Prof. Antonio Pereira | Welding Award | Best Researcher Award

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Prof. Antonio Pereira | Welding Award | Best Researcher Award

Prof. Antonio Pereira, University of Aveiro, Portugal

António M. B. Pereira, PhD, is a distinguished Mechanical Engineering Professor based in Aveiro, Portugal. With a rich background in academia and industry, Dr. Pereira has made significant contributions to both fields throughout his career. As a founding shareholder and former Director of the Martifer Group, he played a pivotal role in the planning and production of numerous steel structures and industrial equipment, totaling over 100 million euros. Transitioning to academia in 2000, he has since held various leadership positions at the University of Aveiro (UA), including Director of the Mechanical Testing Laboratory and Director of the Centre for Mechanical Technology and Automation. His research interests focus on sustainable manufacturing solutions and technologies for well-being. Dr. Pereira’s remarkable achievements include over 100 scientific publications, 19 books/book chapters, supervision of numerous MSc and PhD students, and the successful coordination of numerous research projects,

Professional Profiles:

 

SCOPUS

ORCID

 

🎓 Education:

  • PhD in Mechanical Engineering, University of Aveiro, 2006
  • MSc in Mechanical Engineering, University of Aveiro, 2002
  • Graduation in Mechanical Engineering, University of Porto

🔬 Professional Achievements:

  • Full Professor with Habilitation at University of Aveiro (UA)
  • Director of the Mechanical Testing Laboratory (ISO 9001 certified) at UA
  • Director of the Centre for Mechanical Technology and Automation, leading 150 researchers in sustainable manufacturing solutions
  • Founder of the Master’s Degree in Welding Engineering and the Welding School at UA
  • Coordinator for the “Sustainable and Innovative Industries” thematic line at the Intelligent Systems Associate Laboratory

📚 Publications and Research:

  • Authored over 110 scientific publications and 19 books/book chapters
  • Supervised more than 100 MSc students and 10 PhD students
  • Principal Investigator in 51 research projects, with a total budget exceeding 15 million euros

 

Publication Top Notes:

Double-size texturisation and biphasic calcium phosphate coatings obtained via laser technologies for bioactive zirconia dental implant surfaces

Brazing of Copper Pipes for Heat Pump and Refrigeration Applications

Tribological, Micromechanical and Structural Characterizations of PA66 Composites Filled Cu Micro-particles

Laser marking on polyoxymethylene (POM) polymer substrate for a lean manufacturing application

Laser Marking on White-Coloured Polyoxymethylene (POM) Polymer Substrate: Challenges and Perspectives

A numerical study on the influence of clamping on laser welding residual stresses and distortions

Prof. Americo Scotti | Wire Arc Additive Manufacturing Award | Lifetime Achievement Award

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Prof. Americo Scotti | Wire Arc Additive Manufacturing Award | Lifetime Achievement Award

Prof. Americo Scotti, Federal University of Uberlandia (Brazil)/ University West (Sweden),Brazil

Américo Scotti stands as a luminary in the realm of Mechanical Engineering, his illustrious career punctuated by groundbreaking contributions to Arc Welding Processes and Additive Manufacturing. Born on April 4, 1955, in Belo Horizonte, MG, Brazil, Scotti embarked on his academic journey at Universidade Católica de Minas Gerais, earning his Bachelor’s in Mechanical Engineering from 1975 to 1979. He furthered his studies, obtaining a Master’s degree with a specialization in Manufacturing from Universidade Federal de Santa Catarina between 1980 and 1982. His thirst for knowledge led him to Cranfield Institute of Technology in England, where he earned his PhD in Welding Technology from 1987 to 1991.

Throughout his career, Scotti’s research has been at the vanguard of Arc Welding Processes, spanning from fundamental arc physics to advanced process automation and parametric optimization.

 

Professional Profiles:

 

SCOPUS

ORCID

Degrees:

  1. Bachelor in Mechanical Engineering, Universidade Católica de Minas Gerais – IPUC, Belo Horizonte, MG, Brazil (1975-1979)
  2. MSc in Mechanical Engineering, with an emphasis in Manufacturing, Universidade Federal de Santa Catarina, Florianópolis, SC, Brazil (1980-1982)
  3. PhD in Welding Technology, Cranfield Institute of Technology, Cranfield, England (1987-1991)

Research Area/Interests:

  • Arc Welding Processes
  • Process automation and parametric optimization
  • Welding flux-based consumables and shielding gases
  • Heat input measurement and emission analysis in arc welding processes
  • Wire Arc Additive Manufacturing

Employment:

  • Present position: University West (Högskolan Väst), Trollhättan, Sweden (2014 – Present)
  • Former positions in various Brazilian universities and research institutions

Scientific and Technological Societies Positions:

  • International Institute of Welding (IIW)
  • Brazilian Welding Association (ABS)
  • Brazilian National Council for Scientific Development (CNPq)
  • Research supporting the foundation of Minas Gerais state (FAPEMIG)
  • Editor-in-chief of scientific journals

Patents:

Multiple patents related to welding technologies and processes.

Distinctions and Awards:

Several awards recognizing his contributions to welding science and technology.

Project Leadership:

Led numerous research projects in Brazil and Sweden.

Scholarly Qualifications:

  • Authored theses, scholarly articles, and book chapters
  • Supervised numerous PhD and MSc students

Keynote or Invited Presentations:

Delivered keynote speeches and invited presentations at various international conferences and symposiums.

Américo Scotti’s extensive expertise and contributions have significantly advanced the field of mechanical engineering, particularly in welding technology and additive manufacturing.

Publication Top Notes:

Development and implementation of a software for wire arc additive manufacturing preprocessing planning: trajectory planning and machine code generation

Pyrometrical Interlayer Temperature Measurement in WAAM of Thin Wall: Strategies, Limitations and Functionality

Enhanced-pixel strategy for wire arc additive manufacturing trajectory planning: operational efficiency and effectiveness analyses

Proposal and Assessment of a Multiple Cycle-Continuous Cooling Transformation (MC-CCT) Diagram for Wire Arc Additive Manufacturing of Thin Walls

The significance of supplementary shielding in WAAM of aluminium thin walls

Combined effect of the interlayer temperature with travel speed on features of thin wall WAAM under two cooling approaches

Prof. Dr. Alberto T. Estevez | Construction Award | Best Researcher Award

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Prof. Dr. Alberto T. Estevez | Construction Award | Best Researcher Award

Prof. Dr. Alberto T. Estevez, Universitat Internacional de catalunya, Spain

Alberto T. Estévez, nacido el 15 de noviembre de 1960, es un reconocido arquitecto, investigador y profesor catedrático español con una destacada trayectoria en el campo de la arquitectura y el diseño. Actualmente, se desempeña como profesor en la Universidad Internacional de Cataluña (UIC), específicamente en la Escuela Técnica Superior de Arquitectura (ESARQ), donde también dirige el Departamento de Arquitectura en el Instituto iBAG de Arquitectura Biodigital y Genética.

Estévez ostenta una amplia especialización en diversos ámbitos, que incluyen arquitectura, diseño, proyectos arquitectónicos, composición arquitectónica, así como teoría e historia del arte y del diseño. Su trabajo se ha destacado por explorar nuevas fronteras en la intersección entre la arquitectura, la genética y las tecnologías emergentes, como se evidencia en su participación en proyectos de investigación sobre arquitecturas genéticas, arquitectura biodigital y nuevas materialidades.

 

Professional Profiles:

 

SCOPUS

ORCID

🎓 Education:

He obtained his degree in Architecture from the Escuela Técnica Superior de Arquitectura (ETSAB) in 1983, becoming Spain’s youngest architect at the time. Later, he pursued a Doctorate in Architecture and another in Art History, both awarded with the highest honors.

🏢 Professional Journey:

Estévez has held various prestigious positions, including Director of the ESARQ (Escuela Técnica Superior de Arquitectura) at the Universidad Internacional de Cataluña. His architectural journey extends from independent practice to collaborative ventures with academic institutions like the University of Barcelona and international engagements in Austria, Colombia, and beyond.

🔬 Research Focus:

His research spans diverse domains, from architecture, design, and architectural projects to the theory and history of art and architecture. Notably, Estévez is a trailblazer in genetic and biodigital architecture, exploring the intersection of biology, technology, and architectural design.

🌐 International Collaborations:

Estévez’s influence extends globally through his involvement in numerous research projects funded by prestigious entities such as the Ministry of Education and Culture and the Ministry of Science and Innovation. His collaborations with institutions and organizations worldwide underscore his commitment to advancing architectural innovation on a global scale.

🏆 Accolades and Contributions:

With six recognized research periods by governmental agencies and a prolific publication record, Estévez’s contributions to the field of architecture are profound and enduring. He has also played pivotal roles as an evaluator and consultant for various academic and governmental bodies, shaping architectural education and practice.

🚀 Current Endeavors:

At present, Estévez leads the iBAG Institute for Biodigital Architecture & Genetics at the Universidad Internacional de Cataluña. His current research projects, including the “BioLumCity Project,” exemplify his dedication to exploring new frontiers in architecture and technology.

Alberto T. Estévez stands as a visionary architect whose work transcends conventional boundaries, inspiring the next generation of architects to reimagine the built environment in harmony with nature and technology.

Publication Top Notes:

Assist Prof. Dr. Yomna Abdallah | Bio Fabrication Award | Best Researcher Award

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Assist Prof. Dr. Yomna Abdallah | Bio Fabrication Award | Best Researcher Award

Assist Prof. Dr. Yomna Abdallah, Universitat Internacional de catalunya, Spain

Dr. Yomna K. Abdallah is a pioneering figure at the intersection of architecture, biotechnology, and digital design. Currently serving as a Lecturer at the Universidad Internacional de Cataluña’s ESARQ (Escuela Técnica Superior de Arquitectura), she is deeply engaged in innovative research at the Department of Architecture and the iBAG Institute for Biodigital Architecture & Genetics.

Born on November 1, 1990, Dr. Abdallah embarked on her academic journey by earning a Bachelor’s degree in Interior Design and Architecture from Helwan University’s Faculty of Applied Arts in 2012. Building upon her foundation, she pursued a Master’s degree in Applied Arts, followed by a Master of Science and Engineering Technology, both achieved with distinction at Helwan University.

 

Professional Profiles:

 

SCOPUS

ORCID

🔬 Scientific Endeavors:

Yomna’s work seamlessly merges biological materials and advanced digital design tools, encompassing biotechnology, bioinformatics, and biomaterials. She specializes in biofabrication, tissue engineering, and biocatalysis, employing artificial intelligence and robotic manufacturing for groundbreaking architectural solutions.

🎓 Educational Background:

Yomna’s academic journey is marked by excellence, culminating in a Doctor of Architecture from the Universitat Internacional de Catalunya. Her relentless pursuit of knowledge led her to attain a Doctorate in Health Sciences, focusing on bioengineering, further solidifying her expertise in the field.

🏆 Professional Achievements:

Recognized for her exceptional contributions, Yomna has received accolades such as the Best Master’s Thesis award and prestigious scholarships. She has actively participated in research projects, including the development of self-sufficient bioelectricity systems and bioprinting architectural materials with bone cells.

🌱 Innovative Research Projects:

As the principal investigator, Yomna spearheaded initiatives aimed at addressing critical energy challenges and exploring novel architectural materials. Her research endeavors extend beyond academia, collaborating with entities like Felix Bioprinting to pioneer biomineralized construction materials through 3D bioprinting.

🌍 Global Impact:

With a keen focus on sustainability and regenerative design, Yomna’s work transcends borders, offering innovative solutions with global relevance. Her commitment to advancing the frontier of architecture and bioengineering is driving transformative change in the built environment.

Driven by passion and a relentless pursuit of innovation, Dr. Yomna K. Abdallah stands at the forefront of architectural evolution, bridging the gap between biology and design to shape a more sustainable future.

Publication Top Notes:

Prof. Dr. El-Sayed M Sherif | Materials Science Award | Best Researcher Award

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Prof. Dr. El-Sayed M Sherif | Materials Science Award | Best Researcher Award

Prof. Dr. El-Sayed M Sherif ,King Saud University, Saudi Arabia

 

Dr. Elsayed Mohamed Ahmed Sherif is a distinguished professor and corrosion expert, renowned for his extensive research in materials science and engineering, particularly in the field of corrosion and corrosion protection of metals and alloys. His professional journey spans over three decades, marked by significant contributions to academia and industry.

Dr. Sherif began his academic pursuits with a strong foundation in chemistry, earning his Bachelor of Science degree with distinction from Zagazig University, Benha Branch, Egypt, in 1991. He continued his education with a Master of Science degree in Physical and Inorganic Chemistry from Zagazig University, where his research focused on the galvanic corrosion of Al-Cu couples. Subsequently, he pursued a Ph.D. degree at Al-Azhar University, Egypt, where his doctoral thesis delved into the electrochemical studies on the pitting corrosion of copper in aqueous solutions, demonstrating his early commitment to the study of corrosion phenomena.

 

Professional Profiles:

 

SCOPUS

ORCID

🔬 Research Fields:

Materials Science, Materials Engineering, Nanotechnology, Physical Chemistry, Corrosion, and beyond.

📚 Education:

  • Ph.D. in Physical and Inorganic Chemistry, Al-Azhar University, Egypt, 2002.
  • M.Sc. in Physical and Inorganic Chemistry, Zagazig University, Egypt, 1997.
  • B.Sc. in Chemistry, Zagazig University, Benha Branch, Egypt, 1991.

💼 Employment:

  • Professor, Center of Excellence for Research in Engineering Materials, King Saud University, Saudi Arabia (2014 – Present).
  • Professor (on leave), Electrochemistry and Corrosion Laboratory, National Research Centre, Egypt (2014 – Present).
  • Associate Professor, Center of Excellence for Research in Engineering Materials, King Saud University, Saudi Arabia (2008 – 2014).
  • Associate Professor, Electrochemistry and Corrosion Laboratory, National Research Centre, Egypt (2008 – 2014).
  • Assistant Professor, Electrochemistry and Corrosion Laboratory, National Research Centre, Egypt (2002 – 2008).
  • Researcher Assistant, Electrochemistry and Corrosion Laboratory, National Research Centre, Egypt (1997 – 2002).
  • Assistant Researcher, Electrochemistry and Corrosion Laboratory, National Research Centre, Egypt (1996 – 1997).
  • Research Student, Electrochemistry & Corrosion Laboratory, National Research Centre (NRC), Egypt (1994 – 1996).
  • Research Student, Department of Chemistry, Faculty of Science, Benha University, Egypt (1992 – 1994).

🌐 Languages:

  • English (Fluent)
  • Arabic (Mother Tongue)

📜 List of Patents:

  • “Preparation Method of Metal Matrix Reinforced by Nano Ceramics” (Pending filing by the American Patent Office via the Intellectual Property and Technology Licensing Program at King Saud University, 2016).

📚 List of Books:

  • Chapter 20: “The Role of Corrosion Inhibitors in Protecting Metallic Structures against Corrosion in Harsh Environments” in the book titled “The Role of Colloidal Systems in Environmental Protection” (Elsevier, 2014), Pages 509-526.
Publication Top Notes:

Slow invariant manifold assessment for efficient production of H2SO4 by SO2: a computational approach

The problem of reduce description in chemical kinetics

Numerical analysis of hydromagnetic micropolar squeezing flow lubricated between porous elliptical plates

Study of SrLa0.04Fe1.96O4/polyaniline composites for improving microwave absorption

One-pot synthesis of epoxy resin composite: thermal, rheological and Monte Carlo investigations

A comparative study on the corrosion of pure titanium and titanium-12%zirconium alloy after different exposure periods of time in sodium chloride solution

Mr. Outhmane Siar | Resistance Spot Welding Award | Best Researcher Award

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Mr. Outhmane Siar | Resistance Spot Welding Award | Best Researcher Award

Mr. Outhmane Siar, ArcelorMittal R&D, France

Outhmane Siar is a meticulous and result-oriented mechanical engineer with a PhD in Materials Science. With over 6 years of experience in Research & Development within the automotive industry, he has established himself as an autonomous and curious professional, always eager to take on new challenges. Outhmane thrives in team environments and possesses excellent interpersonal skills.

His educational background includes a PhD thesis from the Institut National des Sciences Appliquées (INSA) de Lyon, completed between 2018 and 2021. This involved a partnership between the MATEIS laboratory of INSA Lyon and ArcelorMittal Automotive Research center, focusing on the Welding & Joining team. Prior to his PhD, he earned an engineering degree in Mechanics from INSA Hauts de France, specializing in Analysis and Safety of Structures.

 

Professional Profiles:

 

Education and Training:

  • PhD in Materials Science, Institut National des Sciences Appliquées (INSA) de Lyon, 2018 – 2021
  • Engineering Degree in Mechanics, specializing in Analysis and Safety of Structures, INSA Hauts de France, 2014 – 2018
  • Advanced Courses in Mathematics, Physics, and Computer Science, CPGE Moulay Idriss (Morocco), 2012 – 2014

Work Experiences:

  • Research Welding Engineer, ArcelorMittal Automotive – Maizières, December 2021 – Present
  • Research Welding Engineer, ArcelorMittal Automotive – Maizières, December 2018 – November 2021
  • Part-time Teacher, INSA Lyon, 2019 – September 2021
  • R&D Engineer Intern, ArcelorMittal – Maizières, Forming Team, March 2018 – August 2018
  • Numerical Simulation Engineer Intern, Continental – Toulouse, September 2016 – January 2017

Dr. Siar’s expertise lies in the comprehensive understanding of welding processes, particularly in assessing the weldability of Advanced High Strength Steels (AHSS) for automotive applications. His research focuses on mitigating issues such as Liquid Metal Embrittlement (LME) and Hydrogen Embrittlement through a combination of experimental comprehension and numerical simulations.

Key Skills and Responsibilities:

  • R&D project management for assessing in-use properties of spot welds
  • Technical support for ArcelorMittal plants and automotive customers
  • Management of research projects, technicians, and trainees
  • Active involvement in the digital transformation of the laboratory using agile methods for continuous improvement

With a strong foundation in finite element modeling and experimental validation, Dr. Siar contributes significantly to the advancement of welding technologies in the automotive sector. His dedication, autonomy, and problem-solving skills make him an invaluable member of any research and development team.

Publication Top Notes:

Mr. Chris Killmore | Weldment Softening Award | Best Researcher Award

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Mr. Chris Killmore | Weldment Softening Award | Best Researcher Award

Mr. Chris Killmore, BlueScope Steel, Australia

Christopher Ronald Killmore is a seasoned metallurgist hailing from Mount Ousley, NSW, Australia. Born on March 28, 1955, Killmore boasts an impressive educational background, having earned his Bachelor of Metallurgy from the University of Wollongong in 1978. His academic prowess was evident from his early years, having achieved the second highest mark for the final year students during his Higher School Certificate at Kiama High in NSW, Australia.

Killmore’s professional journey spans over four decades, marked by numerous significant contributions to the field of metallurgy, particularly in the realm of steel research and product development. He has held various managerial and leadership positions, showcasing his expertise in product design, project management, technical sales, and marketing within the steel industry.

 

Professional Profiles:

 

🎓 Educational Odyssey:

Killmore embarked on his academic voyage by securing a Higher School Certificate from Kiama High, NSW, Australia, in 1972, earning accolades as the second-highest scorer among final year students. This feat propelled him to clinch a Federal Government Tertiary Scholarship for pursuing higher education. He graduated with flying colors, attaining a Bachelor of Metallurgy from the esteemed University of Wollongong in 1978, where he garnered the prestigious John Lysaght Australia academic prize for topping his cohort.

💼 Professional Prowess:

Armed with a profound understanding of metallurgy, Killmore’s professional odyssey commenced as a Development Officer for Cold Rolled Strip Products in 1978, gradually ascending the echelons of the steel industry. He honed his skills across diverse roles, from Tinplate Process Control Metallurgist to Chief Development Officer for Product Development. Noteworthy milestones include his tenure as Product Design Manager and subsequent elevation to Manager of Hot Rolled Products Research, where his visionary leadership spearheaded the development of cutting-edge steel grades and processes.

🏆 Key Achievements:

Killmore’s tenure is studded with groundbreaking achievements, including the commercialization of weathering steel for bridge construction, qualification of steel plate for submarine fabrication for the Australian Navy, and the development of enhanced shipbuilding plate steel for next-gen frigates, earning him accolades such as the Defence Eureka Science award. His pioneering work in developing TMCP 500MPa high-strength structural plate grades underscores his trailblazing spirit and commitment to innovation.

🔬 Technical Wizardry:

Killmore’s technical acumen is unparalleled, with expertise spanning steel research, alloy design, thermomechanical processing, and quality control. His prolific research contributions, coupled with numerous patents and publications, solidify his standing as a luminary in the field of metallurgy.

🌐 Global Footprint:

Killmore’s impact transcends geographical boundaries, with his presence felt in international conferences, standards committees, and industrial collaborations. As a board member of the BlueScope Steel Metallurgy Centre at the University of Wollongong, he championed collaborative research initiatives, fostering synergies between academia and industry.

🎤 Orator Extraordinaire:

A seasoned speaker, Killmore has graced numerous platforms with his erudition, delivering technical papers at international conferences, mentoring aspiring metallurgists, and championing knowledge dissemination through lectures and presentations.

Christopher Ronald Killmore epitomizes the pinnacle of excellence in metallurgical innovation, his illustrious career punctuated by groundbreaking achievements, visionary leadership, and unwavering dedication to advancing the frontiers of steel science.

Publication Top Notes:

Application of advanced experimental techniques to elucidate the strengthening mechanisms operating in microalloyed ferritic steels with interphase precipitation

Comparative effect of Mo and Cr on microstructure and mechanical properties in NbV-microalloyed bainitic steels

Martensitic wear resistant steels alloyed with titanium

The effect of cooling rate and coiling temperature on the niobium retention in Ultra-Thin Cast Strip steel

A transmission Kikuchi diffraction study of cementite in a quenched and tempered steel

Effect of Mo on dynamic recrystallization and microstructure development of microalloyed steels

 

Prof. Milton Sergio Fernandes de Lima | Lasers Award | Lifetime achievement Award

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Prof. Milton Sergio Fernandes de Lima | Lasers Award | Lifetime achievement Award

Prof. Milton Sergio Fernandes de Lima, Instituto de Estudos Avancados, Brazil

Milton Sergio Fernandes de Lima is a distinguished Brazilian researcher and academic with a prolific career in the fields of materials engineering, optics, lasers, and photonics. Born in São Jose dos Campos, Brazil, Milton has established himself as a leading figure in both academia and industry, contributing significantly to research, innovation, and education in his areas of expertise.

Milton’s journey into the realm of science began with his academic pursuits. He earned his Bachelor of Science degree in Physics, followed by a Master of Science with honors in Materials Science. During his undergraduate and graduate studies, Milton engaged in various projects encompassing physics and engineering, laying the foundation for his future endeavors.

 

Professional Profiles:

 

🔍 Background & Education

Milton’s journey began with a Bachelor’s degree in Physics, followed by a Master of Science with honors in Materials Science. He further honed his expertise through a Ph.D. in Materials Engineering, focusing on laser material processing, from the esteemed University of São Paulo.

🌐 International Experience

His academic prowess led him to serve as an assistant researcher at the Swiss Federal Institute of Technology, where he collaborated on groundbreaking projects in laser materials processing. Milton’s international footprint extends to partnerships with renowned institutions and scholars worldwide, fostering a rich tapestry of collaboration and knowledge exchange.

🏆 Accomplishments & Awards

Milton’s contributions have been recognized through numerous accolades, including prestigious awards such as the Green Hydrogen Competition EnergInno and the Bernard Gross Award. His groundbreaking research has earned him respect and admiration from peers and institutions globally.

💼 Professional Endeavors

At the Institute for Advanced Studies (IEAv), Milton spearheads research initiatives in optics and lasers, with a focus on applications in additive manufacturing, laser cutting, and welding. His leadership extends to academia, where he serves as an associate professor, shaping the minds of future scientists and engineers at ITA and UFOP.

🌱 Advocacy & Engagement

Beyond his academic and professional pursuits, Milton is deeply committed to environmental advocacy and social justice. He actively engages in initiatives aimed at combating deforestation and scientific denialism, reflecting his unwavering dedication to the betterment of society.

📚 Publication & Innovation

Milton’s prolific career is underscored by a robust publication record in high-impact-factor journals. Moreover, his innovative spirit is exemplified through the creation of two successful spin-off companies and the filing of eight patents, each a testament to his ingenuity and entrepreneurial acumen.

Milton Sérgio Fernandes de Lima stands as a beacon of excellence in the scientific community, blending academic rigor with a steadfast commitment to advancing knowledge and fostering positive change on a global scale.

Mr. Jabair Ali Mohammed | Welding Effects Award | Best Researcher Award

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Mr. Jabair Ali Mohammed | Welding Effects Award | Best Researcher Award

Mr. Jabair Ali Mohammed, King Saud University, Saudi Arabia

Jabair Ali Mohammed is a Mechanical Engineer with extensive experience in both research and teaching. Currently based in Riyadh, Saudi Arabia, he has made significant contributions to the field of materials engineering, particularly in the area of grain size refinement and the production of high-strength aluminum alloys.

With over a decade of professional experience, Jabair has served as a Lab Engineer and Research Associate at the Centre of Excellence for Research in Engineering Materials (CEREM) at the Advance Manufacturing Institute, College of Engineering, King Saud University. He has also worked as a Teaching Assistant and Lab Instructor in the Department of Mechanical Engineering at the same institution.

 

Professional Profiles:

 

🎓 Education and Professional Journey:

  • Bachelor’s Degree: Mechanical Engineering from Jawaharlal Nehru Technological University, Hyderabad, India.
  • Professional Experience: Since March 2012, Jabair has been an instrumental figure as a Lab Engineer and Research Associate at the Centre of Excellence for Research in Engineering Materials (CEREM), Advance Manufacturing Institute, College of Engineering, King Saud University, Riyadh, Saudi Arabia. Prior to this, he held positions as a Teaching Assistant and Lab Instructor at the same institution and served as Technical In charge at Alu-shine Aluminum composite panels Company Limited in India.

🔬 Research Interests and Achievements:

  • With a focus on grain refinement through severe deformation techniques, Jabair has made significant strides in producing ultra-fine grain (UFG) materials and Nano-crystalline materials, particularly in high-strength aluminum alloys.
  • His efforts have resulted in numerous publications in esteemed journals, showcasing his expertise in experimental methodologies and ISO requirements for research laboratories.

👨‍🏫 Teaching Experience:

  • As an Adjunct Supervisor, Jabair has mentored undergraduate students, guiding them through dissertation projects and laboratory experiments.
  • He has also contributed as a Teaching Assistant for various courses including Engineering Drawing, Engineering Design, Mechanics of Machinery, Manufacturing Processes, and Materials Engineering.

🏆 Academic Recognition and Grants:

  • Jabair’s contributions have been recognized with awards such as the Best Student Award during his B.Tech. and the Advanced Communicator Bronze from Toastmaster International.
  • He has secured several research grants, notably for projects focusing on aluminum alloys, titanium foam, and nanocoatings, demonstrating his proficiency in securing funding for cutting-edge research.

🛠️ Professional Skills:

  • Jabair possesses a diverse skill set encompassing mechanical testing, material characterizations, and technical expertise in operating a wide array of instruments and machinery.
  • His proficiency extends to software tools like Microsoft Office and Solidworks, enabling him to translate his ideas into tangible engineering solutions.

Jabair Ali Mohammed stands as a beacon of innovation and excellence in the field of mechanical engineering, contributing significantly to both academia and industry through his relentless pursuit of knowledge and pioneering research endeavors.

 

Publication Top Notes:

Electrochemical corrosion behavior of laser welded 2205 duplex stainless-steel in artificial seawater environment under different acidity and alkalinity conditions

Stress corrosion cracking behavior of fine-grained Al5083 alloys processed by equal-channel angular pressing (ECAP)

Tribo-behavior and corrosion properties of welded 304l and 316l stainless steel

Development and Characterization of PA 450 and PA 3282 Epoxy Coatings as Anti-Corrosion Materials for Offshore Applications

Ecofriendly Biochar as a Low-Cost Solid Lubricating Filler for LDPE Sustainable Biocomposites: Thermal, Mechanical, and Tribological Characterization

Corrosion Resistance Performance of Epoxy Coatings Incorporated with Unmilled Micro Aluminium Pigments

 

Dr. Murali Mohan Cheepu| TIG Welding award | Innovations in Welding Research Award

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Dr. Murali Mohan Cheepu| TIG Welding award | Innovations in Welding Research Award

Dr. Murali Mohan Cheepu, Starwelds Inc, South Korea

Dr. Muralimohan Cheepu is a distinguished researcher and educator in the field of Mechanical Engineering, specializing in Welding Engineering and Additive Manufacturing. With a diverse educational background spanning across continents, Dr. Cheepu obtained his Ph.D. in Mechanical Engineering from Kyungsung University, South Korea, in 2019. His dissertation, titled “A Study on the Dissimilar Welding of High Temperature Materials: Microstructure, Properties and Welding Process Effects,” reflects his expertise in the intricacies of welding techniques.

Prior to his doctoral studies, Dr. Cheepu earned a Master of Technology degree in Welding Engineering from the National Institute of Technology Tiruchirappalli, India, in 2011. He commenced his academic journey with a Bachelor of Engineering in Mechanical Engineering from GITAM College of Engineering, Andhra University, India, in 2009.

 

Professional Profiles:

 

🎓 Education:

  • Ph.D. in Mechanical Engineering from Kyungsung University, Busan, South Korea (2019).
  • Master of Technology in Welding Engineering from the National Institute of Technology Tiruchirappalli, India (2011).
  • Bachelor of Engineering in Mechanical Engineering from GITAM College of Engineering, Andhra University, India (2009).

📚 Publications:

  • Dr. Cheepu has authored numerous peer-reviewed articles, covering topics ranging from welding process optimization to the characterization of advanced materials.
  • His research has been published in reputable journals such as the Welding Journal, Transactions of the Indian Institute of Metals, and Advances in Materials Science and Engineering, among others.

📝 Patents:

  • Dr. Cheepu holds patents for innovative welding techniques, including “Butt welding of high-tensile nickel alloy using friction welding” and “Apparatus and method for cleaning oxide layer.”

📖 Books:

  • He has contributed to the academic community as an editor and co-author of books such as “Advances in Additive Manufacturing Processes” and “Welding Practices for Industry 5.0.”

🔬 Research Focus:

  • His research interests encompass various aspects of welding engineering, including dissimilar welding, additive manufacturing, and microstructure-property correlations.
  • Dr. Cheepu’s work delves into understanding the intricacies of welding processes and developing novel approaches to enhance weld quality and performance.

With a passion for exploring the frontiers of mechanical engineering, Dr. Cheepu continues to inspire and educate future generations of engineers through his research, publications, and academic endeavors.

 

Publication Top Notes:

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