Sadjad Naderi | Rock Mechanics | Best Researcher Award

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Dr Sadjad Naderi | Rock Mechanics | Best Researcher Award

Senior Research Associate at Imperial College London, United Kingdom

Dr. Sadjad Naderi is a Senior Research Scientist/Engineer at Imperial College London, specializing in applied solid mechanics and microstructural analysis. With over 9 years of postdoctoral experience, he holds a PhD in failure analysis of reinforced polymer composites and is a Chartered Engineer (CEng) with the Institution of Mechanical Engineers (IMechE). Dr. Naderi has made significant contributions to AI-enhanced simulations, digital twin systems, and advanced stress analysis across aerospace, civil engineering, and geothermal drilling. His work integrates AI, FEM, DEM, and multiphysics modeling to solve complex engineering challenges. He is also an experienced mentor, educator, and advocate for EDI in academia.

Professional Profile

Google Scholar

Orcid

Scopus

Education ๐ŸŽ“

Dr. Naderi earned his PhD in Mechanical Engineering from the University of Malaya (2011-2015), focusing on failure analysis of polymer composites. He holds an MSc in Applied Mechanics from K.N. Toosi University of Technology, Iran (2006-2009), and a BEng in Solid Mechanics from Islamic Azad University, Iran (2001-2006). His academic journey has equipped him with expertise in computational mechanics, material characterization, and advanced simulation techniques, laying the foundation for his impactful research career.

Professional Experience ๐Ÿ’ผ

Dr. Naderi has held key research roles at Imperial College London, University College London, and the University of Sheffield. At Imperial, he leads projects on digital twinning, AI-enhanced simulations, and geothermal drilling optimization. His work includes developing neural network-integrated DEM models, multiphysics frameworks for rock breakage, and surrogate models for real-time drilling optimization. Previously, he pioneered concrete fracture modeling at UCL and analyzed multi-layered ceramic capacitors at Sheffield. His industry collaborations include Fervo Energy, where he developed digital twin systems for geothermal drilling.

Awards and Honors ๐Ÿ†

Dr. Naderi has received numerous accolades, including the Best Paper Award at the American Rock Mechanics Association (2024) and an ยฃ80k Impact Acceleration Account grant from Imperial College (2023). He was awarded a tuition waiver and High Impact Research grant by the University of Malaya (2012-2015). His work on AI-driven simulations and digital twins has been recognized internationally, cementing his reputation as a leader in computational solid mechanics.

Research Focus ๐Ÿ”

Dr. Naderiโ€™s research focuses on AI-enhanced simulations, digital twin systems, and multiphysics modeling for material and structural analysis. He specializes in fracture mechanics, fatigue, and impact damage, with applications in aerospace, civil engineering, and geothermal drilling. His work integrates machine learning with traditional methods like FEM and DEM to optimize material design, predict structural integrity, and develop real-time monitoring systems. He is also passionate about mentoring the next generation of researchers in computational mechanics.

Publication Top Notes ๐Ÿ“š

  1. Optimised Hammer Drilling Bit Design using Artificial Neural Networks trained by FDEM
  2. A Discrete Element Solution Method Embedded within a Neural Network
  3. Three-Dimensional Numerical Study of DTH Bit-Rock Interaction with HPWJ Downhole Slotting
  4. 3D meso-scale modelling of tensile and compressive fracture behaviour of steel fibre reinforced concrete
  5. Meso-scale modelling of compressive fracture in concrete with irregularly shaped aggregates
  6. Meso-scale modelling of static and dynamic tensile fracture of concrete accounting for real-shape aggregates
  7. Two-scale modelling of fracture of magnesium phosphate cement under bending using X-ray computed tomography characterisation
  8. A novel framework for modelling the 3D mesostructure of steel fibre reinforced concrete
  9. An integrated framework for modelling virtual 3D irregulate particulate mesostructure
  10. Three-dimensional virtual microstructure generation of porous polycrystalline ceramics
  11. Morphology characterisation of inclusions to predict the breakdown strength in electro-ceramic materials: Microstructure modelling
  12. Thermomechanical advantages of functionally graded dental posts: A finite element analysis
  13. Modeling of porosity in hydroxyapatite for finite element simulation of nanoindentation test
  14. Alternative methods to determine the elastoplastic properties of sintered hydroxyapatite from nanoindentation testing
  15. Low-velocity impact damage of woven fabric composites: Finite element simulation and experimental verification
  16. An empirical modified fatigue damage model for impacted GFRP laminates
  17. Effect of curvature and thickness of aluminum shells on the energy absorption in low velocity impact
  18. ORCHYD: Combination of High-Pressure Water Jet and Percussion to Improve Drilling Performance in Hard Rocks

Conclusion ๐ŸŒŸ

Dr. Sadjad Naderi is a distinguished researcher and engineer whose work bridges AI, computational mechanics, and real-world engineering challenges. His innovative approaches to digital twinning, AI-enhanced simulations, and multiphysics modeling have advanced fields ranging from aerospace to geothermal drilling. With a strong commitment to mentoring and education, Dr. Naderi continues to inspire the next generation of engineers while pushing the boundaries of computational solid mechanics. His contributions have earned him international recognition, making him a leader in his field.

 

Qingquan Liu | Geology | Best Researcher Award

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Assoc. Prof. Dr Qingquan Liu | Geology | Best Researcher Award

Central South University, China

Liu Qingquan is an accomplished associate professor and doctoral supervisor at Central South University’s School of Earth Sciences and Information Physics. With a strong focus on hydrothermal deposits, nonferrous metal mineralization, and mining geology, he has led numerous high-impact research projects, including sub-projects of the National Deep Earth Science and Technology Major Project and the National Natural Science Foundation. His contributions to geosciences are reflected in over 30 SCI/EI/CSCD publications and a book. Liu has received multiple awards, including provincial and ministerial honors, for his groundbreaking work.

Professional Profile

Scopus

Experience ๐Ÿ’ผ

Since December 2018, Liu has served as an associate professor at Central South University. Prior to this, he was a postdoctoral fellow at the same institution (2016-2018). His work involves leading research teams, mentoring students, and collaborating on national and international projects. His experience spans fieldwork, laboratory analysis, and academic publishing, making him a versatile and respected figure in his field.

Awards and Honors ๐Ÿ†

Liu Qingquan has been recognized with five prestigious awards, including two provincial and ministerial honors and three departmental awards. These accolades celebrate his contributions to understanding hydrothermal deposits, mineralization processes, and geochemical research. His work has significantly advanced the field of earth sciences, earning him a reputation as a leading researcher in China.

Research Focus ๐Ÿ”

Liu’s research centers on three key areas: the genesis of hydrothermal deposits, nonferrous metal mineralization prediction, and mining geology and environment. His work integrates geochemical, isotopic, and geochronological methods to unravel the complexities of ore formation and tectonic processes. His findings have practical applications in mineral exploration and environmental management.

Publication Top Notes ๐Ÿ“š

  1. Processes and ore genesis at the Yaochong Mo deposit, Henan Province, China.
  2. Molybdenum mineralization related to the Yangtze’s lower crust and differentiation in the Dabie Orogen.
  3. Age, genesis, and tectonic setting of the Qiushuwan Cuโ€“Mo deposit in East Qinling.
  4. Age, Nature and Origin of Early Cretaceous Plutons in the Dabie Mo Mineralization Belt.
  5. Petrogenesis of granite from the Xiaofan Mo deposit, Dabie orogen.
  6. Insights into the genesis of orogenic gold deposits from the Zhengchong gold field.
  7. Metallogenesis of the Hengjiangchong gold deposit in Jiangnan Orogen.
  8. Genesis of Zixi gold deposit in Xuefengshan, Jiangnan Orogen.
  9. Textures, trace element geochemistry, and in-situ sulfur isotopes of pyrite from the Xiaojiashan gold deposit.
  10. Pyrite textures, trace element and sulfur isotopes of Yanlinsi slate-hosted deposit.
  11. Hydrothermal rutile U-Pb dating of gold mineralization in the Jiangnan Orogen.
  12. Geochemical characteristics of mica in the Renli-Chuanziyuan pegmatite-type rare metal deposit.
  13. Zircon U-Pb age, Hf isotope, and geological significance of Yaochong granite.
  14. Trace element characteristics of zircon in granite from the Yaochong molybdenum deposit.
  15. Geochemical, chronological, and Hf isotopic characteristics of the Xinxian rock mass.
  16. Geochemical characteristics of Yaochong granite in the Dabie orogenic belt.
  17. Geological characteristics, mineralization age, and tectonic background of porphyry molybdenum deposits.
  18. Geological conditions and genesis of the porphyry molybdenum deposit in Dabie Mountains.
  19. Geochemical characteristics and geological significance of the Jingshansi iron ore deposit.
  20. Metallogeny of the Jinming gold deposit in northeast Hunan.
  21. The key controlling factors on Snโ€“Cu mineralization.
  22. Geochronology, Geochemistry, and Tectonic Implications of Triassic A-Type Granites.
  23. Early Cretaceous Metasomatized Lithospheric Mantle beneath the Central Jiangnan Orogen.

Conclusion ๐ŸŒŸ

Liu Qingquan is a distinguished scholar whose work has significantly advanced the understanding of hydrothermal deposits, mineralization processes, and tectonic geology. His extensive publications, leadership in research projects, and numerous awards underscore his contributions to earth sciences. As a mentor and researcher, he continues to inspire and drive innovation in his field.

 

Feng Gao – Geotechnical Engineering – Best Researcher Award

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Feng Gao - Geotechnical Engineering - Best Researcher Award

Changsha University of Science and Technology - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Feng Gao's academic journey began with a Bachelor's degree in Civil Engineering from Liaoning University of Science and Technology, laying the foundation for his subsequent studies in geotechnical engineering. His commitment to academic excellence propelled him towards advanced degrees, culminating in a joint doctoral program between Central South University and the University of Technology Sydney.

PROFESSIONAL ENDEAVORS

Gao's professional trajectory encompasses both academic and industry roles, reflecting his multidimensional expertise in geotechnical engineering. As a professor at Changsha University of Science and Technology and deputy director of the Science and Technology Information Department of Qinghai Provincial Communications Holding Group Co., Ltd, he has demonstrated leadership and innovation in the field of roadbed hazard prevention and control technology.

CONTRIBUTIONS AND RESEARCH FOCUS

Gao's research focus on geotechnical engineering has led to significant contributions in the study of mud pumping mechanisms and service performance evolution of highways in hot and humid areas of Southern China. His chaired projects, including the National Postdoctoral Innovative Talent Support Program, underscore his dedication to advancing knowledge and addressing practical challenges in transportation infrastructure.

IMPACT AND INFLUENCE

Gao's research endeavors have garnered recognition and accolades, including awards such as the Bronze Award in the First Postdoctoral Innovation and Entrepreneurship Competition of Hunan Province and the Outstanding Paper Award of the China Railway Society. His publications, patents, and involvement in industry and local standards compilation highlight his influence in shaping best practices and driving innovation in geotechnical engineering.

ACADEMIC CITES

As a respected researcher and scholar in geotechnical engineering, Gao's work has likely been cited in academic literature, contributing to the dissemination of knowledge and the advancement of the field. His research findings and contributions to industry standards serve as valuable resources for academics, practitioners, and policymakers alike.

LEGACY AND FUTURE CONTRIBUTIONS

Gao's legacy in geotechnical engineering is characterized by his commitment to excellence, innovation, and collaboration. As he continues his academic and professional journey, he is poised to make further contributions to the field, inspiring future generations of researchers and engineers to address the complex challenges facing transportation infrastructure.

GEOTECHNICAL ENGINEERING

Feng Gao's expertise in geotechnical engineering is evident throughout his academic and professional endeavors. From his master's thesis on geotechnical engineering to his current research focus on roadbed hazard prevention and control technology, Gao's contributions have advanced the field and positioned him as a leader in geotechnical research and practice.

NOTABLE PUBLICATION

Experimental study of fine particles migration mechanism of sand-silt mixtures under train loadย  2020 (8)

Experimental study of particle migration under cyclic loading: effects of load frequency and load magnitudeย  2021 (21)