Oritonda Muribwathoho | material science, FSW, FSP | Excellence in Research

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Ms.Oritonda Muribwathoho | material science, FSW, FSP | Excellence in Research

Academic Lecturer and researcher, Cape Peninsula University of Technology,South Africa

Muribwathoho Oritonda is a dedicated researcher and academic lecturer at Cape Peninsula University of Technology (CPUT). With a passion for advanced materials and manufacturing techniques, Oritonda earned a Master of Engineering (Summa Cum Laude) from CPUT. Specializing in friction stir welding and composite fabrication, they have made substantial contributions to academia and industry with impactful research and publications. With an h-index of 4 and i10-index of 2, Oritonda’s work has been well-recognized and frequently cited in the field. They are also known for their innovative teaching approaches, positively influencing student learning outcomes. Oritonda is currently pursuing a PhD, focusing on composite fabrication, with particular emphasis on Aluminium Metal Matrix Composites. Despite no industry partnerships or patents, their academic work remains pivotal in advancing the understanding and application of modern manufacturing techniques.

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Education 

Muribwathoho Oritonda holds a Master of Engineering degree (Summa Cum Laude) from Cape Peninsula University of Technology (CPUT), specializing in advanced materials and manufacturing techniques. This achievement highlights not only Oritonda’s exceptional academic aptitude but also their dedication to innovation in the field. Their undergraduate studies provided a foundation in mechanical engineering, leading them to explore advanced manufacturing methods like friction stir welding and composite materials. Oritonda’s academic journey reflects a deep commitment to both learning and research, with an emphasis on producing high-quality, impactful work. Their ongoing doctoral research focuses on developing Aluminium Metal Matrix Composites, contributing significantly to the field of materials engineering. As a dedicated academic, Oritonda’s educational achievements and ongoing research trajectory position them as an emerging expert in the field of advanced manufacturing and materials science.

Experience 

Oritonda Muribwathoho has extensive experience as both a researcher and an academic lecturer at Cape Peninsula University of Technology (CPUT). Having contributed to academia through numerous high-impact publications, Oritonda has developed expertise in advanced materials, particularly in friction stir welding (FSW) and composite fabrication. They have taught and mentored students in mechanical engineering, utilizing innovative teaching approaches that enhance student engagement and learning outcomes. Beyond the classroom, Oritonda’s research has focused on improving materials and manufacturing processes, with an emphasis on the development of Aluminium Metal Matrix Composites. Although they have yet to engage in consultancy or industry collaborations, their research publications in peer-reviewed journals indicate a growing academic influence. Their expertise is recognized globally, with several of their papers being cited in major engineering and materials science journals. Oritonda continues to push the boundaries of manufacturing technologies through ongoing academic research.

Research Focus 

Muribwathoho Oritonda’s research focuses primarily on advanced materials and manufacturing techniques, with a particular emphasis on friction stir welding (FSW) and composite fabrication. Their doctoral research, centered on Aluminium Metal Matrix Composites, aims to develop high-performance materials with applications in aerospace, marine, and automotive industries. By optimizing the FSW process, Oritonda seeks to improve the mechanical properties and microstructure of aluminum alloys, enhancing their suitability for various industrial applications. Their studies involve detailed analysis of material behavior under different processing conditions, such as multi-pass FSW and the incorporation of composite reinforcements like silicon carbide and coal. This research also explores the use of Taguchi methods to optimize processing parameters for fabricating advanced composites. Oritonda’s work contributes to the growing field of sustainable and efficient manufacturing, focusing on the development of materials that meet the stringent demands of modern engineering applications.

Publications

  • Effect of tool geometry on microstructure and mechanical properties of submerged friction stir processed AA6082/AA8011 joints 📘 (2021)
  • The microstructure and mechanical properties of the friction stir processed TIG-welded aerospace dissimilar aluminium alloys 📘 (2021)
  • Impact of multi-pass friction stir processing on microhardness of AA1050/AA6082 dissimilar joints 📘 (2021)
  • Microstructural and mechanical properties of submerged multi-pass friction stir processed AA6082/AA8011 TIG-welded joint 📘 (2021)
  • Metal Matrix Composite Fabricated with 5000 Series Marine Grades of Aluminium Using FSP Technique: State of the Art Review 📘 (2022)
  • Metal Matrix Composite Developed with Marine Grades: A Review 📘 (2023)
  • An Analysis Comparing the Taguchi Method for Optimizing the Process Parameters of AA5083/Silicon Carbide and AA5083/Coal Composites That Are Fabricated via Friction Stir Processing 📘 (2024)
  • The mechanical properties of AA6082/AA1050 dissimilar joints subjected to multi-pass friction stir processing 📘 (2021)
  • The effect of material position of multi-pass friction stir processing on friction stir welded AA1050/AA6082 dissimilar joints 📘 (2021)
  • Review on Multi-Pass Friction Stir Processing of Aluminium Alloys 📘 (2020)
  • Optimization and Regression Analysis of Friction Stir Processing Parameters of AA5083/Coal Composites for Marine Applications 📘 (2024)
  • Optimization of FSP parameters in fabricating AA5083/Coal composites using Taguchi method 📘 (2024)
  • The Influence of Material Position towards the Bending Strength of the 4 Pass AA1050/AA6082 and AA6082/AA1050 FSPed Joints 📘 (2022)
  • Characterization of multi-pass friction stir processed AA1050 and AA6082 dissimilar joint 📘 (2021)

Prashanth Konda Gokuldoss | Additive Manufacturing | Best Innovation Award

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Prof Dr Prashanth Konda Gokuldoss | Additive Manufacturing | Best Innovation Award

Professor, Tallinn University of Technology, Estonia

Prof. Dr.-Ing. Prashanth Konda Gokuldoss is a distinguished expert in materials science and engineering, specializing in additive manufacturing. He is currently a Full Professor and Head of the Additive Manufacturing Laboratory at Tallinn University of Technology in Estonia. With extensive experience in selective laser melting, he has contributed significantly to the fields of materials joining and sustainable manufacturing. Prashanth holds a PhD from the Technical University of Dresden and has held various prestigious positions globally, including guest professorships in Europe and Asia. His research focuses on the mechanical properties and corrosion resistance of advanced materials, particularly aluminum alloys. A dedicated educator, he emphasizes the integration of sustainability in manufacturing processes. Prashanth is also actively involved in editorial work for multiple scientific journals and is committed to advancing knowledge in his field.

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Strengths for the Award

  1. Extensive Academic Background:
    • PhD in Materials Science and Engineering with a focus on Selective Laser Melting, supported by a strong educational foundation from prestigious institutions.
  2. Fellowships and Awards:
    • Recipient of notable fellowships and awards, including the Leibniz Fellowship and the S.K. Tamotia Award, showcasing recognition in the field of materials science.
  3. Leadership in Additive Manufacturing:
    • Current position as Full Professor and Head of the Additive Manufacturing Laboratory at Tallinn University of Technology highlights leadership and innovation in this rapidly evolving field.
  4. Broad Research Experience:
    • Over a decade of research in various domains including metal matrix composites, sustainable manufacturing, and tribology, contributing to a diverse and impactful body of work.
  5. Editorial Contributions:
    • Active involvement as an editor and board member for numerous high-impact journals indicates a commitment to advancing knowledge and quality in materials science.
  6. International Collaboration:
    • Extensive experience as a visiting professor in multiple countries, fostering global research collaboration and knowledge exchange.
  7. Innovative Research Areas:
    • Focus on cutting-edge topics such as circular economy, sustainable materials, and advanced additive manufacturing techniques positions his work at the forefront of current challenges in materials science.

Areas for Improvement

  1. Commercial Application of Research:
    • While there is significant academic output, enhancing the translation of research findings into practical applications and collaborations with industry could further bolster impact.
  2. Interdisciplinary Collaboration:
    • Exploring partnerships beyond materials science, such as with environmental science or economics, could broaden the scope and applicability of his research on sustainability.
  3. Engagement in Public Awareness:
    • Increasing efforts in public engagement and education about the implications of his research on sustainability and manufacturing could raise awareness and support for innovation.
  4. Funding Acquisition:
    • While active in research, targeting larger grants or funding opportunities for innovative projects could expand the reach and resources available for groundbreaking work.

Education

Prashanth Konda Gokuldoss earned his PhD in Materials Science and Engineering from the Technical University of Dresden, Germany, focusing on selective laser melting and the properties of Al-12Si alloy. He completed his Master of Technology (M. Tech.) in Materials Joining from the Indian Institute of Technology Madras, India. Prior to this, he obtained his Bachelor of Engineering (B.E.) in Metallurgical Engineering from the Government College of Engineering, Salem, India. His academic journey was supported by several prestigious fellowships, including the Leibniz Fellowship and the DAAD Fellowship, which allowed him to conduct research and dissertation work in Germany. This robust educational background equips him with a comprehensive understanding of materials science, enabling him to contribute significantly to research and academia.

Experience

Prof. Dr.-Ing. Prashanth Konda Gokuldoss has extensive experience in academia and research. Currently, he serves as a Full Professor and Head of the Additive Manufacturing Laboratory at Tallinn University of Technology, Estonia. His career includes roles as an Adjunct Professor at Vellore Institute of Technology in India and various visiting professorships across Europe and Asia. He has previously held positions as an Associate Professor in Additive Manufacturing at the Norwegian University of Science and Technology and as a Senior Scientist at the Erich Schmid Institute of Materials Science in Austria. His industrial experience includes R&D roles at Sandvik AB in Sweden and the Helmholtz Center Berlin. Prashanth has contributed to numerous research projects and has been involved in high-profile international collaborations, significantly advancing the field of additive manufacturing and materials science.

Awards and Honors

Prof. Dr.-Ing. Prashanth Konda Gokuldoss has received numerous awards recognizing his contributions to materials science and engineering. He was honored as a Fellow of the International Association of Advanced Materials in July 2023 and received the S.K. Tamotia Award for research in aluminum metallurgy from the Indian Institute of Metals in August 2020. His exceptional work in additive manufacturing earned him the Distinguished Scientist award from the International Research Council in January 2020. In 2018, he received the Young Scientist Award at the International Symposium on Metastable, Amorphous and Nanostructure Materials in Rome. Additionally, he was awarded the IAAM Scientist Medal in 2017. His editorial contributions have also been recognized, with certificates for outstanding reviewing from various reputable journals. These accolades reflect his dedication to advancing knowledge and research in his field.

Research Focus

Prof. Dr.-Ing. Prashanth Konda Gokuldoss focuses on advancing materials science through sustainable manufacturing practices and innovative technologies. His primary research areas include additive manufacturing, particularly selective laser melting, powder metallurgy, and metal matrix composites. He investigates the mechanical, tribological, and corrosion properties of materials, emphasizing the development of lightweight alloys and meta-stable materials. Prashanth is dedicated to exploring the circular economy in manufacturing, integrating sustainability into the design and production of materials. His research also encompasses the behavior of nano-crystalline materials, bulk metallic glasses, and the effects of severe plastic deformation. By bridging the gap between theoretical research and practical applications, he aims to enhance the performance and reliability of advanced materials in various industries, contributing significantly to the evolution of modern manufacturing techniques.

Publication Top Notes

  1. Additive manufacturing processes: Selective laser melting, electron beam melting and binder jetting—Selection guidelines 📄
  2. Microstructure and mechanical properties of Al–12Si produced by selective laser melting: Effect of heat treatment 🛠️
  3. Mechanical behavior of selective laser melted 316L stainless steel 🧪
  4. Formation of metastable cellular microstructures in selective laser melted alloys 🏗️
  5. Simultaneous enhancements of strength and toughness in an Al-12Si alloy synthesized using selective laser melting 💪
  6. Is the energy density a reliable parameter for materials synthesis by selective laser melting? 🔋
  7. Defining the tensile properties of Al-12Si parts produced by selective laser melting 🧬
  8. Fabrication of Fe-based bulk metallic glass by selective laser melting: A parameter study 📊
  9. Mechanical properties of Al-based metal matrix composites reinforced with Zr-based glassy particles produced by powder metallurgy 🏆
  10. Mechanical behavior of porous commercially pure Ti and Ti–TiB composite materials manufactured by selective laser melting 🦾

Conclusion

Prof. Dr.-Ing. Prashanth Konda Gokuldoss stands out as a leading figure in the field of materials science and additive manufacturing, demonstrated by his impressive academic credentials, significant contributions to research, and active role in editorial duties. His focus on innovative and sustainable materials positions him well for the Research for Best Innovation Award. By enhancing the commercial applicability of his work and pursuing interdisciplinary collaborations, he can further maximize his impact in the field. His recognition as a Fellow of the International Association of Advanced Materials and various other accolades solidify his reputation as a deserving candidate for this prestigious award.

 

 

Ahmed Deabs | Mechanical Engineering | Best Researcher Award

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Assoc Prof Dr. Ahmed Deabs | Mechanical Engineering | Best Researcher Award

Production Engineering and Mechanical Design, Faculty of Engineering, Shebin Elkom, Menoufia University, Egypt

Ahmed Deabs is a dedicated academic and mechanical engineer with a strong background in production engineering and mechanical design. Currently, he serves as a Lecturer at the Faculty of Engineering, Menofia University, and an Adjunct Lecturer at Delta Technological University, Egypt. Ahmed’s expertise spans across CAD, FEM, machine design, and vibration signal processing, making him a versatile educator and researcher in the field.

Publication Profile

 

Strengths for the Award:

  1. Academic and Teaching Excellence: Ahmed Deabs has a strong academic background with significant teaching experience in various engineering disciplines. His ability to teach over 20 different courses, ranging from “Machine Tool Design” to “Engineering Mechanics,” highlights his versatility and expertise in Production Engineering and Mechanical Design.
  2. Research Contributions: He has several publications in reputable journals and conferences, showcasing his research in areas like CAD, FEM, and parallel robots. His work on topics like “Computer Aided Design of Multi-Stage Gearboxes” and “Optimizing Vertical Pump Reliability” demonstrates his commitment to advancing engineering knowledge.
  3. Industrial and Practical Experience: Ahmed’s involvement in industrial projects, including the design and supervision of mechanical systems like renewable electricity generation systems and industrial production lines, underscores his practical skills and ability to apply research in real-world scenarios.
  4. Technological Proficiency: His proficiency in various engineering and computer tools like SOLIDWORKS, AUTOCAD, MATLAB, and his certifications (e.g., CSWP, CSWA) further bolster his technical capabilities, making him a well-rounded candidate for the award.
  5. Community and Educational Outreach: Ahmed’s initiative in creating and managing free educational resources, including YouTube channels and forums, reflects his dedication to sharing knowledge and supporting the engineering community.

Areas for Improvement:

  1. Research Impact: While Ahmed has a solid number of publications, there could be a focus on increasing the impact and citation of his research. Engaging in more collaborative research projects and targeting high-impact journals could further elevate his academic profile.
  2. International Exposure: Expanding his research collaborations and academic presence internationally could enhance his recognition. Participation in more global conferences and partnerships with international researchers would be beneficial.
  3. Grant Acquisition: Increasing his involvement in competitive research projects and securing grants would demonstrate his capability to lead large-scale research initiatives, further supporting his candidacy for the award.

 

🎓 Education

Ahmed Deabs holds a solid academic foundation in engineering, beginning as a Demonstrator in the Production Engineering and Mechanical Design Department at Menofia University in 2012. He advanced to Assistant Lecturer in 2016 and became a Lecturer in 2022. He also began serving as an Adjunct Lecturer at Delta Technological University in 2023, broadening his teaching experience.

🛠️ Experience

Ahmed has an extensive teaching portfolio, having taught over 20 different courses across various engineering disciplines. His experience includes supervising laboratories, contributing to accreditation projects, and participating in continuous improvement initiatives at Menofia University. His industrial work includes freelance mechanical design and supervising machine fabrication processes for Egyptian and Arabic companies.

🔍 Research Focus

Ahmed’s research interests are diverse, including Computer-Aided Design (CAD), Finite Element Method (FEM), machine design, and parallel robots. He also explores advanced topics like artificial neural networks, deep learning, and vibration signal processing, contributing to the evolution of mechanical engineering.

🏆 Awards and Honors

Ahmed has been recognized for his contributions to engineering education and research, particularly through his involvement in continuous improvement projects and his role in updating laboratory instruments at Menofia University. He also holds several certifications, including SOLIDWORKS and AUTOCAD, reflecting his commitment to professional development.

📄 Publications

“Computer Aided Design of Multi-Stage Gearboxes”International Journal of Advanced Engineering and Global Technology (IJAEGT), Vol. 2, Issue 12, 2014. Cited by 11 articles Link to Publication

“Structural Modifications of 1K62 Engine Lathe Gearbox Casing”International Journal of Advanced Engineering and Global Technology (IJAEGT), Vol. 3, Issue 2, 2015. Cited by 9 articles Link to Publication

“Parallel Robot – Review Article”Journal of Engineering Science and Technology Review, 2021. Cited by 6 articles Link to Publication

“Assessment of Parallel Robot Dynamic Characteristics Using Experimental Modal Analysis and Finite Elements”The First International Conference in Technological University Education and its Role in Industry, Energy and Environmental Conservation (ICCTU 2022), 2022. Cited by 3 articles Link to Publication

Optimizing Vertical Pump Reliability: Investigating Main Shaft Challenges through Integrated Design and Testing StrategiesWater Science, 2024. Cited by 5 articles Link to Publication

 

Conclusion:

Ahmed Deabs is a strong candidate for the Researcher Award, given his extensive academic, research, and industrial contributions. His commitment to education, both in the classroom and through online platforms, alongside his technical expertise, makes him a well-rounded and deserving nominee. Focusing on increasing the impact of his research and expanding his international collaborations could further strengthen his candidacy. Overall, his achievements and contributions make him a suitable contender for the award.

 

 

 

Yeonsik Choi | Materials Science | Best Researcher Award

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Prof Dr Yeonsik Choi | Materials Science | Best Researcher Award

Prof Dr Yeonsik Choi, Yonsei University , South Korea

Yeonsik Choi earned his Ph.D. from the University of Cambridge, focusing on novel functional polymeric nanomaterials for energy harvesting. Prior, he completed an M.S. in Materials Science and Engineering and a B.S. in Metallurgical Engineering at Yonsei University, Seoul. His academic journey includes scholarships such as the Cambridge Trust Scholar and numerous awards recognizing his research contributions.

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Education

Yeonsik Choi earned his Ph.D. from the University of Cambridge, focusing on novel functional polymeric nanomaterials for energy harvesting. Prior, he completed an M.S. in Materials Science and Engineering and a B.S. in Metallurgical Engineering at Yonsei University, Seoul. His academic journey includes scholarships such as the Cambridge Trust Scholar and numerous awards recognizing his research contributions.

Experience 

Dr. Choi serves as an Assistant Professor at Yonsei University and holds affiliations with multiple institutions including Gangnam Severance Hospital and Pohang University of Science and Technology. Previously, he was a NIH K99 Postdoctoral Fellow at Northwestern University, investigating bioresorbable electronics for cardiac therapy and gene therapy methods for atrial fibrillation.

Awards and Honors 

Yeonsik Choi has received prestigious awards including the Presidential Award for promoting health and medical technology in South Korea. He is a recipient of the MRS Postdoctoral Award, Baxter Young Investigator Award, and multiple grants such as the QSIB Opportunity Grant and NIH Pathway to Independence Award. His accolades reflect excellence in research in bioelectronics, healthcare R&D, and innovation in materials science.

Research Focus 

Dr. Choi’s research focuses on bioresorbable polymers and electronic medicine, advancing applications in cardiac electrotherapy and biomedical engineering. His work integrates materials science with biomedical applications, emphasizing innovative approaches to enhance healthcare technologies. Choi’s contributions include developing novel polymeric nanomaterials for energy harvesting and exploring gene therapy methods for treating cardiac conditions like atrial fibrillation.

Publication Top Notes

Fully implantable and bioresorbable cardiac pacemakers without leads or batteries

Controlling and assessing the quality of aerosol jet printed features for large area and flexible electronics

Stretchable, dynamic covalent polymers for soft, long-lived bioresorbable electronic stimulators designed to facilitate neuromuscular regeneration

Photocurable bioresorbable adhesives as functional interfaces between flexible bioelectronic devices and soft biological tissues

A transient, closed-loop network of wireless, body-integrated devices for autonomous electrotherapy

Piezoelectric Nylon‐11 Nanowire Arrays Grown by Template Wetting for Vibrational Energy Harvesting Applications