Bence Kocsis – Additive manufacturing – Excellence in Research

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Bence Kocsis - Additive manufacturing - Excellence in Research

Széchenyi István University - Hungary

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Bence Kocsis embarked on his academic journey at Budapest University of Technology and Economics, where he pursued a Bachelor's degree in Mechanical Engineering with a specialization in Manufacturing Processes. Subsequently, he obtained a Master's degree in Material Engineering with a specialization in Product Design from the same institution. He continued his academic pursuit by enrolling in the Doctoral School of Multidisciplinary Engineering Sciences at Széchenyi István University, where he furthered his expertise in the field.

PROFESSIONAL ENDEAVORS:

Bence's professional journey commenced with internships and roles at esteemed organizations such as Knorr-Bremse V.J.R.H. Kft., Teqball Ltd., and Continental Automotive Hungary Kft., where he gained practical experience in design, engineering, and production line management. His commitment to academia led him to serve as an assistant lecturer at Széchenyi István University and as a research assistant at the Wigner Research Center for Physics.

CONTRIBUTIONS AND RESEARCH FOCUS:

Throughout his career, Bence has demonstrated a keen interest in additive manufacturing, evident from his educational background and professional endeavors. His research contributions at the Wigner Research Center for Physics and his doctoral studies at Széchenyi István University likely involved aspects of additive manufacturing, innovative materials, and product design.

IMPACT AND INFLUENCE:

Bence's contributions to the field of additive manufacturing and materials science are expected to have a significant impact on the advancement of manufacturing technologies and materials engineering. His practical experience in various industries, combined with his academic pursuits, positions him as a promising contributor to the field.

LEGACY AND FUTURE CONTRIBUTIONS:

Bence Kocsis's legacy lies in his dedication to advancing the understanding and application of additive manufacturing technologies. His future contributions are anticipated to further propel the field forward, driving innovation in materials science, product design, and manufacturing processes.

ADDITIVE MANUFACTURING FOCUS:

Bence's academic and professional trajectory underscores his focus on additive manufacturing, evident from his educational background, research interests, and practical experience in the field. His expertise in additive manufacturing technologies positions him as a valuable asset in driving innovation and advancements in this rapidly evolving domain.

NOTABLE PUBLICATION

Effect of locally increased melted layer thickness on the mechanical properties of laser sintered tool steel parts.  2018 (2)

Conformal cooling with heat-conducting inserts by direct metal laser sintering.  2018 (6)

Soft magnetic composites prepared by 3D laser printing.  2020 (3)

Metallographic and magnetic analysis of direct laser sintered soft magnetic composites.  2020 (10)

Hayder I. Mohammed – Materials Science and Engineering – Excellence In Researcher

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Hayder I. Mohammed - Materials Science and Engineering - Excellence In Researcher

University of Garmian - Iraq

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Hayder I. Mohammed embarked on his academic journey with a keen interest in fluid mechanics, heat transfer, thermodynamics, and related fields. His educational foundation was laid with a Bachelor of Science in Nuclear Engineering from the University of Baghdad, where he exhibited exceptional dedication, culminating in the remarkable achievement of ranking 1st among all Bachelor students in the Department of Nuclear Engineering for the year 2003.

PROFESSIONAL ENDEAVORS:

Following his undergraduate success, Mohammed pursued a Master of Science in Mechanical Engineering with a focus on the power section at the University of Baghdad. This laid the groundwork for his future contributions to numerical investigations in natural convection, radiation, and magnetohydrodynamics.

His academic pursuits reached new heights with a Doctor of Philosophy in Mechanical Engineering from the University of Nottingham. Under the guidance of distinguished professors Donald Giddings and Gavin S Walker, Mohammed delved into groundbreaking research aimed at improving heat transfer in vapor absorption refrigeration systems (VARS) using a novel fluid, the nano-salt-fluid.

CONTRIBUTIONS AND RESEARCH FOCUS:

Mohammed's research interests span a broad spectrum, including fluid mechanics, heat transfer, phase change, and computational fluid dynamics. His doctoral thesis on enhancing heat transfer in VARS showcases his commitment to innovative solutions in refrigeration systems. Additionally, his involvement in the development of a novel fluid underscores his dedication to advancing thermodynamic processes.

IMPACT AND INFLUENCE:

Hayder I. Mohammed's impact is evident not only in academic circles but also in the broader scientific community. His role as a peer reviewer for international workshops and the selection of one of his papers as the best corporate paper in Iraq highlight the recognition of his expertise.

ACADEMIC CITATIONS:

Mohammed's contributions have gained visibility in academic indexes, such as the World Scientist and University Rankings 2021, showcasing the impact of his work on a global scale.

LEGACY AND FUTURE CONTRIBUTIONS:

As a prominent researcher, Mohammed's legacy lies in his pioneering work in heat transfer, refrigeration systems, and related fields. His future contributions are anticipated to further enrich these domains, promising continued advancements and innovations.

NOTABLE PUBLICATION

Deep clustering of Lagrangian trajectory for multi-task learning to energy saving in intelligent buildings using cooperative multi-agent.  2023