Himanshu Rana | Industrial and Manufacturing Applications | Best Researcher Award

Best Researcher Award

Himanshu Rana
Université de Technologie de Compiègne, France
Himanshu Rana
Affiliation Université de Technologie de Compiègne
Country France
Google Scholar  View Profile
Documents 3
Citations 25
h-index 2
Subject Area Industrial and Manufacturing Applications
Event Global Tech Excellence Awards
ORCID 0009-0004-5128-0329

Himanshu Rana is a researcher associated with Université de Technologie de Compiègne, France, whose scholarly work focuses on industrial and manufacturing applications, fatigue modeling, machine learning integration, and computational engineering methodologies. His publications demonstrate an interdisciplinary approach that combines physics-informed modeling, data-driven prediction systems, and optimization frameworks for analyzing material behavior and fatigue performance in engineering structures. His contributions have attracted scholarly attention through citations and ongoing academic engagement, making his profile relevant for recognition within international research and innovation award programs.[1]

Abstract

Himanshu Rana conducts research at the intersection of computational engineering, fatigue modeling, machine learning, and industrial manufacturing applications. His published studies explore advanced methods for predicting material fatigue behavior using hybrid physics-informed and data-driven frameworks. Through the integration of optimization algorithms, surrogate modeling approaches, and energy-based fatigue analysis, his work contributes to improved reliability assessment and performance forecasting in engineering systems. The research portfolio demonstrates a commitment to addressing complex industrial challenges through scientific modeling and computational innovation. These contributions support ongoing developments in predictive engineering and intelligent manufacturing technologies.[2]

Keywords

Fatigue Modeling, Machine Learning, Bayesian Optimization, Predictive Engineering, Physics-Informed Modeling, Concrete Fatigue Analysis, Surrogate Models, Computational Mechanics, Energy-Based Fatigue Models, Industrial Manufacturing Applications.

Introduction

Himanshu Rana investigates advanced engineering problems through computational modeling and intelligent prediction methodologies. His studies emphasize fatigue assessment, optimization strategies, and machine learning integration for engineering materials. By combining theoretical understanding with practical industrial applications, his research addresses reliability challenges relevant to modern manufacturing and structural performance evaluation.[2]

Research Profile

Himanshu Rana maintains an emerging academic profile characterized by interdisciplinary investigations involving fatigue life prediction, computational simulations, and engineering optimization. His publication record reflects collaboration across materials science and computational engineering domains. The combination of scholarly output, citations, and international institutional affiliation contributes to his growing research visibility.[1]

Research Contributions

Himanshu Rana has contributed to the development of hybrid frameworks that integrate machine learning algorithms with physics-based fatigue models. His research advances predictive capabilities for concrete fatigue behavior and parameter identification processes. These studies enhance understanding of material degradation mechanisms while supporting more efficient engineering design and maintenance strategies.[2][3]

Publications

Himanshu Rana has authored and co-authored publications addressing surrogate-based multi-objective Bayesian optimization, automated parameter identification, fatigue modeling, and machine learning-assisted prediction systems. His works are published in recognized scientific venues and contribute to contemporary discussions concerning computational mechanics, material performance prediction, and intelligent engineering methodologies.[2][3]

Research Impact

Himanshu Rana’s research contributes to improved predictive accuracy in fatigue assessment and engineering reliability analysis. The integration of machine learning and physics-informed methods supports practical industrial applications while advancing scientific understanding. Citation activity and academic engagement indicate the relevance of his work within computational engineering and manufacturing research communities.[1]

Award Suitability

Himanshu Rana demonstrates qualifications aligned with the objectives of the Global Tech Excellence Awards through his contributions to industrial and manufacturing applications. His interdisciplinary research, scholarly publications, and emphasis on innovative predictive methodologies reflect qualities commonly recognized in researcher-focused award evaluations emphasizing scientific advancement and technological impact.[4]

Conclusion

Himanshu Rana represents an emerging researcher whose work bridges computational engineering, fatigue science, and machine learning. His studies contribute valuable insights into predictive modeling and industrial applications. Continued scholarly activity and interdisciplinary collaboration are expected to further strengthen his academic profile and influence within engineering research domains.[1]

References

  1. Google Scholar. (n.d.). Himanshu Rana citation profile and publication metrics.
    https://scholar.google.com/citations?user=8GYOxqoAAAAJ&hl=en&oi=sra
  2. Rana, H., & Ibrahimbegovic, A. (2026). A Hybrid Physics-Informed and Data-Driven Approach for Predicting the Fatigue Life of Concrete Using an Energy-Based Fatigue Model and Machine Learning.
    https://doi.org/10.3390/computation13030061
  3. Rana, H., et al. (2026). Surrogate-Based Multi-Objective Bayesian Optimization for Automated Parameter Identification in 3D Mesoscale Concrete Fatigue Modeling. Computation.
    https://doi.org/10.3390/computation14030063
  4. Global Tech Excellence Awards. (n.d.). Award program overview and evaluation framework.
    https://globaltechexcellence.com/
  5. ORCID. (n.d.). Researcher identifier profile for Himanshu Rana.
    https://orcid.org/0009-0004-5128-0329

Deepak Kumar | Industrial and Manufacturing Applications | Innovative Research Award

Innovative Research Award

Deepak Kumar
Amity University, India

                           Deepak Kumar
Affiliation Amity University
Country India
Scopus ID 58631630000
Documents 178
Citations 2125
h-index 23
Subject Area Industrial and Manufacturing Applications
Event Global Tech Excellence Awards
ORCID 0000-0003-2409-9706

The Innovative Research Award recognizes scholarly excellence demonstrated through sustained research productivity, citation influence, and contributions to industrial and manufacturing applications. Deepak Kumar of Amity University has established a documented research profile supported by peer-reviewed publications, measurable citation performance, and interdisciplinary investigations addressing contemporary engineering and technological challenges. His scholarly record, reflected through Scopus-indexed outputs and international research visibility, aligns with the objectives of the Global Tech Excellence Awards in recognizing impactful scientific achievement.[1][2]

Abstract

Deepak Kumar is a researcher affiliated with Amity University whose scholarly activities are associated with industrial and manufacturing applications. His research portfolio comprises 178 indexed documents supported by more than 2,100 citations and an h-index of 23, indicating sustained academic engagement and recognized influence within the scientific community. Through multidisciplinary investigations, collaborative publications, and contributions to engineering-oriented problem solving, his work supports technological advancement and knowledge dissemination. The documented publication performance, citation visibility, and international research presence provide a strong foundation for recognition under the Innovative Research Award within the Global Tech Excellence Awards framework.[1][2]

Keywords

Industrial Engineering, Manufacturing Applications, Materials Engineering, Process Optimization, Sustainable Manufacturing, Advanced Technologies, Engineering Research, Scientific Publications, Citation Impact, Research Excellence

Introduction

Industrial and manufacturing research plays a significant role in advancing productivity, sustainability, and technological innovation. Deepak Kumar has contributed to this domain through scholarly investigations addressing contemporary engineering challenges. His publication record demonstrates engagement with emerging research themes and reflects participation in knowledge generation relevant to industrial applications and scientific advancement.[1]

Research Profile

The research profile of Deepak Kumar is characterized by a substantial body of peer-reviewed publications indexed in Scopus. With 178 documents, 2125 citations, and an h-index of 23, the profile reflects consistent scholarly productivity and measurable academic influence. His affiliation with Amity University supports collaborative research activities and interdisciplinary academic engagement.[1][2]

Research Contributions

His contributions encompass industrial and manufacturing applications, emphasizing technological development, engineering methodologies, and practical solutions to industrial problems. Through collaborative and independent investigations, he has contributed to scientific literature that supports innovation, process improvement, and the broader advancement of manufacturing-related knowledge across interdisciplinary contexts.[1]

Publications

The publication portfolio includes numerous peer-reviewed articles indexed in recognized scientific databases.[3] These works collectively demonstrate sustained research productivity and participation in international scholarly communication. Publication outputs contribute to the visibility of engineering and manufacturing research while supporting citation growth and academic recognition within the field.[1]

Research Impact

Research impact is reflected through citation performance, publication visibility, and academic engagement. The accumulation of over two thousand citations indicates that published findings have been referenced by other researchers. This influence highlights the relevance of his contributions to ongoing scientific discussions and technological developments within industrial research domains.[1]

Award Suitability

The documented combination of publication output, citation metrics, scholarly consistency, and research relevance supports consideration for the Innovative Research Award. His academic achievements align with evaluation criteria commonly associated with research excellence, scientific productivity, and contributions that advance industrial and manufacturing applications at national and international levels.[1][4]

Conclusion

Deepak Kumar’s scholarly record demonstrates sustained engagement in industrial and manufacturing research. Supported by substantial publication output, citation impact, and recognized academic metrics, his profile reflects meaningful contributions to engineering scholarship. These achievements provide a credible basis for recognition through the Innovative Research Award and related academic distinction programs.[3]

References

  1. Elsevier. (n.d.). Scopus author details: Deepak Kumar, Author ID 58631630000. Scopus. https://www.scopus.com/authid/detail.uri?authorId=58631630000
  2. ORCID. (n.d.). Deepak Kumar: ORCID record 0000-0003-2409-9706. https://orcid.org/0000-0003-2409-9706
  3. Google Scholar. (n.d.). Scholar profile and publication record of Deepak Kumar. https://scholar.google.com/citations?user=XDCK3_AAAAAJ&hl=en&oi=sra
  4. Global Tech Excellence Awards. (n.d.). Award information and recognition framework. https://globaltechexcellence.com/

Joana Ribeiro | Industrial and Manufacturing Applications | Best Researcher Award

Best Researcher Award

                         Joana Ribeiro
Affiliation University of Trás-os-Montes e Alto Douro
Country Portugal
Scopus 59725021400
Documents 1
Citations 2
h-index 1
Subject Area Industrial and Manufacturing Applications
Event Global Tech Excellence Awards

Joana Ribeiro is a researcher affiliated with the University of Trás-os-Montes e Alto Douro, Portugal. Her scholarly activities are associated with Industrial and Manufacturing Applications, contributing to academic and technological discussions within the engineering and industrial research landscape. This profile summarizes her research background, publication record, academic impact, and suitability for professional recognition through the Global Tech Excellence Awards.[1]

Abstract

This article presents an academic overview of Joana Ribeiro, highlighting her affiliation, scholarly output, citation performance, and research relevance within Industrial and Manufacturing Applications. The assessment considers publication visibility, research impact indicators, and alignment with the evaluation principles commonly associated with international research recognition programs.[1]

Keywords

Industrial Engineering, Manufacturing Applications, Applied Research, Technology Innovation, Engineering Research, Industrial Development, Research Excellence, Academic Recognition, Scholarly Impact, Global Tech Excellence Awards.[1]

Introduction

Joana Ribeiro is associated with the University of Trás-os-Montes e Alto Douro in Portugal and participates in research activities connected to industrial and manufacturing applications. Her scholarly work contributes to the advancement of engineering knowledge through academic publication and engagement with contemporary industrial research topics.[1]

Research Profile

The available Scopus profile identifies Joana Ribeiro as an emerging contributor within the field of Industrial and Manufacturing Applications. Bibliometric indicators currently include one indexed document, two citations, and an h-index of one, reflecting the initial measurable impact of her academic output.[1]

Research Contributions

Her research contributions are associated with industrial and manufacturing studies that support technological understanding and practical applications. Through scholarly dissemination, her work adds to ongoing discussions concerning engineering methodologies, production systems, and innovation-driven approaches relevant to contemporary industrial environments.[2]

Publications

The publication record indexed in Scopus currently includes one document connected to industrial and manufacturing research. Despite a concise publication portfolio, the work contributes to the academic literature and provides a foundation for future scholarly development, collaboration opportunities, and continued research dissemination.[1][2]

Research Impact

Research impact may be evaluated through citation activity, scholarly visibility, and relevance to the broader engineering community. With two citations recorded in Scopus, Joana Ribeiro’s work has demonstrated initial recognition by other researchers, indicating engagement with and acknowledgment of her published contributions.[1]

Award Suitability

Based on available bibliometric information, Joana Ribeiro demonstrates characteristics associated with emerging research achievement. Her participation in industrial and manufacturing research, combined with indexed scholarly output and measurable citation activity, supports consideration for recognition under the Best Researcher Award category of the Global Tech Excellence Awards.[1][3]

Conclusion

Joana Ribeiro represents an academic researcher contributing to Industrial and Manufacturing Applications through scholarly publication and research engagement. Her documented achievements, citation record, and institutional affiliation provide evidence of ongoing academic development and establish a foundation for future growth, visibility, and professional recognition.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Joana Ribeiro, Author ID 59725021400. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=59725021400
  2. Advancing healthcare through remote patient monitoring: A brief literature review.
    DOI: https://www.sciencedirect.com/science/article/pii/S1877050925005538?via%3Dihub
  3. Global Tech Excellence Awards. (n.d.). Award information and evaluation framework.
    https://globaltechexcellence.com/

Selvakumaran Sivashanmugam | Industrial and Manufacturing Applications | Research Excellence Award

Dr. Selvakumaran Sivashanmugam | Industrial and Manufacturing Applications | Research Excellence Award

Roever Engineering College | India

Dr. Selvakumaran Sivashanmugam is an accomplished academician and researcher in Electrical and Electronics Engineering with over 15 years of teaching experience. His expertise spans power electronics, smart grids, renewable energy systems, and electric vehicle technologies. He has authored multiple Scopus-indexed publications in reputed journals, reflecting a strong and growing research profile. His work emphasizes AI-driven energy optimization, advanced control strategies, and sustainable power systems. He has collaborated with multidisciplinary research teams and guided numerous undergraduate and postgraduate projects. His contributions significantly support the development of clean energy solutions and intelligent infrastructure for societal and industrial advancement.

Citation Metrics (Scopus)

150

100

50

0

Citations
100

Documents
22

h-index
4

🟦 Citations 🟥 Documents 🟩 h-index

View Scopus Profile
           View ORCID Profile

Featured Publications


A hybrid approach for PV-based grid-tied intelligent controlled water pump system.

– International Journal of Adaptive Control and Signal Processing. (2024).

Yelda Karatepe Mumcu | Industrial and Manufacturing Applications | Best Researcher Award

Assoc. Prof. Dr. Yelda Karatepe Mumcu | Industrial and Manufacturing Applications | Best Researcher Award

Marmara University | Turkey

Assoc. Prof. Dr. Yelda Karatepe Mumcu is an academic in electrical engineering specializing in artificial neural networks, energy systems, and industrial optimization. Her research spans renewable energy awareness, intelligent manufacturing systems, and power system analytics, with recent contributions focusing on micro-mobility and life cycle–based emission modeling. She has collaborated with interdisciplinary researchers on applied engineering challenges in both energy and industrial domains. Her work demonstrates strong practical relevance, particularly in advancing sustainable technologies and data-driven engineering solutions. Her studies on renewable energy awareness highlight a significant societal impact, contributing to sustainability, energy education, and environmentally responsible engineering practices.

Citation Metrics (Scopus)

120

80

40

0

Citations
94

Documents
8

h-index
3

🟦 Citations 🟥 Documents 🟩 h-index

View Scopus Profile
           View ORCID Profile
        View Google Scholar Profile

Featured Publications


Neural network solution to low order odd current harmonics in short chorded induction motors.

– International Journal of Systems Applications, Engineering & Development, 1(2), 21–28. (2023). Cited By: 15

Estimation of low order odd current harmonics in short chorded induction motors using artificial neural network.

– Proceedings of the 9th WSEAS International Conference on Neural Networks (NN ’08). (2008). Cited By: 6

Muhammad Waheed Azam | Industrial and Manufacturing Applications | Best Review Paper Award

Dr. Muhammad Waheed Azam | Industrial and Manufacturing Applications | Best Review Paper Award

University of Bologna | Italy

Muhammad Waheed Azam is a Research Fellow in Industrial Engineering at the University of Bologna, Italy, with expertise in heat transfer, solar energy systems, HVAC, and thermal management. His research spans experimental analysis, molecular dynamics, and renewable energy integration, with a focus on advanced heat exchangers and sustainable cooling technologies. He has contributed to reputable international journals such as Inventions, Frontiers in Heat and Mass Transfer, and the International Journal of Refrigeration. He actively collaborates with researchers across Europe and Asia, advancing innovative solutions for energy-efficient industrial systems and environmentally sustainable engineering applications.

Citation Metrics (Scopus)

60

40

20

0

Citations
59

Documents
12

h-index
5

🟦 Citations 🟥 Documents 🟩 h-index

View Scopus Profile
           View ORCID Profile
        View Google Scholar Profile

Featured Publications


Evaluating the parameters affecting the direct and indirect evaporative cooling systems.

– Engineering Analysis with Boundary Elements, 145, 211–223. (2022). Cited By; 53

Saulius Baskutis | Manufacturing Applications | Excellence in Computer Vision Award

Prof. Dr. Saulius Baskutis | Manufacturing Applications | Excellence in Computer Vision Award

Professor at Kaunas University of Technology | Lithuania

Prof. Dr. Saulius Baskutis is a distinguished academic and researcher whose career spans decades of teaching, research, and industrial engagement in the field of engineering sciences. He has contributed significantly to the advancement of materials testing, welding processes, coatings, renewable energy, logistics, and device diagnostics, while also actively participating in collaborative international projects. His professional journey reflects a balance between academic excellence and industrial practice, providing him with the ability to develop innovative, practical solutions for technological challenges. With numerous publications in reputable, indexed journals and presentations at international conferences, he has built a strong scholarly reputation. His leadership in EU-funded projects and membership in professional associations highlights his influence in both academic and professional communities. Recognized for his commitment to advancing science and technology, he continues to inspire students, researchers, and industry experts, while shaping the future of sustainable engineering practices through impactful research and collaborations.

Professional Profiles 

Scopus Profile | ORCID Profile 

Education

Prof. Dr. Saulius Baskutis began his academic journey at Kaunas Polytechnical Institute, where he earned an engineering qualification and later pursued doctoral studies in technical sciences, which shaped the foundation of his research career. His academic training combined deep theoretical knowledge with applied aspects of mechanical and material sciences, enabling him to explore innovative solutions in manufacturing and energy systems. During his postgraduate years, he developed expertise in welding, coatings, and materials testing, areas that would remain central to his research. He later expanded his knowledge through continuous professional development and specialized training programs across Europe, focusing on Industry 4.0, renewable energy, mechatronics, and advanced manufacturing technologies. This commitment to lifelong learning has strengthened his academic portfolio and ensured that his teaching and research remain aligned with evolving industrial needs. His education reflects a continuous pursuit of excellence, integrating traditional engineering knowledge with modern approaches to meet current and future challenges.

Professional Experience

Prof. Dr. Saulius Baskutis has built an impressive professional career combining academia and industry, demonstrating strong leadership and applied expertise in engineering. He has served at Kaunas University of Technology in various roles, progressing from assistant and lecturer to associate professor and professor, contributing extensively to teaching and curriculum development in manufacturing and mechanical engineering. His professional journey is enriched by industrial experience with organizations in Lithuania, Denmark, and Finland, where he worked as an engineer, manager, and project leader. These positions enabled him to apply academic insights to solve real-world engineering problems while fostering stronger connections between research and practice. He has also held leadership roles in European and national research projects, demonstrating the ability to guide interdisciplinary teams and achieve impactful outcomes. His active participation in Erasmus programs and scientific exchanges further broadened his expertise, while his engagement in professional associations has extended his influence within the engineering community.

Research Interest

Prof. Dr. Saulius Baskutis has a diverse range of research interests that reflect his commitment to addressing technological and societal challenges through engineering innovations. His primary focus lies in materials testing, welding processes, and coatings, where he investigates methods to improve durability, performance, and cost-effectiveness in industrial applications. He is also actively engaged in exploring renewable energy sources, with particular attention to sustainable energy production, district heating systems, and the integration of green technologies into industrial processes. His work in logistics and device diagnostics complements these efforts by improving efficiency, safety, and reliability in manufacturing and energy systems. He is keenly interested in the intersection of Industry 4.0 and smart manufacturing, contributing to projects that integrate robotics, automation, and advanced digital technologies. These research interests demonstrate his vision of combining scientific discovery with practical applications to promote sustainable development and enhance global competitiveness in engineering and technological industries.

Research Skill

Prof. Dr. Saulius Baskutis possesses a comprehensive set of research skills that reflect his long-standing academic and industrial experience in engineering. He is highly skilled in experimental methods, particularly in the testing of materials, welding techniques, and coating technologies, where precision and innovation are essential. His ability to design, conduct, and analyze experiments has led to impactful findings published in internationally recognized journals. He demonstrates strong competencies in project management, having successfully led and contributed to national and international research initiatives, including EU-funded programs. His skills extend to collaborative research, working with multidisciplinary teams across Europe to address complex technological challenges. Additionally, he is adept in applying digital tools such as CAD, CAM, and CNC systems to align with Industry 4.0 practices. His ability to bridge theoretical knowledge with applied solutions highlights his strength as both a researcher and innovator, ensuring his contributions remain relevant and forward-looking.

Publications Top Notes

Title: Numerical Method for Internal Structure and Surface Evaluation in Coatings
Authors: Tomas Kačinskas, Saulius Baskutis
Year: 2025

Title: Modeling of Vibrational-Centrifugal Strengthening for Functional Surfaces of Machine Parts
Authors: Vadym Stupnytskyy, Yaroslav Kusyi, Egidijus Dragašius, Saulius Baskutis, Rafal Chatys
Year: 2024

Title: Investigation of the Properties of Anti-Friction Coatings Deposited with Different Casting Methods
Authors: Tomas Kačinskas, Saulius Baskutis, Jolanta Baskutienė, Lina Kavaliauskienė
Year: 2024

Title: Analytical Model of Tapered Thread Made by Turning from Different Machinability Workpieces
Authors: Oleh Onysko, Volodymyr Kopei, Cristian Barz, Yaroslav Kusyi, Saulius Baskutis, Michal Bembenek, Predrag Dašić, Vitalii Panchuk
Year: 2024

Title: Control of the Parameters of the Surface Layer of Steel Parts During Their Processing Applying the Material Homogeneity Criterion
Authors: Kusyi Yaroslav, Stupnytskyy Vadym, Kostiuk Olha, Oleh Onysko, Egidijus Dragašius, Saulius Baskutis, Rafał Chatys
Year: 2024

Title: Simulation and Analytical Studies of Chip Formation Processes in the Cutting Zone of Titanium Alloys
Authors: Vadym Stupnytskyy, Xianning She, Egidijus Dragašius, Saulius Baskutis, Oleh Prodanchuk
Year: 2023

Title: Pool Boiling of Ethanol on Copper Surfaces with Rectangular Microchannels
Authors: Robert Kaniowski, Robert Pastuszko, Egidijus Dragašius, Saulius Baskutis
Year: 2023

Title: Influence of Additives on the Mechanical Characteristics of Hardox 450 Steel Welds
Authors: Saulius Baskutis, Jolanta Baskutiene, Egidijus Dragašius, Lina Kavaliauskiene, Neringa Keršiene, Yaroslav Kusyi, Vadym Stupnytskyy
Year: 2023

Title: Modeling and Simulation of Machined Surface Layer Microgeometry Parameters
Authors: Vadym Stupnytskyy, Egidijus Dragašius, Saulius Baskutis, She Xianning
Year: 2022

Title: Agent-Based Modelling Approach for Autonomous Vehicle Influence on Countries’ Welfare
Authors: Saulius Baskutis, Valentas Gružauskas, Peter Leibl, Linas Obcarskas
Year: 2022

Title: Effect of Chemical Composition of Clay on Physical-Mechanical Properties of Clay Paving Blocks
Authors: Rolandas Avizovas, Saulius Baskutis, Valentinas Navickas, László Tamándl
Year: 2022

Title: Perspectives and Problems of Using Renewable Energy Sources and Implementation of Local “Green” Initiatives: A Regional Assessment
Authors: Saulius Baskutis, Jolanta Baskutiene, Valentinas Navickas, Yuriy Bilan, Wojciech Cieśliński
Year: 2021

Title: Mechanical Properties and Microstructure of Aluminium Alloy AW6082-T6 Joints Welded by Double-Sided MIG Process Before and After Aging
Authors: Saulius Baskutis
Year: 2019

Title: Monitoring of Welding Process Parameters in Gas Tungsten Arc Welding of Carbon Steel Weldments
Authors: Saulius Baskutis
Year: 2019

Title: Effect of Weld Parameters on Mechanical Properties and Tensile Behavior of Tungsten Inert Gas Welded AW6082-T6 Aluminium Alloy
Authors: Saulius Baskutis
Year: 2019

Title: Research on Mechanical Properties of TIG Welded Aluminum Alloy
Authors: Bendikiene R., Baskutis S., Baskutiene J., Ciuplys A.
Year: 2018

Title: Comparative Study of TIG Welded Commercially Pure Titanium
Authors: Saulius Baskutis
Year: 2018

Title: Minimizing the Trade-Off Between Sustainability and Cost Effective Performance by Using Autonomous Vehicles
Authors: Saulius Baskutis
Year: 2018

Title: The Analysis of Dissimilar Metal Weld Joints
Authors: Saulius Baskutis
Year: 2018

Title: Experimental Study of Welded Joints of Aluminium Alloy AW6082
Authors: Baskutis S., Baskutiene J., Bernotaitis E.
Year: 2017

Title: The Vibratory Alignment of the Parts in Robotic Assembly
Authors: Saulius Baskutis
Year: 2017

Title: Influence of Welding Modes on Weldability of Structural Steel Lap Joints in Laser Welding
Authors: Saulius Baskutis
Year: 2017

Title: Warehouses Consolidation in the Logistic Clusters: Food Industry’s Case
Authors: Saulius Baskutis
Year: 2016

Title: Nano and Microhardness Testing of Heterogeneous Structures
Authors: Saulius Baskutis
Year: 2016

Title: The Temperature Control Impact to the Food Supply Chain
Authors: Baskutis S., Navickas V., Gružauskas V., Olencevičiute D.
Year: 2015

Conclusion

Prof. Dr. Saulius Baskutis is highly deserving of the Best Researcher Award for his longstanding dedication to advancing engineering science, particularly in the fields of coatings, welding technologies, renewable energy, and sustainable manufacturing. His significant contributions through impactful publications, leadership in international research projects, and strong collaboration between academia and industry highlight his role in driving innovation and practical solutions for society. With his expertise, professional recognition, and commitment to mentoring future generations, he demonstrates both past excellence and strong potential for continued research leadership and global impact in the years ahead.

Kazeem Aderemi Bello | Additive Manufacturing | Innovation Excellence Award

Dr. Kazeem Aderemi Bello | Additive Manufacturing | Innovation Excellence Award

Postdoctoral Fellow at Durban University of Technology, Steven Biko Campus, South Africa

Dr. Kazeem Aderemi Bello is a highly accomplished industrial and mechanical engineer with extensive expertise in smart manufacturing, lean production systems, and industrial process optimization. He currently serves in the Department of Mechanical Engineering at Durban University of Technology, South Africa, and holds a postdoctoral fellowship. With a strong academic foundation and over two decades of experience, Dr. Bello has contributed significantly to both academia and industry. His research output spans over 20 Scopus-indexed publications, addressing crucial areas such as sustainable production, machining processes, occupational safety, and engineering education. A registered COREN engineer and a member of several national and international professional organizations, he is widely respected for his leadership, innovation, and commitment to training future engineers. He has also earned recognition for his excellence in teaching and has participated in international workshops and certifications. Dr. Bello exemplifies dedication to research, education, and global collaboration in engineering sciences.

Professional Profile 

Education🎓

Dr. Kazeem Aderemi Bello’s academic journey reflects a progressive and multidisciplinary advancement in engineering. He earned his Ph.D. in Industrial Engineering from the University of Benin, Nigeria, in 2018, with a dissertation focused on manufacturing and safety in fiber cement sheet production. Prior to his doctoral degree, he obtained a Master’s in Engineering Management (2014) and a Postgraduate Diploma in Mechanical Engineering (2008), also from reputable Nigerian institutions. His foundational qualifications include a Higher National Diploma (HND) in Mechanical Engineering from Yaba College of Technology (1998) and a Senior Secondary Certificate from Idi-Araba High School (1993). Additionally, his credentials have been evaluated and recognized by the South African Qualifications Authority (SAQA) in 2022, further validating his academic standing internationally. His education has equipped him with both theoretical knowledge and applied skills, enabling him to conduct impactful research and contribute effectively to academic and professional engineering practices.

Professional Experience📝

Dr. Kazeem Aderemi Bello brings a rich blend of academic and industrial experience spanning over two decades. He is currently serving as a Postdoctoral Research Fellow in the Department of Mechanical Engineering at Durban University of Technology, South Africa, where he conducts advanced research in smart manufacturing and production optimization. Prior to this role, he held teaching and research positions at several Nigerian universities, including the University of Benin, where he contributed to curriculum development, student supervision, and departmental growth. Beyond academia, Dr. Bello has also engaged in technical consulting and project implementation related to health and safety systems, industrial audits, and mechanical system design. His professional journey is enriched by his participation in numerous international workshops and certifications, including NEBOSH training in the UK and the Royal Academy of Engineering programs in Kenya. His leadership and practical experience make him a versatile engineer and educator with both local and global impact.

Research Interest🔎

Dr. Bello’s research interests lie at the intersection of smart manufacturing technology, production process optimization, and lean manufacturing systems. His work focuses on improving efficiency, sustainability, and adaptability within industrial operations, especially through digital and data-driven approaches. He is particularly interested in the life cycle assessment of manufacturing systems, machining processes, and renewable energy integration. His published studies have addressed issues such as resource recycling for zero-waste production, nano-fluid applications in machining, safety analysis in construction, and e-learning adaptation in engineering education. His ongoing projects include the integration of intelligent systems into production environments and the modeling of complex industrial operations for optimal performance. Dr. Bello also has a keen interest in occupational health and safety, contributing to safer and more efficient industrial workflows. By aligning academic research with industrial needs, he aims to bridge the gap between theoretical innovation and practical application across engineering sectors.

Award and Honor🏆

Dr. Kazeem Aderemi Bello has received several prestigious awards and honors that recognize his excellence in research, teaching, and professional service. Most notably, he is a Postdoctoral Fellowship Awardee at Durban University of Technology, South Africa, a competitive research position awarded based on academic merit and research potential. In 2019, he was honored with the Best Lecturer Award by the Nigerian Universities Engineering Students Association (NUESA) at Afe Babalola University, reflecting his dedication to education and student mentorship. He has also been listed among the Top 500 Nigerian Authors by scholarly output for 2021–2025, affirming his research productivity and impact. Additionally, he holds certifications from NEBOSH UK in occupational safety and has participated in capacity-building workshops under the Royal Academy of Engineering. His fellowships and professional affiliations highlight his influence in both academic and industrial communities, making him a respected leader and contributor in the engineering domain.

Research Skill🔬

Dr. Bello possesses a wide array of research skills that span experimental design, computational modeling, statistical analysis, and process optimization in manufacturing and industrial systems. He is proficient in conducting factorial and parametric studies, developing machine prototypes, and implementing life cycle assessments for sustainability evaluation. His methodological approach often incorporates tools such as Taguchi analysis, response surface methodology, and finite element modeling, enabling accurate simulation and optimization of engineering systems. Dr. Bello also demonstrates expertise in health and safety audits, quality management, and environmental compliance through certifications in ISO standards and NEBOSH training. He has contributed to interdisciplinary projects involving mechanical design, green energy, machining, and educational innovation. His publications reflect strong skills in technical writing, data interpretation, and collaborative research, often co-authoring with international teams. Overall, Dr. Bello’s research skills are rooted in practical relevance and technical rigor, positioning him as an effective problem-solver in modern engineering challenges.

Conclusion💡

Dr. Kazeem Aderemi Bello is a deserving candidate for the Best Researcher Award due to his outstanding contributions to industrial and mechanical engineering, particularly in the areas of smart manufacturing, lean systems, and sustainable production. His prolific research output in Scopus and IEEE-indexed journals, along with his active involvement in professional bodies and international collaborations, underscores his commitment to advancing both academic knowledge and practical engineering solutions. Beyond research, his leadership in student mentorship, engineering education, and occupational safety demonstrates a strong societal impact. With his continued focus on innovation, global engagement, and academic excellence, Dr. Bello possesses significant potential to emerge as a leading voice in industrial systems engineering and global manufacturing transformation.

Publications Top Noted

  • Title: Resource recycling with the aim of achieving zero-waste manufacturing
    Authors: O. Awogbemi, D.V.V. Kallon, K.A. Bello
    Year: 2022
    Citations: 70

  • Title: Modelling, simulation and experimental validation of the milling operation of titanium alloy (Ti6Al4V)
    Authors: I. Daniyan, F. Fameso, F. Ale, K. Bello, I. Tlhabadira
    Year: 2020
    Citations: 36

  • Title: Photocatalytic degradation of an anionic dye in aqueous solution by visible light responsive zinc oxide-termite hill composite
    Authors: A.S. Yusuff, K.A. Bello, T.M. Azeez
    Year: 2020
    Citations: 19

  • Title: Comparative economic analysis of organic and inorganic vegetable production in Ogun State, Nigeria
    Authors: A.O. Dipeolu, K.A. Bello, S.O. Akinbode
    Year: 2006
    Citations: 19

  • Title: Synthesis of fatty acid methyl ester via transesterification of waste frying oil by a zinc-modified pumice catalyst: Taguchi approach to parametric optimization
    Authors: A.S. Yusuff, K.A. Bello
    Year: 2019
    Citations: 17

  • Title: Resource recycling with the aim of achieving zero-waste manufacturing
    Authors: O. Awogbemi, D.V.V. Kallon, K.A. Bello
    Year: 2022
    Citations: 13 (duplicate listing)

  • Title: Life cycle assessment for the milling operation of titanium alloy (Ti6Al4V)
    Authors: I. Daniyan, K. Mpofu, K. Bello, R. Muvunzi
    Year: 2022
    Citations: 10

  • Title: Biomedical engineering in Nigeria: The genesis, present and the future
    Authors: A.A. Bamigboye, K.A. Bello
    Year: 2021
    Citations: 10

  • Title: Assessment of Alternative Fuels for Sustainable Road Transportation
    Authors: K.A. Bello, O. Awogbemi, M.G. Kanakana-Katumba
    Year: 2023
    Citations: 8

  • Title: Development and simulation of isotropic hardening for AISI 1035 weld stress prediction during design and welding assembly of lower brackets of rail cars
    Authors: I.A. Daniyan, K. Mpofu, F.O. Fameso, A.O. Adeodu, K.A. Bello
    Year: 2019
    Citations: 8

  • Title: A review of additive manufacturing post-treatment techniques for surface quality enhancement
    Authors: K.A. Bello, M.G. Kanakana-Katumba, R.W. Maladzhi
    Year: 2023
    Citations: 6

  • Title: The use of adaptive fuzzy-PID for vibration control in the suspension system of a railcar
    Authors: D. Ilesanmi, M. Khumbulani, A. Adefemi, B. Kazeem
    Year: 2020
    Citations: 6

  • Title: Comparative Economic Analysis of Organic and Inorganic Vegetable Production in Ogun State
    Authors: A.O. Dipeolu, K.A. Bello, A. S.O.
    Year: 2006
    Citations: 6

  • Title: Recent advances in smart manufacturing: A case study of small, medium, and micro enterprises (SMME)
    Authors: K.A. Bello, M.G. Kanakana-Katumba, R.W. Maladzhi, C.O. Omoyi
    Year: 2024
    Citations: 5

  • Title: Investigations into the tensile properties and microstructural features of Coconut fibre (Coir) reinforced Polylactic acid (PLA) biodegradable composites
    Authors: C.I. Madueke, O.J. Agunsoye, R. Umunakwe, B. Bolasodun, F. Kolawole, …
    Year: 2023
    Citations: 5

Mikhail Zuev | Industrial and Manufacturing Applications | Best Researcher Award

Prof . Mikhail Zuev | Industrial and Manufacturing Applications | Best Researcher Award

Chief researcher at Institute of Solid State Chemistry of the Ural Branch of the Russian Academy of Sciences, Russia

The candidate is a distinguished researcher and professor with a doctorate in chemistry, specializing in solid-state and inorganic chemistry. He currently serves as Chief Researcher of the Oxidation Systems Department at the Institute of Solid State Chemistry, Ural Branch of the Russian Academy of Sciences, and as Professor at the Department of Physical and Colloidal Chemistry, Ural Federal University. He has significantly contributed to the synthesis and study of complex oxide systems, including the development of new ternary and quaternary compounds. His innovative research extends to the creation of a new scientific field—solid-state medical chemistry—leading to the development of radiopaque substances for medical use. He has published over 170 scientific papers, authored nine monographs, and holds 33 Russian patents. His pioneering work in nanophosphors and magnetic field effects on photoluminescence demonstrates strong interdisciplinary expertise. Overall, his prolific career showcases a blend of theoretical excellence and applied innovation in material science.

Professional Profile 

Education🎓

The candidate obtained his doctoral degree in Chemistry with a focus on solid-state and physical chemistry. He completed his undergraduate and graduate studies at the Ural Polytechnic Institute named after S.M. Kirov, under the Faculty of Physics and Technology, a highly regarded institution in Russia. His academic training provided him with a deep foundation in the synthesis and characterization of inorganic and oxide materials, equipping him to pursue advanced research in physical and inorganic chemistry. Throughout his education, he developed a strong command of crystallography, spectroscopic techniques, and reaction mechanisms involved in solid-state processes. His formal education was marked by rigorous coursework and research that emphasized the principles of thermodynamics, kinetics, and material structure-property relationships. His transition from student to research scientist was grounded in this academic rigor, paving the way for his influential career as a leading researcher and professor in both scientific and interdisciplinary areas of chemistry.

Professional Experience📝

The candidate has built a robust professional career rooted in academic excellence and high-impact research. He holds the dual role of Chief Researcher at the Oxidation Systems Department of the Institute of Solid State Chemistry (Ural Branch of the Russian Academy of Sciences) and Professor at the Department of Physical and Colloidal Chemistry at Ural Federal University. His professional journey began shortly after completing his doctorate, evolving through years of hands-on experimental work, research leadership, and academic instruction. As a chief researcher, he has led numerous projects related to the synthesis and study of complex oxides, developing novel materials for various scientific and medical applications. As a professor, he has mentored graduate students, supervised theses, and designed advanced courses in solid-state and physical chemistry. His professional experience reflects a well-balanced career between fundamental research, innovation, academic mentorship, and contributions to scientific communities at both national and institutional levels.

Research Interest🔎

The candidate’s research interests lie primarily in the domains of solid-state chemistry, physical and inorganic chemistry, and the synthesis of advanced materials. He has focused extensively on the investigation of multi-component oxide systems involving elements from groups 3 and 5 of the periodic table, successfully modeling phase formation and studying the physicochemical properties of novel compounds. His research also explores the spectral behavior of nanosized phosphors, particularly those produced through pulsed electron beam evaporation—a unique and high-precision method. One of his major contributions includes the development of blue and white nanoamorphous phosphors and identifying how photoluminescence spectra shift in magnetic fields. Furthermore, his interest in applied science led to the creation of a new interdisciplinary field—solid-state medical chemistry—where he developed radiopaque compounds for diagnostic medicine. Overall, his research combines theoretical insights, advanced synthesis methods, and practical applications in material science, nanotechnology, and biomedical chemistry.

Award and Honor🏆

Throughout his career, the candidate has garnered numerous accolades that reflect his excellence in research, innovation, and scientific advancement. He holds 33 Russian patents, a testament to his original contributions to material synthesis and applied chemistry. His work has been widely recognized through the publication of over 170 research articles in reputed scientific journals, along with nine monographs that have contributed significantly to academic literature. While specific named awards or national/international recognitions were not explicitly mentioned, his appointment as Chief Researcher and Professor at prestigious institutions highlights the high regard in which he is held within the academic and research community. His innovative development of radiopaque substances and nanoscale phosphors further suggests his work may have practical and commercial value, potentially recognized through institutional or governmental channels. These accomplishments collectively underscore a career marked by scientific leadership, invention, and dedication to advancing the frontiers of chemistry.

Research Skill🔬

The candidate possesses an extensive array of research skills spanning both experimental and theoretical domains. He has expertise in the synthesis of complex oxide materials, including ternary and quaternary systems, using advanced solid-state and physicochemical methods. His proficiency in spectroscopy, crystallography, and phase modeling enables him to characterize and analyze the structural and optical properties of newly synthesized materials with precision. He is skilled in nanomaterial fabrication, particularly using pulsed electron beam evaporation, and has investigated magnetic field effects on photoluminescence—demonstrating deep technical acumen in nano-optical systems. He also pioneered a new area called solid-state medical chemistry, applying his skills to develop radiopaque materials with medical imaging applications. Furthermore, his ability to translate research into patents and monographs shows excellent documentation and innovation management skills. His multidisciplinary skill set bridges chemistry, materials science, and applied medical research, making him an asset in both academic and industrial research settings.

Conclusion💡

The candidate is highly suitable for the Best Researcher Award due to his exceptional contributions in solid state chemistry, material science innovation, and the creation of a new research discipline. His work bridges fundamental research and applied medical science, demonstrating both intellectual leadership and practical relevance. To further strengthen his candidacy on a global scale, increased international visibility and recent impact metrics could be beneficial. Nonetheless, his academic and inventive excellence makes him a worthy and commendable nominee for the award.

Publications Top Noted✍

  • Title: Influence of annealing on the physicochemical properties of 2L ferrihydrite synthesized by radiation-chemical method from iron (III) nitrate
    Year: 2024
    Citations: 0

  • Title: Threshold phenomena in photoluminescence of upconversion micro- and nanophosphors containing Er³⁺ and Yb³⁺ ions
    Authors: M.G. Zuev, V.G. Il’ves, S.Yu. Sokovnin, A.A. Vasin, E.Yu. Zhuravleva
    Year: 2024
    Citations: 0

  • Title: Effect of permanent magnetic field on photoluminescence of barium and calcium nanofluorides
    Authors: S.Yu. Sokovnin, V.G. Il’ves, M.G. Zuev
    Year: 2024
    Citations: 1

  • Title: Effect of air annealing on structural, textural, thermal, magnetic and photocatalytic properties of Ag-doped mesoporous amorphous crystalline nanopowders Bi₂O₃
    Authors: V.G. Ilves, V.S. Gaviko, A.M. Murzakaev, S.Y. Sokovnin, O.A. Svetlova, M.G. Zuev, M.A. Uimin
    Year: 2024
    Citations: 0

  • Title: Luminescent manifestations of ytterbium ions in the crystal structure of silicate apatite
    Year: 2024
    Citations: 1

  • Title: Synthesis, Structure, and Luminescence Properties of Anion-Substituted Germanates Ca₂La₇.₂Eu₀.₈(GeO₄)₆−ₓ(PO₄)ₓO₂+ₓ⁄₂ with an Apatite-Type Structure
    Year: 2024

  • Title: Radiation-chemical synthesis and characterization of ferrihydrite from iron (III) nitrate
    Authors: [Not fully listed]
    Year: 2024
    Citations: 2

  • Title: Properties of an amorphous crystalline nanopowder Si–SiO₂ produced by pulsed electron beam evaporation
    Authors: V.G. Ilves, M.G. Zuev, A.A. Vasin, P.M. Korusenko, S.Yu. Sokovnin, M.V. Ulitko, A.S. Gerasimov
    Year: 2024
    Citations: 4

Ji Hun Kim | Manufacturing Applications | Best Researcher Award

Mr . Ji Hun Kim | Manufacturing Applications | Best Researcher Award

Ph.D.Candidate at Seoul National University of Science and Technology, South Korea

Ji Hun Kim is a dynamic and highly accomplished Ph.D. candidate at Seoul National University of Science and Technology (SeoulTech), South Korea, specializing in laser-based manufacturing and optical engineering. With a robust academic background and hands-on industry experience, he has made significant contributions to the fields of precision engineering, laser processing, and optical aberration analysis. His research has been widely published in reputable journals, focusing on advanced materials processing, laser-matter interaction, and heat transfer effects in optical systems. Ji Hun has led and participated in multiple government-funded research projects, demonstrating both leadership and collaborative capabilities. Recognized by prestigious engineering societies with several academic excellence awards, he has emerged as a promising young researcher in advanced manufacturing technologies. Ji Hun’s work is grounded in practical relevance and innovation, making him a strong candidate for academic honors and research-based awards in engineering and applied science.

Professional Profile 

Education🎓

Ji Hun Kim has built a strong academic foundation at Seoul National University of Science and Technology, where he completed his entire higher education journey. He earned his Bachelor of Science (B.S.) degree in 2017, majoring in a field aligned with manufacturing or mechanical engineering. He then pursued and completed a Master of Science (M.S.) degree from the same university in 2019, where he began exploring research topics in laser processing and material behavior. Currently, Ji Hun is a Ph.D. candidate at SeoulTech, working on cutting-edge research involving laser-based micromachining, thermal optics, and smart materials. His academic training has included not just theoretical knowledge but also significant laboratory experience and computational modeling. His progression through successive degrees at a single, research-intensive institution has allowed him to develop in-depth expertise, continuity in his research focus, and strong academic mentorship—making his education both comprehensive and highly specialized in advanced manufacturing technologies.

Professional Experience📝

Alongside his academic pursuits, Ji Hun Kim has accumulated valuable professional experience in South Korea’s defense and industrial sectors. He worked as a Junior Research Engineer at MTG Inc. (2020–2022), where he contributed to the design and development of anechoic chambers used in defense applications, showcasing his understanding of electromagnetic and acoustic insulation technologies. Prior to that, from 2019 to 2020, he served as a Research Associate at Sensor Tech Inc., focusing on chemical detection devices—an experience that merged sensor technology with system integration. These roles have enriched his engineering insight, sharpened his problem-solving skills, and enabled him to apply research knowledge in real-world scenarios. In both positions, Ji Hun was involved in multidisciplinary projects, requiring him to collaborate with teams and translate technical concepts into functional systems. His industrial experience complements his academic research, offering a balanced profile of theoretical depth and applied engineering expertise.

Research Interest🔎

Ji Hun Kim’s research interests lie at the intersection of laser material processing, optical aberrations, and thermal-fluid dynamics in precision manufacturing environments. His work focuses on understanding how laser-induced heat affects the structural and optical properties of advanced materials, particularly carbon fiber reinforced plastics and aluminum alloys. He is passionate about developing high-power, ultrashort pulse laser systems for micromachining, with applications in next-generation display technologies and semiconductor equipment. Ji Hun also investigates the effects of buoyant jet dynamics on optical distortions in laser systems, contributing to better laser beam delivery and processing accuracy. He is keenly interested in the optimization of laser surface treatment processes to improve bonding strength between dissimilar materials, particularly for eco-friendly automotive and aerospace applications. His research is deeply applied, often tied to real-world engineering challenges, and strives to advance both scientific understanding and industrial utility in high-precision laser technologies.

Award and Honor🏆

Ji Hun Kim has received numerous awards that highlight his academic excellence and applied research achievements. In 2025, he was honored with the Best Award for Academic Excellence by the Korean Society of Manufacturing Process Engineers (KSMPE), a distinction he also earned in 2023. His consistent excellence was previously recognized in 2019 by the Korean Society of Manufacturing Technology Engineers (KSMTE). In addition to academic recognition, Ji Hun received the Encouragement Award in 2024 for his outstanding contributions to an industry-university collaborative project at Seoul National University of Science and Technology. His technical credibility was further validated with the Engineer General Machinery Certificate issued by the Ministry of Trade, Industry, and Energy in 2019. These honors reflect his strong standing in Korea’s manufacturing research community and underscore his ability to conduct impactful, innovative, and collaborative research that aligns with national industrial and scientific goals.

Research Skill🔬

Ji Hun Kim possesses a well-rounded and technically robust skill set crucial for advanced manufacturing research. He is proficient in COMSOL Multiphysics, which he uses to simulate thermal and fluid behavior in laser-material interaction scenarios, as well as MATLAB for data analysis, modeling, and algorithm development. His expertise in LabVIEW allows for experimental system automation and real-time data acquisition in laser experiments. Ji Hun has hands-on skills in laser micromachining, laser spectroscopy (LIPS), and surface treatment processes. He is adept at analyzing heat-affected zones, bonding strength, and surface morphology in composite and metallic materials. His ability to integrate experimental setups with computational simulations provides comprehensive insight into process optimization. Furthermore, his experience leading and collaborating on national R&D projects has honed his project planning, data interpretation, and cross-functional teamwork capabilities. Altogether, Ji Hun’s research skills position him as a capable and forward-thinking researcher in high-precision, laser-based manufacturing technologies.

Conclusion💡

Ji Hun Kim is an exceptionally promising early-career researcher whose deep specialization in laser processing and optics, combined with an impressive array of high-quality publications, leadership in national research projects, and recognized academic excellence, make him highly suitable for the Best Researcher Award. With some expansion into international collaborations, interdisciplinary domains, and innovation commercialization, he can become a leading figure in advanced manufacturing research.

Publications Top Noted✍

  • Title: High-Performance Solution Processable Red TADF-OLED with External Quantum Efficiency Exceeding 28% Using a Multi-Resonance Emitter Host
    Authors: (Not fully visible in your message; please provide full names if needed)Journal: Advanced Materials
    Year: 2025
    Citations: 2
  • Title: Enhancing Bond Strength Between Carbon Fiber Reinforced Thermoplastic and Aluminum Alloys Through Laser Surface Treatment
    Authors: (Not fully visible in your message; please provide full names if needed)Journal: International Journal of Precision Engineering and Manufacturing – Green Technology
    Year: 2025