Surendra Kumar Patel | Surface Composite | Best Researcher Award

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Dr. Surendra Kumar Patel | Surface Composite | Best Researcher Award

Shandong University | China

Surendra Kumar Patel is a dedicated researcher and academic with a strong foundation in mechanical engineering and materials science, specializing in the development of advanced surface composites, friction stir processing, and bioactive materials for engineering and biomedical applications. He earned his Bachelor of Technology in Mechanical Engineering from Gautam Buddha Technical University, where he completed a thesis project on the fabrication of a windmill model and the utilization of wind energy, followed by a Master of Technology in Mechanical Engineering with a specialization in metal matrix composites at Maulana Azad National Institute of Technology Bhopal, where his research focused on microstructural analysis and slurry erosion wear behavior of silicon carbide and zircon sand reinforced LM-13 alloy composites, and later achieved a Ph.D. in Mechanical Engineering with specialization in surface composites at the National Institute of Technology Mizoram, where his doctoral thesis dealt with experimental investigations into the microstructural, mechanical, and tribological properties of WC and ZrSiO4 particle reinforced aluminium surface composites fabricated through the friction stir processing route. His professional career began as an Assistant Professor in the Department of Mechanical Engineering at Radharaman Engineering College, Bhopal, where he taught key subjects such as strength of materials, fluid mechanics, materials technology, mechanics of materials, and manufacturing technology, in addition to supervising undergraduate projects and serving as Head of Department for the polytechnic wing. Currently, he is serving as a Postdoctoral Fellow at the School of Materials Science and Engineering, Shandong University, China, under a special funded postdoctoral fellowship program, where his work is supported by multiple prestigious funding agencies including the National Natural Science Foundation of China, Shandong Provincial Science Foundation for Outstanding Young Scholars, and the Key Research and Development Program of Shandong Province. engineering, surface composites, and advanced friction stir processing technologies with both industrial relevance and biomedical potential.

Profile:  Google Scholar

Featured Publications:

Singh, V. P., Patel, S. K., Ranjan, A., & Kuriachen, B. (2020). Recent research progress in solid state friction-stir welding of aluminium–magnesium alloys: A critical review. Journal of Materials Research and Technology, 9(3), 6217–6256.

Singh, V. P., Patel, S. K., & Kuriachen, B. (2021). Mechanical and microstructural properties evolutions of various alloys welded through cooling assisted friction-stir welding: A review. Intermetallics, 133, 107122.

Patel, S. K., Singh, V. P., Roy, B. S., & Kuriachen, B. (2020). Recent research progresses in Al-7075 based in-situ surface composite fabrication through friction stir processing: A review. Materials Science and Engineering: B, 262, 114708.

Singh, V. P., Patel, S. K., Kumar, N., & Kuriachen, B. (2019). Parametric effect on dissimilar friction stir welded steel-magnesium alloys joints: A review. Science and Technology of Welding and Joining, 24(8), 653–684.

Patel, S. K., Kuriachen, B., Kumar, N., & Nateriya, R. (2018). The slurry abrasive wear behaviour and microstructural analysis of A2024-SiC-ZrSiO4 metal matrix composite. Ceramics International, 44(6), 6426–6432.

Patel, S. K., Singh, V. P., Kumar, D., Roy, B. S., & Kuriachen, B. (2022). Microstructural, mechanical and wear behavior of A7075 surface composite reinforced with WC nanoparticle through friction stir processing. Materials Science and Engineering: B, 276, 115476.

Patel, S. K., Singh, V. P., & Kuriachen, B. (2019). Friction stir processing of alloys with secondary phase particles: An overview. Materials and Manufacturing Processes, 34(13), 1429–1457.

Patel, S., Shah, M., Patel, J., & Kumar, N. (2009). Iron deficiency anemia in moderate to severely anaemia patients. Gujarat Medical Journal, 64(2), 15–17.

Yadav, P. K., Dixit, G., Dixit, S., Singh, V. P., Patel, S. K., Purohit, R., & Kuriachen, B. (2021). Effect of eutectic silicon and silicon carbide particles on high stress scratching wear of aluminium composite for various testing parameters. Wear, 482, 203921.

Patel, S. K., Singh, V. P., Roy, B. S., & Kuriachen, B. (in press). Microstructural, mechanical and wear behavior of A7075 surface composite reinforced with WC and ZrSiO4 nanoparticle through friction stir processing. Materials Science and Engineering: B.

Babak Akbari | Surface Modification | Best Researcher Award

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Assoc. Prof. Dr. Babak Akbari | Surface Modification | Best Researcher Award

University of Tehran | Iran

Dr. Babak Akbari is an Assistant Professor in the Department of Medical Technology and Tissue Engineering at the School of Life Science Engineering, University of Tehran. With an academic foundation in materials science and engineering, his career has been shaped by a passion for biomaterials, nanocomposites, and regenerative medicine. Over the years, Dr. Akbari has made notable contributions to the development of advanced scaffolds and biomimetic devices for tissue engineering, with a focus on cartilage, bone, and dental applications. His research bridges fundamental materials engineering with biomedical applications, exploring surface modification, nanotechnology, and polymer-based systems for improved biocompatibility and mechanical performance. Dr. Akbari has authored numerous international and national journal articles, books, and conference proceedings. His collaborations with interdisciplinary teams reflect his commitment to innovation in biomaterials and medical technologies, positioning him as a recognized researcher in advancing materials for healthcare and biomedical applications.

Professional Profile

Orcid

Scholar

Education

Dr. Babak Akbari pursued all of his higher education at Sharif University of Technology, one of Iran’s leading institutions for engineering and science. He obtained his B.S. in Materials Engineering – Metal Forming, developing a strong foundation in materials processing and mechanical behavior. Building on this, he earned his M.S. in Materials Engineering – Materials Identification and Selection, where he specialized in analyzing material properties and optimizing their use for various applications. His graduate research strengthened his skills in experimental characterization and design of advanced materials. Dr. Akbari then completed his Ph.D. in Materials Science and Engineering, focusing on the mechanical properties, microstructure, and nanocomposites of polymers and metals. His doctoral work emphasized the relationship between processing, structure, and performance, which laid the groundwork for his later research in biomaterials, nanotechnology, and biomedical applications. This educational path uniquely positioned him at the intersection of engineering and life sciences.

Experience

Dr. Babak Akbari has built a distinguished academic and research career centered on materials science, nanotechnology, and biomedical engineering. Following his doctoral studies, he engaged in extensive research on polymer nanocomposites, biomaterials, and scaffold fabrication. Currently, he serves as Assistant Professor at the University of Tehran, where he teaches and supervises graduate students in the Medical Technology and Tissue Engineering Department. His professional expertise spans the design and fabrication of bio-inspired devices, development of nanocomposite scaffolds, and application of surface modification techniques for enhanced biomedical performance. He has also co-authored international books on 3D printing and cartilage biofabrication, published by renowned publishers such as Taylor & Francis and Springer. Dr. Akbari has presented his work at multiple international conferences and contributed to the growth of the field through collaborative projects. His academic role combines research, teaching, and mentoring, ensuring the training of the next generation of biomedical engineers.

Research Focus

Dr. Akbari’s research focuses on biomaterials, nanotechnology, and regenerative medicine. He specializes in the design and fabrication of nanocomposite scaffolds for tissue engineering, particularly in bone and cartilage regeneration. His work integrates polymer science, nanostructures, and surface modification techniques to develop biomimetic materials with enhanced mechanical strength, bioactivity, and cellular compatibility. Dr. Akbari also investigates drug delivery systems, employing polymer-based nanofibers and coatings for controlled release of antibiotics and bioactive molecules. His research extends to dental composites, biodegradable stents, and bio-inspired medical devices, highlighting his interdisciplinary approach. With expertise in 3D printing, electrospinning, and polymer functionalization, he aims to create scalable and clinically relevant solutions for tissue repair. Furthermore, his studies on nanoclay, carbon nanotubes, and graphene-based composites advance knowledge on hybrid biomaterials. Overall, Dr. Akbari’s research contributes to developing innovative platforms for improving healthcare outcomes through engineering-driven biomedical technologies.

Awards and Honors

Dr. Babak Akbari has received recognition for his contributions to biomaterials and tissue engineering research. His publications in high-impact journals and his role in pioneering nanocomposite scaffold design have earned him acknowledgment within the scientific community. His co-authored books, published by Taylor & Francis and Springer, are significant achievements reflecting his expertise in 3D printing and cartilage biofabrication. Dr. Akbari has been invited to present at national and international conferences, showcasing his research on polymer nanocomposites, scaffolds, and biomedical devices. His teaching excellence at the University of Tehran has been recognized by students and colleagues, and his collaborative research has attracted partnerships with international institutions. By contributing to interdisciplinary advancements in nanotechnology, drug delivery, and regenerative medicine, Dr. Akbari has established himself as a respected scholar. These honors reflect his dedication to bridging materials science with biomedical innovation to address pressing healthcare challenges.

Publication Top Notes

Conclusion

Babak Akbari demonstrates potential as a researcher in materials science and tissue engineering, with a strong academic background and research experience. His compilation of books on topics related to his research interests is notable, and his research has the potential to make a significant impact in his field. With further development of his international publication record and research funding, he could become a strong candidate for the Best Researcher Award.

Bernd Bachert | Korrosionsschutz | Best Researcher Award

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Dr.  DHBW Mosbach, Germany

With a robust academic background in Mechanical Engineering, including a Doctorate from Darmstadt University of Technology, this individual has amassed extensive experience in academia and industry. They have served as a professor, dean, and director across various institutions, playing a pivotal role in developing and accrediting numerous engineering study programs. Their expertise extends to fluid mechanics, thermodynamics, and materials science. They also lead research in mechanical engineering and renewable energy, contributing significantly to education and innovation. As CEO of IRATEC GmbH, they combine academic rigor with practical industry insights, making them a highly accomplished professional in their field.

Professional Profiles:

Scopus

Education 🎓

February 1982 – June 1987: Secondary School Neckargemünd Qualification: GCSE August 1987 – February 1991: Training at Eltro GmbH, Heidelberg
Qualification: Precision Mechanic August 1991 – June 1992: Johannes-Gutenberg-Schule, Heidelberg Qualification: Technical Diploma (Fachhochschulreife) September 1992 – January 1997: University of Applied Sciences Mannheim, Faculty of Mechanical Engineering Qualification: Graduate Engineer in Mechanical Engineering (FH) October 1997 – April 2000: Darmstadt University of Technology, Faculty of Mechanical Engineering Qualification: Graduate Engineer in Mechanical Engineering June 2000 – December 2003: Doctoral Thesis at Darmstadt University of Technology, Faculty of Mechanical Engineering Qualification: Doctor of Mechanical Engineering (Dr.-Ing.)

Work Experience 💼

February 1991 – August 1991: Wolfgang Bortz Zerspanungstechnik GmbH Function: Programming of CNC Machines January 1997 – June 1999: Assistant Professor at BFZ Nürnberg January 1997 – December 1997: KDK Kalibrierdienst Kopp GmbH (Calibration Service) Function: Handling of problems in quality assurance and quality management October 1997 – April 2000: Assistant Professor at Abendakademie Mannheim and DaimlerChrysler Training Center Mannheim Lecture: Fluid Mechanics

Evaluation of the Candidate for the Best Researcher Award

Strengths:

  1. Extensive Academic Background:
    • The candidate has a solid educational foundation in mechanical engineering, with qualifications ranging from a Technical Diploma to a Doctorate in Mechanical Engineering (Dr.-Ing.). This extensive academic background supports their credibility and expertise in the field.
  2. Diverse Work Experience:
    • The candidate has a wealth of experience across various roles, including positions as an assistant professor, director, professor, and head of departments. Their roles have spanned multiple institutions and responsibilities, indicating a strong capacity for leadership and innovation in both academia and industry.
  3. Leadership and Management Skills:
    • The candidate has held significant leadership positions, such as Director of the Heidelberg Institute for Applied Research and Development, Professor and Dean at SRH University, and Head of Mechanical Engineering at DHBW Mosbach. These roles highlight their ability to lead and manage academic and research initiatives effectively.
  4. Contributions to Education:
    • The candidate has been instrumental in developing and accrediting various study programs, including Bachelor’s and Master’s degrees in Mechanical Engineering and Industrial Engineering. Their work in creating didactical training and education programs for national and international partners showcases their dedication to advancing education in engineering.
  5. Research Contributions:
    • The candidate has engaged in several research projects in areas such as Mechanical Engineering, Water Power Engineering, and Dual Education. Their authorship of various scientific publications further underscores their contributions to research and knowledge dissemination.
  6. International Experience and Collaboration:
    • As the Head of the International Office at DHBW Mosbach, the candidate has demonstrated a commitment to fostering international collaborations and expanding the global reach of their institution.
  7. Industry Engagement:
    • The candidate’s part-time role as CEO of IRATEC GmbH, coupled with their experience in consulting and renewable energy engineering, illustrates a strong connection between their academic work and practical, real-world applications.

Areas for Improvement:

  1. Focused Research Output:
    • While the candidate has a broad range of experience, a more focused research output in a specific area of mechanical engineering might strengthen their candidacy for a Best Researcher Award. Concentrating on one niche could lead to more impactful publications and a stronger reputation in that domain.
  2. Innovation and Patents:
    • The candidate’s profile could be further enhanced by showcasing any patents or innovative technologies they may have developed. Highlighting these achievements would emphasize their contributions to the advancement of mechanical engineering.
  3. Recent Research Activity:
    • Emphasizing more recent and cutting-edge research activities would demonstrate continued relevance and engagement with current trends in mechanical engineering. If recent high-impact publications or projects are not prominent, focusing on these could be beneficial.

 

✍️Publications Top Note :

Time-dependent measurements of cavitation damage
Authors: Osterman, A., Bachert, B., Sirok, B., Dular, M.
Journal: Wear, 2009, 266(9-10), pp. 945–951
Citations: 29

Comparison of different methods for the evaluation of cavitation damaged surfaces
Authors: Bachert, B., Ludwig, G., Stoffel, B., Baumgarten, S.
Conference: Proceedings of the American Society of Mechanical Engineers Fluids Engineering Division Summer Conference, 2005, 2, pp. 553–560, FEDSM2005-77368
Citations: 1

Comparison of different methods for the evaluation of cavitation damaged surfaces
Authors: Bachert, B., Stoffel, B., Ludwig, G., Baumgarten, S.
Conference: Proceedings of 2005 ASME Fluids Engineering Division Summer Meeting, FEDSM2005, 2005, pp. 2111–2118
Citations: 7

Relationship between cavitation structures and cavitation damage
Authors: Dular, M., Bachert, B., Stoffel, B., Širok, B.
Journal: Wear, 2004, 257(11), pp. 1176–1184
Citations: 249

Experimental investigations concerning erosive aggressiveness of cavitation at different test configurations
Authors: Bachert, B., Dular, M., Baumgarten, S., Ludwig, G., Stoffel, B.
Conference: Proceedings of the ASME Heat Transfer/Fluids Engineering Summer Conference 2004, HT/FED 2004, 3, pp. 733–743, HT-FED04-56597
Citations: 5

Experimental investigations concerning influences on cavitation inception at an axial test pump
Authors: Bachert, B., Brunn, B., Stoffel, B.
Conference: Proceedings of the ASME/JSME Joint Fluids Engineering Conference, 2003, 2 A, pp. 249–256
Citations: 5

The influence of cavitation structures on the erosion of a symmetrical hydrofoil in a cavitation tunnel
Authors: Širok, B., Dular, M., Novak, M., Ludwig, G., Bachert, B.
Journal: Strojniski Vestnik/Journal of Mechanical Engineering, 2002, 48(7), pp. 368–378
Citations: 13

Conclusion:

The candidate is a strong contender for the Best Researcher Award due to their extensive academic qualifications, leadership experience, and contributions to education and research. Their background in mechanical engineering is complemented by significant roles in academia and industry, making them a well-rounded and influential figure in the field. To enhance their candidacy, they could focus on a more specialized area of research, highlight any innovative contributions, and ensure their recent research activities are at the forefront of their application.

Ashish Meeruty | Materials science | Excellence in Research

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Mr. Ashish Meeruty | Materials science | Excellence in Research

Department: Civil Engineering, PhD, Research Scholar,  Parul University, India

Mr. Ashish Meeruty is a dedicated professional with a passion for education and leadership. With a strong background in academic administration, he has been instrumental in fostering a culture of excellence at Parul University. His commitment to the growth and development of students is evident in his proactive approach to enhancing the learning environment. Mr. Meeruty’s leadership style is characterized by his ability to inspire and motivate others, resulting in a highly motivated team that is focused on achieving the university’s goals. His strategic vision and innovative ideas have played a key role in shaping the university’s future direction. As a leader, Mr. Meeruty is known for his integrity, empathy, and commitment to academic excellence, making him a respected figure within the university community and beyond.

 

Professional Profiles:

 

Education:

Mr. Ashish Meeruty is currently pursuing a Ph.D. in Structural Engineering at Parul University, a journey he embarked upon in December 2019 with an expected completion date of January 2024. His academic journey has been marked by notable achievements, including the completion of an M. Tech in Structural Design from Sri Satya Sai University, Sehore (M.P) in December 2016, where he secured a first-class distinction with an impressive 80.00% score. Prior to his postgraduate studies, Mr. Meeruty earned a B.E. in Civil Engineering from Parul Institute of Engineering & Technology, affiliated with GTU, in June 2013, achieving a first-class distinction with a score of 63.10%. His academic background reflects a strong foundation in civil engineering, particularly in the area of structural design, showcasing his dedication to academic excellence and his commitment to the field of engineering.

 

Experience:

Mr. Ashish Meeruty has a diverse professional background that spans academia and the corporate sector. His journey began as a Lecturer at Parul Institute of Engineering & Technology, Waghodia, Limda PO, Vadodara, where he worked from June 2013 to 2017, contributing to the educational development of students. Building on his experience, he then transitioned to the role of Assistant Professor at the same institute, where he continued to make significant contributions to academic growth from January 2018 to August 2020. Currently, Mr. Meeruty serves as the Manager Civil at Rail Vikas Nigam Ltd. PIU. Vadodara, where he has been utilizing his expertise and leadership skills since August 2020, demonstrating his adaptability and dedication to both the academic and corporate realms.

Achievements::

Mr. Ashish Meeruty has been the recipient of several prestigious awards and accolades, underscoring his outstanding contributions and accomplishments. Notably, in 2019-20, he was recognized as the Best Faculty, a testament to his excellence in teaching. His research acumen was acknowledged with the Best Paper and Best Presenter awards at the International Conference 2020 in Pandharpur, showcasing his expertise and presentation skills. Mr. Meeruty’s commitment to research was further validated with the Research Promotion Award in 2020 and 2022, highlighting his significant contributions to the field. Furthermore, his guidance and mentorship were acknowledged when a student under his supervision was awarded the Best Thesis Award in 2022. His professional excellence extends beyond academia, as evidenced by the RVNL Group Award for the year 2020-21 and the Navratna Incentive at Rail Vikas Nigam Ltd. in October 2023, recognizing his exceptional performance and dedication. Additionally, Mr. Meeruty’s achievements include clearing the ISO Auditor Exam and being nominated as an ISO Auditor, demonstrating his expertise in quality management systems. Most recently, he was honored with the “Special Incentive Award” at Rail Vikas Nigam Ltd. on November 1, 2023, further highlighting his continued success and contributions to his field.

Current Organization Work Profile:

Mr. Ashish Meeruty has played a pivotal role in managing site activities for several significant projects, including the NRTI work in Vadodara, Dabhoi PEB Work, and Surat Metro work Depot Work. His responsibilities have extended to tender works, variation of items, and the meticulous preparation of Bills of Quantities (BOQ) for a range of projects, demonstrating his expertise in project management and procurement. Additionally, Mr. Meeruty has been actively involved in technical reviewing, design, drawings, and other critical details essential for both ongoing and future engineering infrastructural works. His multifaceted involvement showcases his comprehensive understanding of the intricacies involved in infrastructure development and his ability to contribute significantly to complex projects.

Membership Professional Body /Association

Mr. Ashish Meeruty is an active member of various esteemed professional organizations, demonstrating his dedication to professional growth and development. As a Life Member of the Institution of Engineers India (AM -1810890), he is affiliated with a prominent engineering institution, showcasing his commitment to the engineering profession. Furthermore, his membership in the American Institute of Concrete (ACI) as a Life Member with the membership number 01596697 highlights his engagement with international standards and practices in concrete technology. Additionally, Mr. Meeruty is a Chartered Engineer (AM-1810890) as a Life Member, further emphasizing his professional standing and expertise in the field. His membership in the Indian Society of Remote Sensing underscores his interest and involvement in remote sensing technologies. Moreover, as a member of the American Society for Civil Engineers (ASCE) and the ICMAI for registered Valuers Organisation for Land & Building, he demonstrates his commitment to staying updated with the latest trends and developments in civil engineering and valuation practices. These memberships collectively reflect Mr. Meeruty’s active engagement and continuous efforts to contribute to the advancement of his profession.

Publications Top Notes:

1. Analysis of Bridge Deck Slab Using Code Provisions of Irc6- 2014 by Grillage Analogy Method Indian Journal of Applied Research 2017 ISSN 2249-555X

2. Smart Village: Soul of Developing India International conference on Clean technologies and sustainable development, NITTR- Chitkara university Chandigarh India 23rd -24th Feb 2018

3. Smart Materials for Sustainable and Smart Infrastructure International Conference on Recent Advances in Materials & Manufacturing Technologies: Challenges & Opportunities (ICRAMMT) 19-20 Nov 2018 IOP science series, Scopus indexed

4. Handling and Utilization of Fly ash from thermal power plants 8th IconSWM 2018: 8th International Conference on Sustainable Waste Management November 22-24, 2018 Circular, Economy and Flyash Management, Pg 1-11, 2020

5. Green Buildings Versus Conventional Buildings International Conference on Urban Sustainability Emerging Trends, Themes, Concepts & Practices ICUS-2018, Malaviya National Institute Of Technology, Jaipur, 16th – 18th March 2018 ISBN: 978-93- 86238-48-1