Jingqi Chen | Processing and Manufacturing | Best Researcher Award

Published On 14/11/202514/11/2025 by ScienceFather

Jingqi Chen | Processing and Manufacturing | Best Researcher Award

Dr. Jingqi Chen at yanshan University | China

Jingqi Chen is a dedicated materials scientist and lecturer at the School of Mechanical Engineering, Yanshan University, whose research focuses on materials processing, advanced metallic materials, and their applications in next-generation energy systems. He earned his Ph.D. (2021) and M.S. (2017) in Materials Processing Engineering from Northeastern University, following a B.E. in Metallurgical Engineering (2015) from Anhui University of Technology. Since joining Yanshan University in 2021, Dr. Chen has led and contributed to several influential research projects, including serving as the Principal Investigator for a National Natural Science Foundation of China (NSFC) Young Scientists Fund project investigating micron-scale steel preparation for new-energy vehicle power batteries. His expertise extends to high-end steel manufacturing, surface engineering, and advanced electrode materials, supported by major industry- and government-funded initiatives such as the HBIS Group “Unveiling and Commanding” Science and Technology Project and the Hebei Provincial Innovation Consortium Special Project. Dr. Chen has established a strong publication record, producing impactful research on copper foil deformation behavior, graphene-modified aluminum foils, high-performance Fe-Si alloy thin sheets, and advanced graphene-wrapped nanocomposites for lithium-ion battery electrodes. His papers appear in leading journals such as Journal of Alloys and Compounds, Applied Surface Science, Journal of Materials Science & Technology, and Transactions of Nonferrous Metals Society of China. With 26 publications, 406 citations across 375 documents, and an h-index of 11, he has earned recognition for advancing the understanding of micro-rolling mechanics, corrosion-resistant current collectors, and structural optimization of battery materials. Dr. Chen’s work continues to bridge fundamental materials science with industrial application, contributing to the development of safer, more efficient energy storage technologies and high-performance metallic materials for modern manufacturing.

Profile: Scopus

Featured Publications

Chen, J., Yang, S., Zhao, W., Bai, Z., Li, X., Zhang, H., Niu, Z., Bai, F., Guo, C., & Yu, H. (2025).
Etching behavior and grain boundary engineering of asynchronous rolled electrodeposited copper foil. Journal of Alloys and Compounds, 1037, 182597.

Chen, J., Zheng, L., Zhao, W., Bai, Z., Li, X., Lu, R., Chen, S., Liu, X., Gao, H., & Yu, H. (2025).
Edge cracking behavior of copper foil in asynchronous micro-rolling. Transactions of Nonferrous Metals Society of China, 35(5), 1634–1647.

Chen, J., Bai, Z., Li, X., Wang, Q., Du, J., Lu, R., & Liu, X. (2022).
Reduced graphene oxide–modified aluminum foils as highly conductive and corrosion-resistant cathode current collectors for Li-ion batteries. Applied Surface Science, 606, 155002.

Chen, J., Hu, X., Gao, H., Yan, S., Chen, S., & Liu, X. (2021).
Graphene-wrapped MnCO₃/Mn₃O₄ nanocomposite as an advanced anode material for lithium-ion batteries: Synergistic effect and electrochemical performances. Journal of Materials Science & Technology, 99, 9–17.

Chen, J., Zhao, W., Zheng, X., Lu, R., Guo, C., Chen, S., Du, J., Yu, C., & Liu, X. (2023).
High-performance gradient Fe–Si alloy thin sheets fabricated by solid powder siliconizing and diffusion annealing. Journal of Alloys and Compounds, 946, 169412.

Sunil Kumar Prajapati | Additive Manufacturing | Best Researcher Award

Published On 22/05/202522/05/2025 by ScienceFather

Sunil Kumar Prajapati | Additive Manufacturing | Best Researcher Award

Dr. Sunil Kumar Prajapati, Indian Institute Of Technology–Madras, India.

Dr. Sunil Kumar Prajapati 🎓 is a passionate researcher in Additive Manufacturing, Tribology, and Materials Science 🧪. With a Ph.D. in Mechanical Engineering from IIT Madras 🏛️, he brings expertise in polymer-based 3D printing, sliding bearing applications, and surface characterization 🔬. Dr. Prajapati enjoys designing, drawing, and cooking in his leisure time 🎨👨‍🍳. Fluent in Hindi and English 🗣️, he blends theoretical knowledge with hands-on skills across mechanical design and analysis tools 🛠️. His academic journey is complemented by roles in research and teaching, contributing significantly to advanced manufacturing technologies and mechanical system simulations. 🚀

Publication Profiles

Orcid

Google Scholar

Education & Experience

🎓 Education:

🏛️ Ph.D. in Mechanical Engineering (Machine Design) – IIT Madras (2019–2024) – 7.75/10
🏫 M.Tech in Mechanical Engineering (Design) – PDPM IIITDM Jabalpur (2014–2016) – 6.5/10
🏫 B.E. in Mechanical Engineering – TIT (Excellence), Bhopal | RGPV (2009–2013) – 72.9%
📘 12th (Science with Maths) – Kendriya Vidyalaya, Dhanpuri (2008–2009) – 61.4%
📘 10th (All Subjects) – JNV Amarkantak (2006–2007) – 68.4%

🧑‍🏫 Experience:

🔬 Junior Research Fellow – PDPM IIITDM Jabalpur (Dec 2017 – Dec 2018)
👨‍🏫 Assistant Professor – Saint Aloysius Institute of Technology, Jabalpur (Mar 2017 – Nov 2017)

Suitability for the Award

Dr. Sunil Kumar Prajapati is an exceptionally driven and innovative researcher whose work in Additive Manufacturing, Tribology, and Mechanical Design exemplifies cutting-edge scientific inquiry with real-world applications. His ongoing doctoral research at IIT Madras, combined with a strong foundation in mechanical engineering and hands-on expertise in advanced materials and testing technologies, positions him as a leading contributor in his field. Dr. Prajapati’s commitment to academic excellence, impactful publications, and multidisciplinary research experience make him a highly deserving candidate for the Best Researcher Award, recognizing his outstanding contributions to engineering science and technology.

Professional Development

Dr. Prajapati has actively pursued professional development through hands-on workshops, GIAN courses, and technical training programs 🎓🔧. He attended an 8-day GIAN course on foam and lattice mechanics at IIT Hyderabad 🧩, and received nanofabrication training at IISc Bangalore 🧫. He also completed a 2-day workshop on 3D Printing at IIITDM Jabalpur 🖨️ and industrial training in transformer and gas turbine sections at BHEL Bhopal ⚙️. These engagements enriched his practical skills in MEMS fabrication, 3D printing, and materials analysis, empowering him to merge theory with technology and develop innovative mechanical systems and research methodologies. 🌟

Research Focus

Dr. Prajapati’s research is rooted in the fields of Additive Manufacturing, Tribology, and Advanced Materials 🧬🖨️🛢️. His Ph.D. work centers on designing and characterizing polyether ether ketone (PEEK) surfaces for sliding bearing applications 🧪⚙️. He specializes in analyzing abrasive and adhesive wear under various conditions, especially in journal bearings. His M.Tech work included mathematical modeling of piezoelectric energy harvesting systems 📐🔋. With a focus on sustainable polymers, mechanical wear behavior, and advanced testing techniques, his interdisciplinary research bridges design, manufacturing, and materials science for real-world engineering applications. 🌍🔍

Awards & Honors

🛠️ Best performer during industrial training at BHEL Bhopal (2012)
🎓 Selected for Ph.D. program at IIT Madras – Competitive admission (2019)
🧪 Research contributor in multiple institutional projects at IIITDM Jabalpur
🏅 Conference presentations and paper publications in mechanical engineering research

Publication Top Noted

Effect of the infill percentage of 3D printed Polyetheretherketone under the dry sliding condition – Journal of Manufacturing Processes, 2024, 🧱
Surface design of 3D-printed polyether ether ketone for abrasive wear resistance – Tribology Transactions, 2024, 🛡️
Modeling and numerical characterization of high sensitive microcantilever biosensors with parabolic piezoresistor – Nano, 2018, 🔬
Mechanical and surface characterisation of additively manufactured polyetheretherketone for the tribo test – Rapid Prototyping Journal, 2025, ⚙️
Effect of infill orientation on the wear behaviour of 3D printed polyetheretherketone – Journal of Materials Science, 2024, 📐
Friction Performance of Three-Dimension Printed PEEK for Journal Bearing Application Under Grease Lubrication – Journal of Tribology, 2025, 🛢️
Mathematical modelling of stepped beam energy harvesting using Euler–Bernoulli’s theory – Advanced Materials Conference Proceedings, 2018,📊
Abrasive Wear Prediction of Three-Dimensional Printed PEEK Using Artificial Neural Network – Journal of Tribology, 2025, 🤖

Yangyang Cheng | Additive Manufacturing | Best Researcher Award

Published On 26/03/202526/03/2025 by ScienceFather

Yangyang Cheng | Additive Manufacturing | Best Researcher Award

Dr. Yangyang Cheng, Yanshan University, China.

Yangyang Cheng is a doctoral candidate at the School of Mechanical Engineering, Yanshan University, specializing in piezoelectric ceramic materials. 🔬 His research focuses on performance analysis and preparation of piezoelectric ceramics, utilizing first-principles methods to explore their structural and electronic properties. 🏗️ He has published five academic papers 📄 and secured five invention patents. 🏅 Additionally, Cheng has contributed to major projects, including those funded by the National Natural Science Foundation of China and the State Key Laboratory of New Ceramic Materials. His work advances high-performance and stable piezoelectric devices for applications in electronic communication and piezoelectric driving. ⚙️

Publication Profile

Scopus

Education & Experience 🎓🔬

Doctoral Candidate (Ph.D.) in Mechanical Engineering, Yanshan University (Five-year combined Master’s and Ph.D. program) 🏫
Specializes in piezoelectric ceramics, additive manufacturing, and first-principles analysis 🔬
Published five academic papers in SCI and EI journals 📑
Secured five invention patents in mechanical design and materials science 🔖
Participated in two national research projects, including NSFC-funded studies and key laboratory initiatives 🔬
Engaged in research on high-precision microactuators using dual-flexible hinge stacked piezoelectric structures ⚙️

Summary Suitability

Dr. Yangyang Cheng , a doctoral candidate in Mechanical Engineering at Yanshan University, has demonstrated exceptional research capabilities in piezoelectric ceramics, additive manufacturing, and first-principles calculations. With an impressive portfolio of five published academic papers, five invention patents, and participation in multiple national research projects, he has made significant contributions to the field of advanced materials and precision engineering. His research has provided crucial insights into the mechanical and electronic properties of piezoelectric ceramics, making him a deserving recipient of the Best Researcher Award.

Professional Development 📚🔬✨

Cheng Yangyang is dedicated to advancing the field of piezoelectric ceramics and high-precision actuators. 💡 His research leverages first-principles methods to investigate stress-induced property changes in PbTiO3, contributing to the development of next-generation piezoelectric devices. 🔬 With five research papers 📄 and five patents, he has made significant strides in mechanical engineering and materials science. 🏆 His involvement in national and key laboratory-funded projects provides a platform for real-world applications of his findings. 💼 Through additive manufacturing and computational modeling, he continues to push the boundaries of ceramic materials research for industrial and technological advancements. ⚙️

Research Focus 🔬🌱🌍

Cheng Yangyang’s research primarily revolves around piezoelectric ceramics, additive manufacturing, and first-principles computational methods. 🏗️ His studies focus on the performance, structure, and electronic properties of PbTiO3, a widely used ferroelectric ceramic, under different stress conditions. 🔬 By employing density functional theory, he explores how uniaxial stress modulates the material’s physical properties, aiming to enhance its application in electronic communication and piezoelectric actuation systems. 📡 His work contributes to the development of high-performance, stable piezoelectric devices for modern engineering applications, including precision actuators and smart materials in mechanical and electrical engineering. ⚡

Publication Top Notes

Research on the influence of uniaxial stress on the properties of PbTiO3 using first-principles , Computational Materials Science, 2025.
Performance Differences of Support Structures for Parts Formed by Selective Laser Melting , Chinese Journal of Lasers, 2023.
Emergency Configuration Design of Breechblock Firing Mechanism Based on Selective Laser Melting Technology , Acta Armamentarii, 2024.
Research on the Method of Determining the Posture of Milling Robot Based on the Principle of Maximum Rigidity , China Mechanical Engineering, 2025.

Oyelakin Idris Oyewale | Manufacturing | Best Researcher Award

Published On 17/02/202517/02/2025 by ScienceFather

Oyelakin Idris Oyewale | Manufacturing | Best Researcher Award

Dr. Oyelakin Idris Oyewale, Universiti Utara Malaysia, Malaysia.

Oyelakin Idris Oyewale is a seasoned academic and business expert with over 15 years of experience in international business management, sustainability, and corporate governance. 🌍💼 Currently a lecturer at Universiti Utara Malaysia, he specializes in green production, circular economy, and sustainable business practices. 🏭♻️ With a Ph.D. in Management from Universiti Teknologi PETRONAS and an MBA in Muamalat, he combines research, teaching, and consultancy to drive industrial and academic innovation. 📊📚 He has led multiple projects on ISO 14001, green production, and sustainability in manufacturing, actively contributing to global environmental and economic discussions. 🌱🌏

Publication Profiles

Orcid

Googlescholar

Education & Experience

Ph.D. in Management – Universiti Teknologi PETRONAS, Malaysia (2023)
MBA, Muamalat (Business) Administration – Universiti Sains Islam Malaysia (2018)
B.Sc. in Economics (Hons.) – Lead City University, Nigeria (2008)
Associate Membership – Institute of Strategic Management of Nigeria (2011)
Diploma in Computer Application (2007)

Work Experience:

Lecturer, Universiti Utara Malaysia (2024-Present)
Executive Trainer, BMC Training & Development Malaysia (2023)
Adjunct Faculty Member, Spectrum International College of Technology (2023)
Teaching Assistant, Universiti Teknologi PETRONAS (2019-2023)
Research Assistant, Universiti Sains Islam Malaysia (2017-2018)
Halal Executive, Dinding Processing Plant, Malaysia (2018)
Customer Care Representative, Ison Bpo International, Nigeria (2014-2016)
Trainer, Human Resource Dept., Logistic Consult International, Nigeria (2011-2013)

Summary Suitability

Dr. Oyelakin Idris Oyewale, an accomplished researcher and academic, stands as a leading candidate for the Best Researcher Award due to his exceptional contributions to sustainability, international business management, and green production practices. With a Ph.D. in Management from Universiti Teknologi PETRONAS, Malaysia, and over 15 years of experience, he has significantly advanced research in areas such as sustainable business operations, circular economy, and environmental conservation, aligning with the Sustainable Development Goals (SDGs).

Professional Development

Oyelakin Idris Oyewale has actively enhanced his skills through various workshops and training programs. 🌍💡 He completed courses in Alternative Assessment Training (2024) and Micro-credentials Module Development (2023) to refine his teaching methodologies. 🎓✨ His expertise in research was strengthened through training in Qualitative and Quantitative Research Techniques (2020) and Active Learning (2019). 📊📚 He also underwent industry-specific training, including New Hires Induction Program (2014) and Customer Service Excellence Training (2014), gaining vital corporate experience. ☎️💼 His commitment to continuous learning ensures that he remains a leader in academia, business management, and sustainability. 🌱🏢

Research Focus

Oyelakin Idris Oyewale’s research is centered on sustainability in business, green production, and corporate governance. 🌍♻️ He investigates how manufacturing firms adopt circular economy practices to achieve sustainable operations. 🏭🔄 His work on ISO 14001 compliance and its impact on corporate sustainability has been instrumental in shaping industrial strategies. 📈 He also explores the role of Halal certification in business performance, enhancing market credibility. 🏆✅ Additionally, his studies on health tourism in Malaysia and internationalization in education reflect his broad academic and industry-driven insights. 📚🌏 His research contributes to global SDGs and environmental conservation efforts. 🌱🌎

Awards & Honors 🏆🎖

Mandela Washington Fellowship for Young African Leaders (2021)
Murata Science Foundation Research Grant (2022-2023)
Best Research Paper on Circular Economy (2023)
Outstanding Lecturer Award, Universiti Utara Malaysia (2024)
Excellence in Green Production Research, UTP (2022)
Leadership Award for Sustainable Business Practices (2020)

Publications Top Noted

The Role of Halal Certification in Business Performance in Selangor: A Study on Kopitiams – AH Yusuf, OI Oyelakin, S Abdul Shukor, US Ahmad Bustamam – Cited by: 18 – Year: 2017

Does ISO 14001 and Green Servitization Provide a Push Factor for Sustainable Performance? A Study of Manufacturing Firms – IO Oyelakin, SK Johl – Sustainability 14 (15), 9784 – Cited by: 11 – Year: 2022

Green Servitization as a Means of Sustainable Performance: Evidence of Listed Manufacturing Firms – IO Oyelakin, SK Johl – Cogent Engineering 9 (1), 2014250 – Cited by: 9 – Year: 2022

Prospects of Halal Products in Developing Countries: Comparison Between Nigeria and Malaysia – IO Oyelakin, AH Yusuf – International Journal of Business Society 2 (8), 44-53 – Cited by: 9 – Year: 2018

The Effect of Green Servitization on Malaysian Manufacturing Firm Sustainability: A Moderating Role of ISO 14001:2015 Environmental Management System – OI Oyewale, SK Johl – Annals of the Romanian Society for Cell Biology, 4563-4570 – Cited by: 8 – Year: 2021

Impact of COVID-19 on Malaysian Economy: A Study of Consumer Product Manufacturing Firms – IOO Asnidar Hanim Yusuf – Journal of Hunan University Natural Sciences 49 (1) – Cited by: 7 – Year: 2022

Bustamam, USA (2017) – AH Yusuf, IO Oyelakin, SA Shukor – The Role of Halal Certification in Business Performance in Selangor: A Study … – Cited by: 4 – Year: 2017

Green Servitization, Circular Economy, and Sustainability: A Winning Combination Analysis Through Hybrid SEM‐ANN Approach – SK Johl, K Ali, K Shirahada, OI Oyewale – Business Strategy and the Environment 33 (8), 8978-8993 – Cited by: 2 – Year: 2024

Ali Rafe | Processing and Manufacturing | Excellence in Research

Published On 25/01/202525/01/2025 by ScienceFather

Prof. Ali Rafe | Processing and Manufacturing |Excellence in Research

Full Professor at Research Institute of Food Science and Tehcnology, Germany

Professor Ali Rafe is an accomplished researcher and educator in food science and engineering with extensive academic and professional achievements. He holds a Ph.D. in food engineering, has completed a postdoctoral fellowship as a George Foster Fellow at WWU Münster, and is currently a Full Professor at the Research Institute of Food Science & Technology (RIFST), Iran. His research focuses on food rheology, encapsulation technologies, and structural analysis, with over 16 recent peer-reviewed publications in high-impact journals like Food Hydrocolloids and International Journal of Biological Macromolecules. Recognized globally, he has received the prestigious Alexander von Humboldt Research Award and has contributed to industry advancements through leadership roles in quality control and technical supervision. Proficient in advanced computational tools, Professor Rafe integrates technology and innovation to address complex challenges in food science. His work bridges academia and industry, positioning him as a leader in his field with global impact.

Professional profile

Education

Professor Ali Rafe has an extensive and well-rounded academic background in food science and engineering. He earned his Ph.D. in food engineering from Ferdowsi University of Mashhad, Iran, where his dissertation focused on the rheological, thermal, and structural properties of β-lactoglobulin-basil seed hydrocolloid mixtures. He also holds an M.Sc. in food science and technology from the same institution, where he explored the potential of ultrafiltration membranes in oil refining processes. His undergraduate studies were completed at the University of Tabriz, where he specialized in food process engineering and food chemistry. Furthering his expertise, he conducted postdoctoral research as a George Foster Fellow at WWU Münster, Germany, and served as a research scholar in chemical and biomolecular engineering at North Carolina State University, USA. With advanced coursework in food rheology, modeling, and applied mathematics, Professor Rafe’s academic foundation reflects his strong focus on innovation and problem-solving in food engineering.

Professional Experience

Professor Ali Rafe has a distinguished professional career that spans academia, research, and industry. Currently a Full Professor at the Research Institute of Food science & Technology (RIFST) in Mashhad, Iran, he has progressively advanced through roles as Assistant and Associate Professor since 2011. Internationally recognized, he was awarded the prestigious Alexander von Humboldt Research Fellowship and conducted postdoctoral research at WWU Münster, Germany. His earlier experiences include serving as a research scholar at North Carolina State University, USA, and working as a lecturer at various universities, teaching specialized courses such as oil technology and food packaging. In the food industry, he has held roles as a quality control supervisor and technical manager at Nutricia-Mashhad Milk Powder and Seh-Gol Khorasan, focusing on edible oil extraction and refinement. This blend of academic and industrial expertise underscores Professor Rafe’s ability to bridge research and practical applications in food science and engineering.

Research Interest

Professor Ali Rafe’s research interests are centered around innovative advancements in food science and engineering, with a strong focus on food rheology, encapsulation technologies, and the structural and thermal properties of food systems. He is particularly passionate about exploring the interactions between proteins, polysaccharides, and hydrocolloids to develop functional food systems with enhanced stability and performance. His work also delves into complex coacervation and phase separation behaviors, which are critical for designing efficient delivery systems for bioactive compounds such as antioxidants and essential oils. Additionally, Professor Rafe is deeply invested in the application of advanced rheological and textural analysis techniques to improve the quality, safety, and functionality of food products. By integrating modeling, simulation, and innovative processing methods, his research aims to address challenges in food product development, contributing to sustainability and health-focused advancements in the global food industry.

Award and Honor

Professor Ali Rafe has received notable awards and honors that highlight his exceptional contributions to food science and engineering. A significant achievement in his career is being awarded the prestigious Alexander von Humboldt (AvH) Research Fellowship, recognizing his innovative research and global impact. This fellowship enabled him to conduct postdoctoral research at WWU Münster in Germany, further advancing his expertise in food rheology and encapsulation technologies. His career progression from Assistant Professor to Full Professor at the Research Institute of Food https://composite-materials-conferences.sciencefather.com/ali-rafe-processing-and-manufacturing-excellence-in-research-9948/Science & Technology (RIFST) also reflects the recognition of his academic excellence and leadership in his field. Additionally, his research outputs, published in high-impact journals, have earned him respect in the international scientific community. These accolades underscore Professor Rafe’s dedication to advancing food science, his influential role in fostering academic collaborations, and his contribution to solving complex challenges in food engineering and technology.

Conclusion

Ali Rafe appears highly qualified for the Excellence in Research award, given his extensive education, research experience, numerous high-impact publications, and international recognition. His work aligns well with the goals of such an award, particularly in the area of food engineering and science. Areas for improvement include expanding the industrial application of his work and enhancing his research’s visibility outside academic settings. However, overall, his contributions to the field of food science and technology position him as a strong candidate for this honor.

Publication Top noted

Title: The physical properties of pistachio nut and its kernel as a function of moisture content and variety: Part I. Geometrical properties
Authors: SMA Razavi, B Emadzadeh, A Rafe, AM Amini
Year: 2007
Citations: 138
Title: Dynamic viscoelastic study on the gelation of basil seed gum
Authors: A Rafe, SMA Razavi
Year: 2013
Citations: 115
Title: Rheology and microstructure of basil seed gum and β-lactoglobulin mixed gels
Authors: A Rafe, SMA Razavi, R Farhoosh
Year: 2013
Citations: 107
Title: Kinetic study of κ-carrageenan degradation and its impact on mechanical and structural properties of chitosan/κ-carrageenan film
Authors: M Shahbazi, G Rajabzadeh, R Ettelaie, A Rafe
Year: 2016
Citations: 105
Title: Rheological and structural characteristics of whey protein-pectin complex coacervates
Authors: M Raei, A Rafe, F Shahidi
Year: 2018
Citations: 101
Title: Physico-mechanical and structural characteristics of blend film of poly (vinyl alcohol) with biodegradable polymers as affected by disorder-to-order conformational transition
Authors: M Shahbazi, G Rajabzadeh, A Rafe, R Ettelaie, SJ Ahmadi
Year: 2017
Citations: 83
Title: Application of whey protein-pectin nano-complex carriers for loading of lactoferrin
Authors: M Raei, F Shahidi, M Farhoodi, SM Jafari, A Rafe
Year: 2017
Citations: 80
Title: Scaling law, fractal analysis and rheological characteristics of physical gels cross-linked with sodium trimetaphosphate
Authors: A Rafe, SMA Razavi
Year: 2017
Citations: 75
Title: Physical properties of pistachio nut and its kernel as a function of moisture content and variety. Part II. Gravimetrical properties
Authors: SMA Razavi, A Rafe, TM Moghaddam, AM Amini
Year: 2007
Citations: 74
Title: Effect of thermal treatment on chemical structure of β-lactoglobulin and basil seed gum mixture at different states by ATR-FTIR spectroscopy
Authors: A Rafe, SMA Razavi
Year: 2015
Citations: 72
Title: Rheological and structural properties of rice bran protein-flaxseed (Linum usitatissimum L.) gum complex coacervates
Authors: E Hasanvand, A Rafe
Year: 2018
Citations: 68
Title: Physicochemical, functional, and nutritional characteristics of stabilized rice bran from Tarom cultivar
Authors: A Rafe, A Sadeghian, SZ Hoseini‐Yazdi
Year: 2017
Citations: 64

Gan Li | Manufacturing Technology | Best Researcher Award

Published On 06/01/202506/01/2025 by ScienceFather

Gan Li | Manufacturing Technology | Best Researcher Award

Dr. Gan Li, College of Mechanical and Electronic Engineering, China University of Petroleum, China.

Gan Li is an Assistant Professor at the College of Mechanical and Electronic Engineering, China University of Petroleum, and a key researcher at the National Engineering Research Center of Marine Geophysical Prospecting. His expertise lies in advanced manufacturing technology, ultrasonic machining, process simulation, and quality control. Gan earned his Ph.D. in Mechanical Engineering from Dalian University of Technology (2018–2024) and a dual B.S. in Mechanical Engineering and Engineering Management from the China University of Petroleum (2014–2018). His research on ultra-precision machining has been instrumental in advancing material removal mechanisms and real-time signal analysis.

Publication profile

Scopus

Orcid

Googlescholar

Education and Experience

Ph.D. in Mechanical Engineering (2018–2024)
Dalian University of Technology, GPA 3.83/4.0
B.S. in Mechanical Engineering & Engineering Management (2014–2018)
China University of Petroleum, Ranked Top 4% (7/196)
Assistant Professor
College of Mechanical and Electronic Engineering, China University of Petroleum
Key Researcher
National Engineering Research Center of Marine Geophysical Prospecting

Suitability For The Award

Dr. Gan Li, an Assistant Professor at the College of Mechanical and Electronic Engineering, China University of Petroleum, PR China, and a key member of the National Engineering Research Center of Marine Geophysical Prospecting and Exploration and Development Equipment, is an exceptional candidate for the Best Researcher Award. With a strong foundation in advanced manufacturing technologies and ultra-precision machining, Dr. Li’s innovative research has redefined the frontiers of mechanical engineering, making significant contributions to precision manufacturing, signal analysis, and process simulation.

Professional Development

Gan Li’s professional journey showcases excellence in ultra-precision machining, process simulation, and advanced equipment development. He has led groundbreaking projects such as studying the micro-removal mechanism in tungsten alloys and developing real-time signal monitoring methods for precision machining. His innovative work integrates simulation tools like Abaqus and CPFEM with state-of-the-art analysis techniques, including TEM, EBSD, and XRD. Gan’s dedication has led to improved precision control methods and surface integrity in complex machining processes, advancing cutting-edge research in manufacturing technologies.

Research Focus

Gan Li specializes in advanced manufacturing technology, with a focus on ultra-precision machining, ultrasonic machining, and process simulation. His work emphasizes signal analysis, material removal mechanisms, and surface integrity for hard and brittle materials like tungsten alloys. Leveraging advanced tools such as Abaqus, Lammps, and MATLAB, Gan pioneers innovations in grinding process optimization, digital twin technology, and real-time quality control. His research contributes to next-generation manufacturing processes, enhancing precision, efficiency, and sustainability.

Awards and Honors

Outstanding Senior Thesis (12/89), Jiangsu, China (2023)
Third Prize, Future Flying Machine Innovation Competition, Dalian, China (2019)
Recognition at the 22nd Chinese Conference of Abrasive Technology

Publications Top Notes

Undeformed chip thickness models for precise vertical-spindle face grinding of tungsten heavy alloy
Precision Engineering, 2024, Cited by: 3
Wheel wear of tungsten heavy alloy precision grinding and its influence mechanism on surface quality
Journal of Hunan University Natural Sciences, 2024
Research on grinding wheel wear measurement methods: Current status and future perspectives
Scientia Sinica Technologica, 2024
A grinding force model and surface formation mechanism of cup wheels considering crystallographic orientation
Journal of Materials Processing Technology, 2023, Cited by: 9
An online monitoring methodology for grinding state identification based on real-time signal of CNC grinding machine
Mechanical Systems and Signal Processing, 2023, Cited by: 12
Cutting chatter in ultrasonic elliptical vibration cutting and its influence on surface roughness and tool wear
Metals, 2023, Cited by: 6

Marin Mihai | Processing and Manufacturing | Best Researcher Award

Published On 06/08/202407/08/2024 by ScienceFather

Marin Mihai | Processing and Manufacturing | Best Researcher Award

Marin Mihai at INCDIE ICPE-CA , Romania

Marin Mihai is a highly skilled metallurgical engineer with over 8 years of experience in cross-cultural national research projects, specializing in metallurgical and energy profiles. He holds a Bachelor’s degree in Material Science Engineering (2007-2011) and a Master’s degree in Management and Engineering of Metallic Materials Production (2011-2013), both from the Politehnica University of Bucharest. Additionally, he completed a scholarship at the Politehnica University of Patras, Greece, focusing on the production of geopolymers from industrial by-products.

Profile :

ORCID

Google Scholar

Education:

Marin Mihai completed his high school education at National College Spiru Haret in Ploiesti (2003-2007). He then pursued Bachelor Studies in the Faculty of Science and Materials Engineering at Politehnica University of Bucharest (2007-2011), followed by a Master Degree in Management and Engineering of Metallic Materials Production at the same institution (2011-2013). He was awarded a master scholarship at Politehnica University of Patras, Greece, where he conducted research on geopolymers from Red Mud and Rice Husk Ash under Prof. George N. Angelopoulos (February 2013 – August 2013).

Professional Journey:

Marin Mihai began his professional career as a Market Analyst at SC ASHBROOKE EXPERT SRL (July 2011 – January 2014). He then worked as a Metallurgical Engineering Technologist at SC ELECTROMAGNETICA SA (February 2014 – August 2015). Since 2015, he has been a Scientific Researcher at the National Institute for Research and Development in Electrical Engineering ICPE-CA, where he is responsible for various tasks including the development and quality assurance of electrical contacts and participation in project dissemination activities.

Honors & Awards:

Marin Mihai has been recognized for his contributions to the field with various patents, such as those on tungsten-copper-graphene oxide electrical contacts and tungsten-copper-nickel composite materials.

Publication Top Note

Tungsten-Copper Composites for Arcing Contact Applications in High Voltage Circuit Breakers

Authors: MV Lungu, D Patroi, V Marinescu, S Mitrea, I Ion, M Marin, P Godeanu

Journal: Material Science Research India

Volume: 17, Issue 3

Pages: 8

Year: 2020

Enhanced Metallic Targets Prepared by Spark Plasma Sintering for Sputtering Deposition of Protective Coatings

Authors: MV Lungu, E Enescu, D Tălpeanu, D Pătroi, V Marinescu, A Sobetkii, M Marin

Journal: Materials Research Express

Volume: 6, Issue 7

Article Number: 076565

Year: 2019

Preparation and Study of the Optical, Electrical, and Dielectric Characteristics of Some Disc-Shaped Tin Dioxide-Based Varistors

Authors: MV Lungu, D Pătroi, V Marinescu, A Caramitu, M Marin, D Tălpeanu

Journal: Romanian Journal of Physics

Volume: 67

Article Number: 610

Year: 2022

Recycled Polypropylene/Strontium Ferrite Polymer Composite Materials with Electromagnetic Shielding Properties

Authors: AR Caramitu, MV Lungu, RC Ciobanu, I Ion, M Marin, V Marinescu

Journal: Polymers

Volume: 16, Issue 8

Article Number: 1129

Year: 2024

Tribological Behavior of Arcing Contact Materials Based on Copper Infiltrated Tungsten Composites

Authors: MV Lungu, E Enescu, M Lucaci, CD Cîrstea, F Grigore, S Mitrea, D Pătroi

Conference Proceedings: 9th International Conference “BALTTRIB 2018”

Volume: 1

Pages: 27-33

Year: 2017
Strengths

Innovative Research on Electrical Contacts:

Marin Mihai’s work on tungsten-copper composites for arcing contact applications in high voltage circuit breakers is pioneering. This research is crucial for enhancing the performance and reliability of high voltage circuit breakers, making it a significant contribution to the field of electrical engineering.

Development of Advanced Materials:

His research on enhanced metallic targets prepared by spark plasma sintering for sputtering deposition of protective coatings showcases his ability to develop advanced materials with superior properties. This work has implications for improving the durability and efficiency of protective coatings in various industrial applications.

Multidisciplinary Approach:

Mihai’s work spans across different areas of material science, including optical, electrical, and dielectric characteristics of tin dioxide-based varistors, and electromagnetic shielding properties of recycled polypropylene/strontium ferrite polymer composite materials. This multidisciplinary approach highlights his versatility and comprehensive understanding of material science.

Contribution to Sustainable Materials:

His research on the preparation of geopolymers from industrial by-products such as Red Mud and Rice Husk Ash demonstrates his commitment to sustainability. This work not only provides solutions for waste management but also contributes to the development of eco-friendly materials.

Recognized Expertise and Patents:

Mihai’s contributions to the field have been recognized through various patents, including those on tungsten-copper-graphene oxide electrical contacts and tungsten-copper-nickel composite materials. These patents signify his role as a leading innovator and researcher in material science.

Areas for Improvement

Expanded Collaboration:

Increasing collaboration with international researchers and institutions can further enhance the scope and impact of his research. This would provide broader perspectives and potentially lead to more groundbreaking discoveries.

Publication in High-Impact Journals:

While Mihai has published in reputable journals, focusing on publishing in higher impact journals could increase the visibility and citation of his work. This would further establish his reputation in the global research community.

Grant Acquisition:

Actively seeking and securing more research grants can provide additional resources for his projects. This can enable more extensive research and the ability to explore new areas within material science.

Integration of Emerging Technologies:

Incorporating emerging technologies such as artificial intelligence and machine learning in his research methodologies could lead to new insights and more efficient research processes. This could also open new avenues for innovation in material science.

Enhanced Communication Skills:

Improving public speaking and presentation skills can aid in effectively disseminating his research findings to a wider audience. This would also be beneficial for securing funding and collaborative opportunities.

Conclusion

Marin Mihai is a highly skilled and innovative metallurgical engineer with a robust portfolio of research that has made significant contributions to material science, particularly in the development of advanced materials and sustainable solutions. His strengths in multidisciplinary research, innovation, and recognized expertise have earned him the Best Researcher Award. However, by expanding his collaborations, aiming for high-impact publications, securing more grants, integrating emerging technologies, and enhancing his communication skills, he can further elevate his research impact and continue to be a leader in his field.

Prof Dr. Baicheng Zhang | High-throughput manufacturing Award | Best Researcher Award

Published On 05/07/2024 by ScienceFather

Prof Dr. Baicheng Zhang | High-throughput manufacturing Award

Prof Dr. Baicheng Zhang , University of Science and Technology Beijing , China

👨‍🏫 Dr. Baicheng Zhang, a distinguished scholar hailing from the People’s Republic of China, currently serves as a Full Professor at the University of Science and Technology Beijing, specializing in the Institute for Advanced Materials and Technology. With a robust academic background, including a PhD from Université de Technologie Belfort-Montbéliard in Mechanical Engineering and Design, Dr. Zhang has cultivated expertise in additive manufacturing, focusing on Selective Laser Melting and its atmospheric influences on alloy fabrication. His career spans significant roles such as Associate Professor at the same institution and pivotal research positions at Singapore Institute of Manufacturing Technology and Université de Technologie Belfort-Montbéliard. Dr. Zhang is esteemed in his field, evidenced by his editorial roles in prestigious journals like Material Today Communication and International Journal of Minerals, Metallurgy and Materials (IJMMM), where he contributes to advancing knowledge in engineering mechanics and materials science. His dedication to high-throughput manufacturing and material characterization underscores his commitment to innovation in the realm of advanced manufacturing technologies.

📚 Education:

PhD, Université de Technologie Belfort-Montbéliard, France (2009-2013)
- Mechanical Engineering and Design
- Thesis: Selective laser melting – Influence of the atmosphere and in-situ realization of alloy
PhD Candidature, Xi’an Jiaotong University, China (2008-2009)
- Mechanical Engineering and Automation
- Thesis: Rapid prototyping – sterelithography
Master Candidature, Xi’an Jiaotong University, China (2007-2008)
- Software and Automation
Bachelor, Xi’an Jiaotong University, China (2003-2007)
- Mechanical Engineering and Automation

👨‍💼 Work Experience:

Full Professor (from June 2024)
- University of Science and Technology Beijing, Institute for Advanced Materials and Technology
Associate Professor (January 2018 – June 2024)
- University of Science and Technology Beijing, Institute for Advanced Materials and Technology
Research Fellow (May 2014 – December 2017)
- Singapore Institute of Manufacturing Technology (SIMTech), Joining/Forming Technology Group
Postdoctoral Fellow (April 2013 – May 2014)
- Université de Technologie Belfort-Montbéliard, Mechanical Engineering and Design
- Research: Selective laser melting

🔍 Research Direction:

Additive Manufacturing: High Throughput Manufacturing/Characterization; Material Development

🏆 Social Appointments/Awards:

Editorial Board Member: Material Today Communication; International Journal of Minerals, Metallurgy and Materials (IJMMM); Metal; Journal of Engineering Mechanics and Machinery, Clausius Scientific Press Inc.

Publication Top Notes:

Effects of processing parameters on microstructure and mechanical property of selective laser melted Ti6Al4V

Citation – 499

The study of the laser parameters and environment variables effect on mechanical properties of high compact parts elaborated by selective laser melting 316L powder

Jingqi Chen | Processing and Manufacturing | Best Researcher Award

Dr. Jingqi Chen at yanshan University | China

Profile: Scopus

Featured Publications

Dr. Sunil Kumar Prajapati, Indian Institute Of Technology–Madras, India.

Publication Profiles

Education & Experience

🎓 Education:

🧑‍🏫 Experience:

Suitability for the Award

Professional Development

Research Focus

Awards & Honors

Publication Top Noted

Dr. Yangyang Cheng, Yanshan University, China.

Publication Profile

Education & Experience 🎓🔬

Summary Suitability

Professional Development 📚🔬✨

Research Focus 🔬🌱🌍

Publication Top Notes

Dr. Oyelakin Idris Oyewale, Universiti Utara Malaysia, Malaysia.

Publication Profiles

Education & Experience

Summary Suitability

Professional Development

Research Focus

Awards & Honors 🏆🎖

Publications Top Noted

Education

Professional Experience

Research Interest

Award and Honor

Conclusion

Publication Top noted

Gan Li | Manufacturing Technology | Best Researcher Award

Dr. Gan Li, College of Mechanical and Electronic Engineering, China University of Petroleum, China.

Publication profile

Education and Experience

Suitability For The Award

Professional Development

Research Focus

Awards and Honors

Publications Top Notes

Undeformed chip thickness models for precise vertical-spindle face grinding of tungsten heavy alloy Precision Engineering, 2024, Cited by: 3

Wheel wear of tungsten heavy alloy precision grinding and its influence mechanism on surface quality Journal of Hunan University Natural Sciences, 2024

Research on grinding wheel wear measurement methods: Current status and future perspectives Scientia Sinica Technologica, 2024

A grinding force model and surface formation mechanism of cup wheels considering crystallographic orientation Journal of Materials Processing Technology, 2023, Cited by: 9

An online monitoring methodology for grinding state identification based on real-time signal of CNC grinding machine Mechanical Systems and Signal Processing, 2023, Cited by: 12

Cutting chatter in ultrasonic elliptical vibration cutting and its influence on surface roughness and tool wear Metals, 2023, Cited by: 6

Marin Mihai at INCDIE ICPE-CA , Romania

Profile :

Education:

Professional Journey:

Honors & Awards:

Publication Top Note

Strengths

Areas for Improvement

Conclusion

Prof Dr. Baicheng Zhang , University of Science and Technology Beijing , China

🌐 Professional Profile:

📚 Education:

👨‍💼 Work Experience:

🔍 Research Direction:

🏆 Social Appointments/Awards:

Publication Top Notes:

Citation – 499

Citation – 448

Citation -315

Citation -248

Citation -186

Undeformed chip thickness models for precise vertical-spindle face grinding of tungsten heavy alloy
Precision Engineering, 2024, Cited by: 3

Wheel wear of tungsten heavy alloy precision grinding and its influence mechanism on surface quality
Journal of Hunan University Natural Sciences, 2024

Research on grinding wheel wear measurement methods: Current status and future perspectives
Scientia Sinica Technologica, 2024

A grinding force model and surface formation mechanism of cup wheels considering crystallographic orientation
Journal of Materials Processing Technology, 2023, Cited by: 9

An online monitoring methodology for grinding state identification based on real-time signal of CNC grinding machine
Mechanical Systems and Signal Processing, 2023, Cited by: 12

Cutting chatter in ultrasonic elliptical vibration cutting and its influence on surface roughness and tool wear
Metals, 2023, Cited by: 6