Wei Wei | Materials manufacturing | Best Researcher Award

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Dr Wei Wei | Materials manufacturing | Best Researcher Award

Associate professor, Yan’ an vocational & technical college, China

Wei Wei is an accomplished academic and researcher in aerospace materials science and technology. With extensive experience in research and education, he currently serves as a Lecturer at Yan’an Vocational and Technical College in Yan’an, China. Dr. Wei earned his Ph.D. and M.S. degrees in Aerospace Materials Science and Technology and a Bachelor’s degree in Materials Forming and Control Engineering from Sichuan University. His work focuses on advanced materials and cutting-edge engineering solutions, contributing significantly to the field with 16 publications and an h-index of 8. He has garnered over 200 citations and collaborated with 34 co-authors.

PROFESSIONAL PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. Outstanding Academic Background
    • Ph.D. and Master’s degrees in Aerospace Materials Science and Technology from Sichuan University, showcasing specialization in a high-impact research area.
    • Bachelor’s degree in Materials Forming and Control Engineering, providing a strong foundation for advanced research.
  2. Professional Contributions
    • Current position as a lecturer at Yan’an Vocational and Technical College demonstrates a commitment to academia and teaching.
    • Previous experience as a research assistant at China Aero Engine Power Co., Ltd. highlights practical applications of his research expertise.
  3. Impressive Research Output
    • Authored 16 documents, including articles in reputed journals like Construction and Building Materials, Scripta Materialia, and Materials Science and Engineering: A.
    • Contributions to cutting-edge topics such as corrosion resistance in steels, mechanical properties of superalloys, and strength-ductility synergy in metals.
  4. High Impact Metrics
    • 233 citations and an h-index of 8, reflecting the significance and influence of his research in the field.
    • Collaboration with over 34 co-authors, demonstrating active participation in multidisciplinary research networks.
  5. Innovation in Research
    • Pioneering work in advanced materials, including high-strength ductile laminated steel, medium entropy alloys, and selective laser melting techniques, emphasizing innovation and real-world applicability.

AREAS FOR IMPROVEMENT

  1. Broader Visibility
    • Focus on presenting research at international conferences or organizing seminars to gain wider recognition.
    • Engage in collaborative projects across institutions to diversify research contributions.
  2. Grants and Funding
    • Seek competitive grants to enhance research capabilities and demonstrate leadership in securing research funding.
  3. Interdisciplinary Expansion
    • Explore applications of aerospace materials in emerging fields like renewable energy or biomedical engineering to increase the societal impact of research.

EDUCATION

πŸŽ“ Doctor of Philosophy (Ph.D.): Aerospace Materials Science and Technology, Sichuan University (2019–2022)
πŸŽ“ Master of Science (M.S.): Aerospace Materials Science and Technology, Sichuan University (2016–2019)
πŸŽ“ Bachelor of Engineering: Materials Forming and Control Engineering, Sichuan University (2012–2016)

PROFESSIONAL EXPERIENCE

πŸ“˜ Lecturer: Yan’an Vocational and Technical College (May 2023–Present)
πŸ“˜ Research Assistant: China Aero Engine Power Co., Ltd. (July 2022–April 2023)

AWARDS AND HONORS

πŸ† Outstanding Researcher Award: Sichuan University, 2022
πŸ† Best Paper Award: Materials Science Conference, 2021
πŸ† Young Scientist Award: Advanced Materials Symposium, 2020
πŸ† Teaching Excellence Award: Yan’an Vocational and Technical College, 2023

RESEARCH FOCUS

πŸ”¬ High-strength and ductile materials for aerospace applications
πŸ”¬ Corrosion resistance in advanced materials
πŸ”¬ Additive manufacturing of alloys and superalloys
πŸ”¬ Mechanical properties and microstructural heterogeneity

PUBLICATION TOP NOTES

  • Electronegative oxides and multi-interfaces synergistic protection 🌟
  • Impact of porcelain firing cycling on SLM dental alloys 🦷
  • Microstructure heterogeneity and mechanical properties of laminated steel πŸ› οΈ
  • Anisotropy of mechanical properties in GH5188 superalloy βš™οΈ
  • Effect of heat treatment on nano-tribological behavior of Co-Cr alloys πŸ”
  • Critical grain size for strength-ductility synergy in medium entropy alloy πŸ§ͺ
  • Improving NiTi alloys via cryo-rolling and post-annealing ❄️
  • Strong and ductile pure titanium 🌍
  • Hierarchical microstructure of GH5188 Co-superalloy πŸ—οΈ
  • Superior strength-ductility synergy in gradient-structured high-manganese steel πŸ“ˆ

CONCLUSION

Wei Wei is a well-rounded researcher with an exceptional track record in aerospace materials science and engineering. His high citation metrics, impactful research publications, and significant contributions to advanced materials design and testing establish him as a worthy contender for the Best Researcher Award. By expanding his visibility, securing research funding, and exploring interdisciplinary applications, he can further solidify his position as a leader in the field.

Ankit Dilipkumar Oza – Manufacturing – Best Researcher Award

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Ankit Dilipkumar Oza - Manufacturing - Best Researcher Award

Parul University - India

AUTHOR PROFILE

SCOPUS

πŸ› οΈ EXPERTISE IN MICRO-MACHINING AND SPARK MACHINING

Ankit Dilipkumar Oza holds a Ph.D. in micro-machining, specializing in spark-assisted electrochemical discharge machining (TW-ECDM) processes. His extensive experience in micro-machining non-conducting materials, particularly Quartz, has made him a key figure in this advanced manufacturing domain. His expertise also includes operating sophisticated analytical instruments such as SEM, EDX, XRD, and TEM, which are crucial for analyzing microstructures and machining precision.

βš™οΈ INNOVATIVE TW-ECDM TECHNIQUES AND SETUP DEVELOPMENT

During his Ph.D. research, Ankit focused on improving the Traveling Wire-Electrochemical Discharge Machining (TW-ECDM) process to minimize the challenges in machining Quartz, a non-conducting material. His research led to the development of two experimental setups and a Micro-ECDM setup integrated into an existing EDM system, marking significant progress in the field of non-conducting material machining. His innovative approaches in coating wires, optimizing electrolytes, and employing Magnetohydrodynamic (MHD) convection have advanced machining capabilities.

πŸ“ DESIGN AND MODELING EXPERTISE

Ankit possesses a deep understanding of designing and modeling experimental setups for advanced machining processes. His knowledge extends to the design of experiments and statistical analysis, ensuring precision and efficiency in complex machining operations. His contributions have been pivotal in improving machining performance, especially in reducing electrolyte wastage and enhancing electrolysis in the TW-ECDM process.

πŸ”¬ RESEARCH IN QUARTZ MICRO-MACHINING

The core of Ankit’s Ph.D. research revolves around overcoming the difficulties in machining Quartz materials. By using innovative techniques, his work has significantly improved the performance of machining processes for non-conducting materials, setting new standards in the field. His research contributes to the advancement of micro-machining technology, making it more efficient and sustainable.

πŸ—οΈ POSTGRADUATE PROJECT IN GRAVITY DIE CASTING

In addition to his work in micro-machining, Ankit developed a novel hybrid gravity die casting process during his postgraduate studies. Using PRO-CAST, a FEM-based simulation software, he optimized metal flow, temperature variations, and solidification, resulting in a more efficient and defect-reduced process. His work contributed to reducing common casting issues like shrinkage porosities and cold shuts, improving the overall quality of gravity die casting.

πŸš€ EXPERIENCE IN INDUSTRIAL RESEARCH AND DEVELOPMENT

Ankit's industrial project at Mehtex Engineering Pvt. Ltd. in Ahmedabad exemplifies his ability to bridge academic research with practical applications. His work on optimizing gravity die casting processes showcases his skills in applying theoretical knowledge to real-world industrial challenges, bringing innovation to manufacturing techniques.

πŸ”§ FAST-LEARNING AND ADAPTIVE RESEARCHER

Known for his enthusiasm, adaptability, and quick learning, Ankit has proven his capability to manage challenging research work in complex and highly demanding environments. His contributions to the field of micro-machining are marked by his innovative thinking and ability to drive progress in both academic and industrial settings.

NOTABLE PUBLICATION

Title: Integrating intelligent machine vision techniques to advance precision manufacturing: a comprehensive survey in the context of mechatronics and beyond
Authors: D.R. Patel, A.D. Oza, M. Kumar
Journal: International Journal on Interactive Design and Manufacturing
Year: 2024

Title: Development and characterization of eco-friendly extruded green composites using PLA/wood dust fillers
Authors: H.H. Parikh, S. Chokshi, V. Chaudhary, A.D. Oza, C. Prakash
Journal: Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology
Year: 2024

Title: Divacancy defects on the dynamic behaviour of single layer graphene
Authors: M. Manisha, A. Patel, A. Oza, A. Goyal
Journal: AIP Conference Proceedings
Year: 2024

Title: Photoluminescence and antibacterial performance of sol-gel synthesized ZnO nanoparticles
Authors: M.S. Rathore, H. Verma, S.B. Akhani, K. Kaur, A. Oza
Journal: Materials Advances
Year: 2024

Title: A Review of Optimization Methods in Laser and Abrasive Jet Manufacturing Methods
Authors: A. Goyal, N. Gautam, A.D. Oza, R. Choudhary, R.K. Phanden
Journal: Lecture Notes in Mechanical Engineering
Year: 2024

Brucely – Advanced Manufacturing – Best Researcher Award

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Brucely - Advanced Manufacturing - Best Researcher Award

SRM TRP Engineering College - India

AUTHOR PROFILE

GOOGLE SCHOLAR

πŸŽ“ EDUCATIONAL BACKGROUND

Dr. Brucely holds a Doctor of Philosophy in Engineering from Anna University, Chennai, where he completed his research in Mechanical Engineering between 2013 and 2018. His thesis, titled "Investigation on Implementation of TFMEA in Tea Industry using Artificial Intelligence," reflects his deep expertise in the intersection of AI and manufacturing. He also earned a Master’s Degree in Manufacturing Engineering from C.S.I Institute of Technology, Thovalai, affiliated with Anna University, Chennai, where he graduated with an impressive 73% aggregate. His academic journey began with a Bachelor's Degree in Mechanical Engineering from Jayamatha Engineering College, Aralvaimozhi, affiliated with Manon Maniam Sundaranar University, Tirunelveli.

πŸ”¬ RESEARCH INTERESTS

Dr. Brucely's research interests lie at the confluence of manufacturing processes and artificial intelligence. His work focuses on applying Total Failure Mode Effects Analysis (TFMEA) using advanced AI techniques such as Fuzzy Logic and Genetic Algorithms. His innovative approach has significant implications for the optimization of manufacturing processes, particularly in industries like tea production where he has implemented GA-based ANFIS techniques.

πŸ“š PUBLICATIONS

Dr. Brucely has made notable contributions to academic literature, with several publications in reputed journals. His work on "Implementation of TFMEA in Tea Industry using Fuzzy Logic" and "Using Genetic Algorithm Optimizing the Cutting Parameters of AWJM Process for Aluminium 6061 Alloy" showcases his expertise in applying AI to solve complex engineering problems. His research is widely recognized, with publications in journals that have respectable impact factors, reflecting the influence and quality of his work.

πŸ’Ό PROFESSIONAL EXPERIENCE

In his professional career, Dr. Brucely has held various leadership roles, particularly in the academic sector. He served as the Head of the Mechanical Engineering Department at MCET from 2010 to 2018, where he also coordinated national and international conferences. Additionally, he was actively involved in accreditation processes, acting as the coordinator for NBA and NAAC file preparation committees, ensuring the highest standards of academic quality.

🌍 INDUSTRY & ACADEMIC COLLABORATIONS

Dr. Brucely has played a pivotal role in fostering collaborations between academia, industry, and governmental bodies. As the coordinator for MOUs with universities, industries, and ministries in DMISJBU, he facilitated key partnerships that have enhanced research and educational outcomes. His efforts have strengthened the link between theoretical research and practical applications, benefiting both students and industry professionals.

πŸ… HONORS & RECOGNITION

Dr. Brucely's contributions have been recognized through various honors, including invitations to serve as an alumni representative for postgraduate programs in thermal engineering. His leadership and academic prowess have earned him respect and recognition in the engineering community, further solidifying his reputation as a thought leader in his field.

πŸ”§ INNOVATION & IMPACT

Throughout his career, Dr. Brucely has demonstrated a commitment to innovation, particularly in the field of manufacturing engineering. His research and professional efforts have had a significant impact on the optimization of manufacturing processes, contributing to advancements in both academic research and practical industry applications. His work continues to inspire and guide the next generation of engineers and researchers.