completed her education at Hacettepe University, where she earned her Bachelor’s degree in Geological Engineering (1999–2003). She then pursued a Master’s degree in the same field at Hacettepe University’s Graduate School of Natural and Applied Sciences (2003–2006), focusing on rock material classification. Building on her academic foundation, she completed her Ph.D. at the same institution from 2007 to 2013, concentrating on landslide susceptibility mapping and evaluation techniques. Throughout her academic career, she has remained dedicated to advancing the field of geological engineering, particularly in areas related to rock mechanics, excavation, and environmental geology. Her research has not only contributed to geological theory but also has practical applications in civil engineering, disaster management, and resource extraction. Gulseren’s strong academic background has laid the foundation for her successful career as a researcher and educator.

Experience

Gulseren Dagdelenler has had an impressive academic career at Hacettepe University. Starting as a Research Assistant in 2007, she has advanced to the position of Ph.D. Research Assistant since 2012, where she continues to contribute to the university’s research output. Throughout her career, Gulseren has worked extensively on topics related to engineering geology, such as landslide susceptibility, rock excavation methods, and the application of geographic information systems (GIS) and remote sensing technologies. Her experience includes both theoretical research and practical studies that have led to the development of tools and methods for predicting rock behavior in excavation processes. Gulseren’s ability to combine geological engineering with modern technology has made her a leading figure in her field. She has also collaborated with various professionals, contributing to the geotechnical engineering community, and published widely in respected academic journals, making her an integral part of the university’s research environment.

Awards and Honors

Gulseren Dagdelenler has received several prestigious awards and honors throughout her academic career. In 2020, her paper “A Flexible System for Selection of Rock Mass Excavation Method,” co-authored with Harun Sonmez and Charalampos Saroglou, won the award from the Turkish National Committee on Roads (YTMK), recognizing its contribution to rock excavation engineering. Her research has been widely cited, with numerous publications in respected journals such as Journal of Rock Mechanics and Geotechnical Engineering, Arabian Journal of Geosciences, and Bulletin of Engineering Geology and the Environment. Her contributions to rock mechanics, geotechnical engineering, and landslide research have garnered recognition within the scientific community. Gulseren’s work is not only well-regarded for its academic rigor but also for its practical implications in environmental safety and engineering practices. These accolades reflect her continued excellence and leadership in the field of geological engineering and geotechnical research.

Research Focus

Gulseren Dagdelenler’s research focuses on several key areas within geological engineering, including engineering geology, landslides, and rock mechanics. One of her primary research interests is landslide susceptibility mapping, particularly in areas prone to geological hazards, such as the Gallipoli Peninsula. She combines remote sensing, GIS, and soft computing methods to enhance the accuracy and efficiency of landslide prediction. Her work also extends to the study of rock excavation techniques, where she has developed innovative methods for selecting excavation methods based on rock mass properties. Additionally, she explores weathering in rocks, the behavior of rock masses under stress, and liquefaction phenomena. Gulseren’s interdisciplinary approach integrates geotechnical engineering with advanced technologies like artificial intelligence to address complex geological problems. Her research not only contributes to scientific knowledge but also has practical applications in civil engineering, environmental management, and disaster mitigation.

Publication Top Notes

  1. “A Flexible System for Selection of Rock Mass Excavation Method” 🪓🪨
  2. “A Novel Approach to Structural Anisotropy Classification for Jointed Rock Masses Using Theoretical Rock Quality Designation Formulation Adjusted to Joint Spacing” 📏🪨
  3. “Comparison of the Efficiency Evaluations of Selected Excavatability Classifications for Rock Masses” ⛏️🪨
  4. “An Empirical Method for Predicting the Strength of Bim Materials Using Modifications of Lindquist’s and Leps’ Approaches” 🧱🔬
  5. “A Flexible System for Selection of Rock Mass Excavation Method” 🪓🪨
  6. “Comparison of the Landslide Susceptibility Maps Using Two Different Sampling Techniques with the Frequency Ratio (Fr) Method” 🌍🌧️
  7. “Landslide Susceptibility Mapping at Ovacık-Karabük (Turkey) Using Different Artificial Neural Network Models: Comparison of Training Algorithms” 🧠🌍
  8. “Prediction of Mono-Wire Cutting Machine Performance Parameters Using Artificial Neural Network and Regression Models” 🤖🔩
  9. “Application of Chebyshev Theorem to Data Preparation in Landslide Susceptibility Mapping Studies: An Example from Yenice (Karabük, Turkey) Region” 🧮📍
  10. “Predicting Uniaxial Compressive Strength and Deformation Modulus of Volcanic Bimrock Considering Engineering Dimension” 🏔️🧱