Meng Fanxing | Engineering Mechanics | Best Researcher Award

Published on by Invention Awards

Ms. Meng Fanxing | Engineering Mechanics | Best Researcher Award

Shenyang Aircraft Design & Research Institute, China

Profile

orcid

🎓 Early Academic Pursuits

Born in September 1983 in Shenyang, Liaoning, Meng Fanxing embarked on her academic journey with a Bachelor’s degree in Engineering Mechanics, demonstrating early dedication to the field of aeronautical engineering. Her passion led her to pursue a Master’s in Solid Mechanics at the prestigious Beijing University of Aeronautics and Astronautics (2006.09–2009.01). Continuing her academic advancement, she is currently a PhD candidate in Aircraft Design at the College of Aeronautical Science and Engineering, China Academy of Aeronautics since September 2023.

🛫 Professional Endeavors

Meng began her career in March 2009 as an Engineer in the System Strength Room of the Shenyang Aircraft Design and Research Institute. Her commitment and exceptional performance led to her promotion in September 2018 to Senior Engineer in the Advanced Technology Laboratory under the Comprehensive Strength Department. Over the years, she has been entrusted with the Chief Designer role for system strength—a testament to her leadership and expertise.

🧪 Contributions and Research Focus

Meng’s core research lies in aircraft structural strength, with a concentrated focus on landing gear statics, dynamics, durability, and damage tolerance. She has been responsible for the design and testing (static, drop shock, and fatigue) of landing gear components for multiple aircraft models. Her innovative work also includes contributions to intelligent flexible variant technologies, structural fatigue and impact resistance, multifunctional structural integrity design, and the application of CNT-based high-temperature film strain testing technologies.

🏆 Impact and Influence

Over her 14-year career, Meng has made substantial impacts within the aviation industry. She has been honored with three Science and Technology Progress Awards from the Aviation Industry Corporation of China, alongside multiple recognitions such as the Institute’s Science and Technology Innovation Award and Science and Technology Achievement Award. Her expertise has led to over 100 technical reports, 15 invention patents (11 of which have been authorized), and the publication of 6 scientific papers.

📚 Academic Citations and Recognition

While her work is mainly centered around classified defense research and high-impact engineering implementation, her 6 published papers and 11 patented inventions have become vital references in structural strength analysis and aircraft design optimization. These contributions have laid a foundation for standardized processes and have expanded the professional research landscape within her domain.

💻 Technical Skills and Expertise

Meng is proficient in aircraft strength design, fatigue life analysis, and test verification, backed by deep knowledge of scientific literature and engineering documentation. She possesses high-level technical writing skills, regularly authoring comprehensive technical documents, project proposals, and scientific support materials. Her strong analytical skills and hands-on experience enable her to lead and collaborate efficiently in multidisciplinary teams, particularly in solving real-time challenges during aircraft development and trials.

👩‍🏫 Teaching and Mentorship Experience

Although her primary roles are research and design-based, Meng has informally mentored young engineers and researchers within the institute. By organizing and standardizing professional knowledge—especially in landing gear strength specialties—she has contributed to building a more complete and systematic training path for new professionals in her field.

🌟 Legacy and Future Contributions

Looking ahead, Meng Fanxing continues to push the boundaries of aircraft structural integrity through cutting-edge research. Her ongoing doctoral work and her role in major military research projects underscore her commitment to innovation, national defense advancements, and technological evolution. Her career embodies the fusion of practical engineering excellence with scientific exploration, setting a benchmark for future aerospace engineers.

📚 Publication

  • Chen Liang, Meng Fanxing, Gu Yuxuan. "Research on damage identification method and application of key aircraft components based on digital twin." The Second International Conference on Green Aviation, Chengdu, Sichuan, 2024.

  • Dian Xu, Sijun Xiong, Fanxing Meng, Bo Wang, Rui Li. "An Analytic Model of Transient Heat Conduction for Bi-Layered Flexible Electronic Heaters by Symplectic Superposition." Micromachines, 2022, 13(1627).

  • Fanxing Meng, Qin Zhou, Jialing Yang. "Improvement of crashworthiness behavior for simplified structural models of aircraft fuselage." International Journal of Crashworthiness, 2009, 14(1): 83-97.

  • Du Jinzhu, Meng Fanxing. "Evaluation criteria for landing gear drop test based on energy method." Acta Aeronautica Sinica, 2018, 39(4): 221375-1-9.

 

Dr. Ali Altuntepe | Hydrogen Energy | Best Researcher Award

Published on by Invention Awards

Dr. Ali Altuntepe | Hydrogen Energy | Best Researcher Award

Sivas of Science and Technology university, Turkey.

Dr. Ali Altuntepe is a Turkish researcher and materials scientist specializing in experimental condensed matter physics, thin film technology, and two-dimensional materials. With a Ph.D. in Mechanical Engineering, his work focuses on hydrogen storage, graphene synthesis, and solar cell enhancement. He is passionate about integrating nanomaterials in renewable energy applications and continues to contribute significantly to the scientific community through numerous high-impact publications and collaborative projects.

Profile

Scopus
Orcid

🎓 Education

Dr. Ali Altuntepe has pursued his entire academic journey in Mechanical Engineering at Niğde Ömer Halisdemir University, where he demonstrated a consistent dedication to advanced research in materials science and energy systems. He recently completed his Ph.D. in Mechanical Engineering (2019–2024) with an outstanding GPA of 9.74/10.00. His doctoral thesis focused on the "Investigation of Hydrogen Storage Potential of Two-Dimensional Materials, Metal Hydrides, and Their Compositions," reflecting his deep engagement with sustainable and cutting-edge energy technologies. Prior to this, he earned his Master’s degree in Mechanical Engineering (2017–2019), achieving a GPA of 90.09/100, with a thesis centered on the "Synthesis of Doped and Pristine Graphene." His academic foundation was laid with a Bachelor's degree in the same field (2012–2017), where he graduated with a GPA of 3.35/4.00. Throughout his academic career, Dr. Altuntepe has cultivated expertise in nanomaterials, hydrogen storage systems, and graphene synthesis, positioning him as a strong contributor to both academic and applied research in clean energy and material innovation.

🧑‍🏫 Experience

Dr. Altuntepe has extensive experience in thin film synthesis and characterization. His work includes growing doped and pristine graphene, investigating 2D materials like MoS₂, WS₂, LiH, and NaH, and applying these materials in PEM fuel cells and solar cells. He has presented at international conferences and co-authored a book chapter on sustainable materials in solar technology.

🔬 Research Interests

Graphene and TMDs (MoS₂, WS₂) synthesis

Hydrogen storage materials

Solar cell enhancement using 2D materials

Thin film deposition techniques (CVD, PVD, E-beam)

Materials characterization (XRD, SEM, Raman, XPS, etc.)

Transparent conductive oxides (TCOs)

Integration of nanomaterials into composite and optoelectronic systems

🏆 Awards & Achievements

Co-authorship in a prestigious Elsevier publication:
Sustainable Materials Solutions for Solar Energy Technologies (2021)

Oral presentations at international conferences including ICSM and MSNG

High citation record with over 20 peer-reviewed journal articles

📚 Selected Publications

☀️ Advanced Solar Cell Materials

1. Boron Doped Graphene and MoS₂-Based Ultra-Thin Schottky Junction Solar Cell

Journal: Optical Materials (May 2025)
DOI: 10.1016/j.optmat.2025.116828
Highlights:

Integrates boron-doped graphene with MoS₂ to form an ultra-thin Schottky junction.

Aims to enhance charge transport and light absorption.

Promising for lightweight and high-efficiency PV applications.

2. Nitrogen Doped Single Layer Graphene for CZTS-Based Thin Film Solar Cells

Journal: Optical Materials (2024)
DOI: 10.1016/j.optmat.2024.115167
Highlights:

Uses nitrogen doping to tune electronic properties of graphene.

Applied in CZTS (Copper Zinc Tin Sulfide) solar cells — known for being earth-abundant and non-toxic.

💨 Hydrogen Storage and Fuel Cells

3. Optimizing Hydrogen Storage and Fuel Cell Performance Using Carbon-Based Materials

Journal: Hydrogen (March 2025)
DOI: 10.3390/hydrogen6020022
Highlights:

Studies effects of surface area and pressure on carbon-based hydrogen storage.

Bridges material design with real-world performance in fuel cells.

4. Hydrogen Storage Capacity of Two-Dimensional MoS₂

Journal: International Journal of Hydrogen Energy (2024)
DOI: 10.1016/j.ijhydene.2023.12.120
Highlights:

Focus on MoS₂ for reversible hydrogen storage.

Explores adsorption behavior on 2D surfaces.

5. Investigating Surface Area and Hydrogen Pressure Effects on LiH and NaH

Journal: Journal of Solid State Chemistry (2024)
DOI: 10.1016/j.jssc.2023.124483
Highlights:

Dives into metal hydrides (LiH and NaH).

Correlates structural properties with storage performance under different pressures.

 

 

Mr. Getachew Ambaye | Soft Robotics | Best Researcher Award

Published on by Invention Awards

Mr. Getachew Ambaye | Soft Robotics | Best Researcher Award

Wichita State University, United States.

Getachew Ambaye is an accomplished researcher, educator, and engineer specializing in industrial and mechanical engineering. Based in Wichita, KS, USA, he is currently completing his Ph.D. in Industrial & Manufacturing Engineering at Wichita State University (WSU). With extensive experience in academia and industry, he has contributed significantly to mechanical design, robotics, and manufacturing research. Getachew has a strong publication record in high-impact journals and actively participates in engineering education and research projects.

Profile

Orcid

Education 🎓

Getachew Ambaye is a dedicated researcher and engineer with a strong academic background in industrial and mechanical engineering. He is currently completing his Ph.D. in Industrial & Manufacturing Engineering at Wichita State University, USA (2022–Present) and is ready to defend his dissertation. Prior to this, he pursued a Higher Diploma Program at Bahir Dar Institute of Technology (BiT), Ethiopia (2021–2022) to enhance his expertise in engineering education. He holds an MSc. in Mechanical Design Engineering from Jimma Institute of Technology (JiT), Ethiopia (2017–2020), where he focused on advanced mechanical design principles and numerical analysis. His journey in engineering began with a BSc. in Mechanical Engineering from Jimma Institute of Technology (JiT), Ethiopia (2012–2016), providing him with a solid foundation in mechanical systems, design, and manufacturing. Through his academic and research pursuits, Getachew continues to contribute to advancements in robotics, manufacturing, and industrial automation.

Experience 💼

Teaching & Academic Positions

Getachew Ambaye has extensive teaching experience in engineering education across multiple institutions. Since 2022, he has been an Instructor at Wichita State University, USA, where he teaches IME 222: Engineering Graphics, its associated IME 222L lab (focusing on 3DX & CATIA V5), and serves as a Graduate Teaching Assistant (GTA) for IME 425: Kinematics and Dynamics Design. In 2024, he joined Hesston College, USA, as an Engineering Professor, where he teaches ENGR 422: Design of Machines, mentors students in ENGR 477 & 478: Senior Design Capstone Project, and guides courses in ENGR 372 & 371: Mechatronic System Design & Fundamentals. Before moving to the U.S., he was a Lecturer at Bahir Dar Institute of Technology (BiT), Ethiopia (2020–2022) and served as an Assistant Lecturer and Lecturer at Jimma Institute of Technology (JiT), Ethiopia (2016–2020). Additionally, he contributed as a Guest Lecturer/Trainer at Ethio Engineering Group (EEG), Ethiopia (2021–2022), delivering specialized training programs.

Research Interests 🔬

Soft Robotics & Finite Element Analysis

Machine Learning for Industrial Applications

Mechanical System Dynamics & Vibration Analysis

Product Design & Development

Advanced Manufacturing Processes

Awards & Recognitions 🏆

Dr. David M. Aber Scholarship, Wichita State University (2024)

Volunteer & Participant, 2024 COExperience & MBSE Cyber Systems Symposium

Presenter, Multiple international conferences including IWAMA, ICAST, and ICT4DA

Selected Publications 📚

Soft Robot Workspace Estimation via Finite Element Analysis and Machine Learning
Actuators, 2025 | DOI: 10.3390/act14030110
Contributors: Getachew Admassie Ambaye, Enkhsaikhan Boldsaikhan, Krishna Krishnan

Soft Robot Design, Manufacturing, and Operation Challenges: A Review
Journal of Manufacturing and Materials Processing, 2024 | DOI: 10.3390/jmmp8020079
Contributors: Getachew Admassie Ambaye, Enkhsaikhan Boldsaikhan, Krishna Krishnan

Robot Arm Damage Detection using Vibration Data and Deep Learning
Neural Computing and Applications, 2024 | DOI: 10.1007/s00521-023-09150-3
Contributors: Getachew Ambaye, Enkhsaikhan Boldsaikhan, Krishna Krishnan

Contact Temperature Analysis of the Classical Geneva Mechanism through Numerical Methods
Materials Today: Proceedings, 2022 | DOI: 10.1016/j.matpr.2022.01.420
Contributors: Getachew A. Ambaye, Hirpa G. Lemu, Mesay A. Tolcha

Numerical Stress Analysis and Fatigue Life Prediction of the Classical External Geneva Mechanism
Book Chapter, 2022 | DOI: 10.1007/978-981-19-0572-8_23
Contributors: Getachew A. Ambaye, Hirpa G. Lemu

 

 

Dr. Dawid Maciejewski | Hydroenergy | Best Researcher Award

Published on by Invention Awards

Dr. Dawid Maciejewski | Hydroenergy | Best Researcher Award

University of Agriculture in Krakow, Poland.

Dr. Dawid Maciejewski is an academic teacher and research assistant at the University of Agriculture in Krakow, Poland. With a PhD in Mechanical Engineering and extensive expertise in renewable energy systems, his research focuses on the innovative modeling of production processes, particularly in Small Hydropower Plants (SHP). Passionate about sustainability, Dr. Maciejewski employs cutting-edge artificial intelligence to advance energy efficiency and environmental protection.

Profile

Orcid

Education 🎓

Dr. Dawid Maciejewski earned his PhD in Mechanical Engineering (2018–2024) from the University of Agriculture in Krakow, Poland. His doctoral research focused on Modeling of the Production Process in the Small Hydropower Plant (SHP), offering innovative insights into optimizing renewable energy systems and advancing energy efficiency. This work underscores his dedication to sustainable energy solutions and practical applications of mechanical engineering in environmental conservation.

In addition to his PhD, Dr. Maciejewski holds a Postgraduate Diploma in Occupational Health and Safety (2018–2019) from AGH University of Krakow, where he specialized in workplace safety and risk management. He also completed a Master’s Degree in Environmental Quality and Safety (2017–2018) and a Bachelor’s Degree in Environmental Protection (2013–2017) at the University of Agriculture in Krakow, equipping him with a strong foundation in environmental monitoring, safety standards, and sustainable development practices.

Experience 💼

Since October 2024, Dr. Dawid Maciejewski has been serving as an academic teacher and research assistant in the Department of Bioprocesses Engineering, Power Engineering, and Automation at the University of Agriculture in Krakow, Poland. In this role, he combines teaching with cutting-edge research, focusing on renewable energy technologies, including Small Hydropower Plants (SHP), and the integration of artificial intelligence in energy forecasting. His dedication to sustainability and innovation drives his contributions to both academia and the advancement of practical solutions for energy efficiency and environmental conservation.

Research Interests 🔬

Renewable Energy Sources (RES) with a focus on run-of-river Small Hydropower Plants (SHP)

Utilizing sawmill industry waste for solid biofuel production

Environmental impact assessments of RES units, particularly on fauna and flora

Hydrogen energy production through water electrolysis

Applying Artificial Intelligence (AI) for regression analyses

Occupational risk assessment and disease prevention

Publications 📚

Maciejewski D., Mudryk K., Sporysz M. (2024). Forecasting Electricity Production in a Small Hydropower Plant (SHP) Using Artificial Intelligence (AI). Energies., Cited by: 15 articles. Link

Nęcka K., Knaga J., Maciejewski D. (2020). Characteristics of the Electrical Energy Quality in a Municipal Service Facility Cooperating with Photovoltaic Micro Installation. Przegląd Elektrotechniczny. Cited by: 8 articles. Link

 

 

Dr. Eduardo Garcia Magraner | Fabrication | Best Researcher Award

Published on by Invention Awards

Dr. Eduardo Garcia Magraner | Fabrication | Best Researcher Award

Ford España SL, Spain

Dr. Eduardo García Magraner is a seasoned expert in industrial engineering with over three decades of experience, primarily with Ford Motor Company. His work spans roles from maintenance supervision to manufacturing management, focusing on automation, predictive maintenance, and cybersecurity. A distinguished professional, he has been recognized globally for his contributions to enhancing manufacturing efficiency and safety. Dr. García holds a Ph.D. in Computer Engineering and Industrial Production with an "Outstanding Cum Laude" distinction and has been instrumental in driving innovation and productivity in industrial settings.

Profile

Scopus

Orcid

Education🎓

Dr. García’s educational journey is extensive and multidisciplinary, beginning with vocational training in Electrical Assistance and Telecommunications Electronics. His expertise further expanded at Ford Spain's Apprentice School, where he specialized as an Electromechanical Technician. He later pursued a degree as an Industrial Technical Engineer, followed by numerous certifications including Lean Six Sigma (Green Belt & Black Belt) and multiple postgraduate master's degrees in Occupational Risk Prevention, Integrated Management Systems, and Human Resources. His academic peak was attained with a Ph.D. in Computer Engineering and Industrial Production from University CEU Cardenal Herrera.

Professional Experience🛠️

Dr. García's illustrious career at Ford spans various technical and managerial positions. Starting as an Electromechanical Maintenance Operator, he ascended through the ranks to become Manufacturing Manager overseeing Body, Stamping, and Assembly plants. His expertise in equipment engineering, automation, and production supervision has contributed to significant improvements in efficiency and productivity at Ford’s Valencia facilities. In recent years, he has taken on critical roles in cybersecurity, serving as the Single Point of Contact (SPOC) for Ford’s Global Manufacturing Cybersecurity Program.

Research Interests🔬

Predictive Maintenance & Industrial IoT: Developing real-time systems for enhanced equipment maintenance.

Automation and Robotics: Improving efficiency in production lines using AI-driven solutions.

Cybersecurity in Manufacturing: Ensuring robust security frameworks for industrial processes.

Energy Efficiency & Sustainable Manufacturing.

Awards & Recognitions🏆

Henry Ford Technical Award for IIoT Predictive Maintenance (2019).

Global Manufacturing Technical Excellence Awards for innovative Industry 4.0 solutions (2020, 2022).

Best Industrial Paper Award at ICINCO (2020).

Presidents Health & Safety Global Award for safety innovations (2022).

Angel Herrera Award for the best national research (2024).

Advanced Factories of the Future Award for leadership in digital transformation (2021).

Publications Top Notes📚

I3oT (Industrializable Industrial Internet of Things) Tool for Continuous Improvement in Production Line Efficiency by Means of Sub-Bottleneck Detection Method Machines, 2024-10-29, Contributors: Javier Llopis, Antonio Lacasa, Nicolás Montés, Eduardo Garcia. Link

Survival 1.0: A Novel Autonomous Industrial Mobile Warehouse (AIMW) for Industrial Environments Applied Sciences, 2024-10-25, Contributors: Eduardo Garcia, Miguel Montaña, Nicolás Montés. Link

Virtual Sensor of Gravity Centres for Real-Time Condition Monitoring of an Industrial Stamping Press in the Automotive Industry Sensors, 2023-07-21, Contributors: Ivan Peinado-Asensi, Nicolás Montés, Eduardo García. Link

Influence of Mechanical Failures of the Welding Gun on the Magnetic Field Generated in the Measurement of Misalignment
Book Chapter, 2022, Contributors: D. Ibañez, E. García, J. Soret, J. Martos. Link

Mini-Sym 4.0: A Novel Simulation Tool to Calculate Real-Time Production Line Productivity Book Chapter, 2022, Contributors: E. Garcia, N. Montes, N. Rosillo, J. Llopis, A. Lacasa. Link