Sida Liu | High-Performance Alloys | Best Researcher Award

Prof. Sida Liu, Xi’an Jiaotong University, China.

Professor Sida Liu is a distinguished academic at Xi’an Jiaotong University, specializing in aerospace engineering and the development of high-performance alloys. His research focuses on lightweight materials for extreme conditions, utilizing grain refinement technology and data-driven methods. As a key member of several renowned research teams, Liu has developed the Al-TCB grain refiner series, improving aluminum alloy performance for global companies like CHALCO and Huawei. With over 50 SCI-indexed papers and multiple national patents, he has earned recognition as a Nationally Recognized Young Talent and an influential contributor to the materials science field.

Education and Experience

2016-2020: Doctor of Engineering, RWTH Aachen University, Germany

2013-2016: Master of Engineering in Materials, Ocean University of China

2009-2013: Bachelor of Science in Physics, Shandong University, China

2023-Present: Professor, Xi’an Jiaotong University, China 👨‍🏫

2022-2023: Researcher, Shandong University, China 🧑‍🔬

2020-2022: Postdoctoral Fellow, City University of Hong Kong

2020: Visiting Scholar, Forschungszentrum Jülich GmbH, Germany

2019: Visiting Scholar, Chinese Academy of Sciences, Ningbo

2016-2020: Graduate Research Assistant, RWTH Aachen University, Germany

2010-2016: Graduate Research Assistant, Shandong University, China 🧑‍🔬

Suitability For The Award

Professor Sida Liu, a distinguished researcher in the field of aerospace and materials engineering, is an exceptional candidate for the Best Researcher Award. Currently serving as a professor and doctoral supervisor at Xi’an Jiaotong University, his groundbreaking contributions in developing high-performance lightweight alloys and advancing grain refinement technologies have had a profound impact on material science, particularly for extreme conditions in aerospace and other high-demand industries.

Professional Development

Professor Sida Liu has advanced his expertise through extensive international collaborations and postdoctoral research in Germany, Hong Kong, and China. With a strong foundation in materials science, he has developed innovative approaches to grain refinement technology and the application of high-performance alloys. Liu has enhanced his capabilities through both theoretical and experimental work, contributing to projects sponsored by national organizations such as the National Natural Science Foundation of China (NSFC). His work continues to push the boundaries of lightweight materials and structural integrity under extreme conditions, positioning him as a leader in his field.

Research Focus

Professor Sida Liu’s research spans high-performance alloys for extreme conditions, specifically focusing on lightweight materials and grain refinement technology. His work integrates data-driven approaches with materials science to develop alloys suitable for demanding environments, particularly in aerospace applications. Liu’s research also includes the application of these advanced materials in industries like manufacturing and technology. His innovative contributions, particularly the Al-TCB grain refiner series, have had a significant impact on alloy performance and material design for global industries. His expertise bridges the gap between material science, engineering, and data analytics.

Publications Top Notes

A facile high-efficiency preparation strategy for Al-containing multi-component boride microcrystals with superior comprehensive performance (2025, Journal of Materials Science and Technology,
Strain effect of phonon and electron in 1D crystals HfS3 and ZrS3 2024,
Review of External Field Effects on Electrocatalysis: Machine Learning Guided Design (2024, Advanced Functional Materials, 1 citation)
3D/4D additive–subtractive manufacturing of heterogeneous ceramics (2024, Journal of Materials Science and Technology, 3 citations)
Elemental partitioning-mediated crystalline-to-amorphous phase transformation under quasi-static deformation (2024, Nature Communications, 4 citations)
Insights into the dual effects of Ti on the grain refinement and mechanical properties of hypoeutectic Al–Si alloys (2024, Journal of Materials Science and Technology, 17 citations)
Additively manufactured fine-grained ultrahigh-strength bulk aluminum alloys with nanostructured strengthening defects (2024, Materials Today, 8 citations)

Rafael Lucas | Metallic Alloys | Best Researcher Award

Mr. Rafael Lucas, São Paulo State University (UNESP), Brazil.

Rafael Resende Lucas is a PhD student in engineering at São Paulo State University (UNESP), specializing in materials science. His current research focuses on optimizing surface treatments via Plasma Electrolytic Oxidation (PEO) on metallic alloys for welding hybrid structures. With a strong background in mechanical engineering and chemistry, Rafael has published several research papers in leading international journals. He is also a visiting PhD researcher at ISEP, Polytechnic of Porto, and actively contributes as a reviewer for national and international journals. 🧑‍🔬

Publication Profile

ORcid

Scopus

Suitability For The Award

Dr.Rafael Resende Lucas, currently pursuing a Ph.D. in engineering with a focus on materials science at São Paulo State University (UNESP), is a highly suitable candidate for the Best Researcher Award. His research concentrates on optimizing surface treatment techniques, specifically Plasma Electrolytic Oxidation (PEO) on metallic alloys, aimed at improving the performance of welding hybrid structures. This innovative focus is highly relevant in the materials engineering field, with direct applications in enhancing industrial processes.

Education:

PhD in Engineering, São Paulo State University (2022–2026)
Master’s in Mechanical Engineering, São Paulo State University (2020–2022)
Technologist in Metallurgical Processes, Technology College, Pindamonhangaba (2015–2017)
Graduate in Chemistry, University of Franca (UNIFRAN)

Experience:

Visiting PhD Researcher, ISEP, Polytechnic of Porto (June 2024–Present)
PhD Researcher, São Paulo State University (March 2022–Present)
Master’s Researcher, São Paulo State University (March 2020–March 2022)

Professional Development

Rafael Resende Lucas has continuously expanded his professional expertise in the field of materials science. His PhD research focuses on the optimization of Plasma Electrolytic Oxidation (PEO) treatments for metallic alloys, essential in hybrid welding structures. Besides his research endeavors, Rafael has enhanced his educational skills by specializing in higher education teaching and school inspection from FAVENI. As a contributing reviewer for national and international journals, Rafael stays updated with the latest developments in materials engineering, ensuring his active role in advancing the field.

Research Focus

Rafael’s research revolves around materials science, specifically surface treatment optimization using Plasma Electrolytic Oxidation (PEO) techniques. His work explores enhancing the adhesion between metallic alloys, such as AA2024-T3 aluminum, and thermoplastic composites in hybrid structures. This research is pivotal in developing robust joints through innovative welding techniques like oxy-fuel welding (OFW), improving the durability and performance of advanced materials in engineering applications. Rafael’s research contributes to enhancing material interfaces in industrial processes.

Awards and Honors

Reviewer for national and international scientific journals
Visiting PhD Researcher at ISEP, Polytechnic of Porto (2024)
Published research in top materials science journals

Publications

Characterization of the hybrid joint between AA2024-T3 alloy and thermoplastic composite obtained by oxy-fuel welding (OFW)” – 2024 | Cited by: 0
“Panorama da energia eólica no Brasil com ênfase na Região Nordeste” – 2024 | Cited by: 0
“Plasma electrolytic oxidation (PEO): An alternative to conventional anodization process” – 2024 | Cited by: 0
“Analysis of Plasma Electrolytic Oxidation Process Parameters for Optimizing Adhesion in Aluminum–Composite Hybrid Structures” – 2024 | Cited by: 0
“Influence of Electrolyte Concentration Variation on Thin Oxide Coating Production in Aluminum Alloy by PEO” – 2024 | Cited by: 0
“The impact of experimental practices on teaching chemistry in the new Brazilian high school” – 2024 | Cited by: 0

Conclusion

Rafael Resende Lucas’s strong academic background, innovative research on surface treatment optimization, and his active engagement with the academic community through publication and peer reviewing, make him an outstanding candidate for the Best Researcher Award. His research in materials science, particularly on plasma electrolytic oxidation for hybrid materials, has both immediate and long-term relevance in the engineering industry, positioning him as a future leader in the field.

Sida Liu | High-Performance Alloys | Best Researcher Award

Sida Liu | High-Performance Alloys | Best Researcher Award

Prof. Sida Liu, Xi’an Jiaotong University, China.

Publication profile

Orcid

Scopus

Education and Experience

Suitability For The Award

Professional Development

Research Focus

Publications Top Notes

A facile high-efficiency preparation strategy for Al-containing multi-component boride microcrystals with superior comprehensive performance (2025, Journal of Materials Science and Technology,

Strain effect of phonon and electron in 1D crystals HfS3 and ZrS3 2024,

Review of External Field Effects on Electrocatalysis: Machine Learning Guided Design (2024, Advanced Functional Materials, 1 citation)

3D/4D additive–subtractive manufacturing of heterogeneous ceramics (2024, Journal of Materials Science and Technology, 3 citations)

Elemental partitioning-mediated crystalline-to-amorphous phase transformation under quasi-static deformation (2024, Nature Communications, 4 citations)

Insights into the dual effects of Ti on the grain refinement and mechanical properties of hypoeutectic Al–Si alloys (2024, Journal of Materials Science and Technology, 17 citations)

Additively manufactured fine-grained ultrahigh-strength bulk aluminum alloys with nanostructured strengthening defects (2024, Materials Today, 8 citations)