Yingju Li | superalloys | Best Researcher Award

Posted on 27/01/202528/01/2025 by ScienceFather

Yingju Li | superalloys | Best Researcher Award

Prof. Yingju Li , Institute of Metal Research, Chinese Academy of Sciences , China.

Yingju Li is a Researcher Fellow at the Institute of Metal Research, Chinese Academy of Sciences. He has made groundbreaking contributions to developing high-temperature alloys with exceptional glass corrosion resistance, improving corrosion resistance by 70%. Yingju has published over 70 papers and holds more than 50 patents. He has been recognized with prestigious awards for scientific and technological progress in China’s nonferrous metal industry and Shandong province. His work in material design, corrosion resistance, and superalloys continues to have a significant impact in the field. 🏅📚🔬

Publication Profile

Scopus

Education and Experience

Ph.D., Institute of Metal Research, Chinese Academy of Sciences 🎓
Researcher Fellow, Institute of Metal Research, Chinese Academy of Sciences 🔬
Contributor to National Key Research and Development Programs 🏆

Suitability Summary

Prof.Yingju Li, Ph.D., a Researcher Fellow at the Institute of Metal Research, Chinese Academy of Sciences, is a deserving candidate for the Best Researcher Award due to his outstanding contributions to material science, particularly in the development of high-temperature alloys and corrosion-resistant materials. His innovative research has not only advanced scientific knowledge but has also had significant industrial impact, particularly in fields such as aerospace and manufacturing.

Professional Development

Yingju Li has continuously advanced his professional development through collaboration with leading academic and research institutions like Xiamen University. He has been integral in designing and preparing advanced Co-based superalloys, significantly enhancing corrosion resistance and mechanical properties. His groundbreaking work in electromagnetic field-controlled solidification and material design has contributed to the development of novel alloys. Additionally, his continuous involvement in national and international research projects has enabled him to mentor and guide the future generation of researchers. He is an active member of the Electromagnetic Metallurgy Branch of the China Metal Society, further boosting his professional network.

Research Focus

Yingju Li’s research primarily focuses on the development of corrosion-resistant superalloys, material design, and solidification technologies. His work addresses key challenges in the preparation and improvement of alloys, such as overcoming issues with high density and poor thermal stability. He has innovated techniques like multi-element microalloying to strengthen magnesium alloys and has developed high-strength magnesium alloys that are recognized internationally. His research also emphasizes electromagnetic field-controlled solidification to improve material quality and casting precision, particularly in large complex thin-walled components. His contributions continue to shape advancements in materials science, benefiting both academia and industry.

Awards and Honors

First Prize for Scientific and Technological Progress in China Nonferrous Metal Industry 🏅
Second Prize for Scientific and Technological Progress in China Nonferrous Metal Industry 🥈
Second Prize for Scientific and Technological Progress in Shandong Province 🥈
56 Patents Published 📜
Over 70 Papers Published in International Journals 📚

Publication Top Notes

Effect of trace Al and Ti elements on borosilicate glass corrosion resistance of Inconel 690 alloy. Journal of Nuclear Materials, 606, 155626. 📄

Microstructure evolution and dynamic recrystallization mechanisms of Mg-Al-Ca-Zn-Sn-Mn alloys with different Ca contents during hot extrusion. Journal of Alloys and Compounds, 1011, 178400. 🔧

Erratum to “Thermal corrosion behavior of Inconel 693, Hastelloy N, and 310S in ceramic waste forming reactions”. Journal of Nuclear Materials, 604, 155468. 🔄

Thermal corrosion behavior of Inconel 693, Hastelloy N, and 310S in ceramic waste forming reactions. Journal of Nuclear Materials, 603, 155416. ⚙️

Finite Element Analysis of Dry Friction Wear of Al-based Composite Coatings. Cailiao Yanjiu Xuebao/Chinese Journal of Materials Research, 38(12), pp. 941–949. 🔍

Three-dimensional modeling of electromagnetic field and fluid flow during solidification of an aluminum alloy in a pulsed magnetic field. Materialwissenschaft und Werkstofftechnik, 55(12), pp. 1732–1742. 🧲

Patrick Hartwich | Construction Materials | Best Researcher Award

Posted on 18/11/202418/11/2024 by ScienceFather

Patrick Hartwich | Construction Materials | Best Researcher Award

Mr. Patrick Hartwich, Universität Siegen, Germany.

Mr. Patrick Hartwich is an experienced professional in the field of chemistry and materials science, specializing in environmental impact, construction materials, and surface analysis. With a Master’s degree in Chemistry and a PhD, he has worked in academic, industrial, and international settings. Dr. Hartwich has contributed significantly to research on composite materials, building materials, and sustainability. His experience includes leadership roles in projects involving material development, recycling, and surface treatments. Currently, he works as a product developer at Schlüter-Systems KG. His passion for research and innovation continues to drive advancements in construction and materials science.

Publication profile

Scopus

Orcid

Education and Experience

Postgraduate Studies in Toxicology and Environmental Protection
University of Leipzig (09/2016 – 06/2018)
Certificate: Specialist Chemist in Toxicology
Master of Science in Chemistry
University of Siegen (10/2011 – 09/2012)
Bachelor of Science in Chemistry
University of Siegen (04/2007 – 09/2011)
Abitur (High School Graduation)
Gymnasium Wilnsdorf (08/1997 – 06/2006)

Suitability For The Award

Mr. Patrick Hartwich is an ideal candidate for the Best Researcher Award, with a remarkable academic and professional background, strong research contributions, and expertise in material science, construction chemistry, and environmental protection. His experience spans over a decade, during which he has made significant strides in both academia and industry.

Professional Development

Mr. Hartwich has a strong commitment to both academic and professional growth. He gained extensive experience working as a scientific assistant at the RWTH Aachen University and the University of Siegen, focusing on the environmental impact of building materials. Dr. Hartwich led the development of composite materials in Ho Chi Minh City, Vietnam, and optimized processes at Ingeneric GmbH. As a product developer at Schlüter-Systems, he collaborates internationally on projects related to chemical products for the construction industry. His research and innovation in surface analysis, nanostructures, and recycling processes continue to drive progress in the material science field.

Research Focus

Mr. Hartwich’s research centers on materials science, particularly in the development of environmentally sustainable and durable building materials. His work includes surface analysis, the synthesis of nanostructures, and the use of mineral binders in composite materials. He also focuses on the recycling of construction materials and the environmental impact of construction products. His projects span from the development of carbon fiber-reinforced mortars to the analysis of concrete’s behavior in various environmental conditions. Dr. Hartwich has contributed to a wide range of innovative projects aimed at improving the performance and sustainability of building materials.

Awards and Honors

“Star of Self Strengthening among Chinese College Students” (2023)
National Silver Award at the “Internet+ Innovation and Entrepreneurship” competition
Research Award for environmental compatibility of building materials
Best Paper Award in International Cement and Concrete Conferences
Outstanding Achievement in Construction Materials Research

Publications

Nanodentistry aspects explored towards nanostructured ZrO2: Immobilizing zirconium-oxide nanotube coatings onto zirconia ceramic implant surfaces (2023, Open Ceramics) – 2 citations
Transfer of a Photocatalytically Active TiO2 Nanotube Array onto Cementitious Materials (2022, ACS Applied Materials and Interfaces) – 0 citations
Influence of leachate composition on the leaching behaviour of concrete (2017, Cement and Concrete Research) – 39 citations

Dou Hu | Ceramic Composites | Best Researcher Award

Posted on 18/11/202418/11/2024 by ScienceFather

Dou Hu | Ceramic Composites | Best Researcher Award

Dr. Dou Hu, The University of Hong Kong, China.

Dr. Dou Hu () is a Postdoctoral Fellow at The University of Hong Kong (2024), specializing in additive manufacturing, ceramic composites, and high-temperature materials. With advanced degrees in Materials Science and Composite Materials from Northwestern Polytechnical University (NWPU), he has authored over 34 publications (h-index: 16). His groundbreaking research on ablation-resistant coatings and innovative manufacturing techniques has earned him prestigious accolades, including the “Star of Self Strengthening among Chinese College Students” (2023) and a National Silver Award at the “Internet+ Innovation and Entrepreneurship” competition.

Publication profile

Scopus

Googlescholar

Education and Experience

Postdoctoral Fellow (2024) – The University of Hong Kong, Hong Kong
Doctor of Engineering in Materials Science (2024) – Northwestern Polytechnical University (NWPU), Xi’an, China
Master of Engineering in Materials Science (2020) – Northwestern Polytechnical University (NWPU), Xi’an, China
Bachelor of Engineering in Composite Materials & Engineering (2017) – Northwestern Polytechnical University (NWPU), Xi’an, China

Suitability For The Award

Dr. Dou Hu is a distinguished materials scientist whose innovative contributions to additive manufacturing, ceramic and composite materials design, and high-temperature oxidation have established him as a leader in the field. With an impressive publication record and significant accolades, he is highly deserving of the Best Researcher Award.

Professional Development

Dr. Dou Hu specializes in additive manufacturing, ceramic composites, and high-temperature materials. His focus is on the design, simulation, and fabrication of ablation-resistant and self-healing coatings for extreme environments, such as aerospace and industrial sectors. By employing plasma spraying and exploring fiber-reinforced composites, he enhances materials’ resistance to oxidation, thermal stress, and particle impact (🔥). Dou also integrates multiscale simulation techniques to study and improve the performance of ultra-high-temperature ceramics and their interfaces. His cutting-edge research contributes to advancing the durability and functionality of next-generation engineering materials. 🔬🛰️

Research Focus

Dr. Dou Hu specializes in additive manufacturing, ceramic composites, and high-temperature materials. His focus is on the design, simulation, and fabrication of ablation-resistant and self-healing coatings for extreme environments, such as aerospace and industrial sectors. By employing plasma spraying and exploring fiber-reinforced composites, he enhances materials’ resistance to oxidation, thermal stress, and particle impact (). Dou also integrates multiscale simulation techniques to study and improve the performance of ultra-high-temperature ceramics and their interfaces. His cutting-edge research contributes to advancing the durability and functionality of next-generation engineering materials.

Awards and Honors

2024 – One Hundred National Postgraduate Model of Party Members (Top 1%)
2023 – Star of Self Strengthening among Chinese College Students (Top 1‰)
2022 – National Silver Award, The 8th China International College Students’ “Internet+” Innovation and Entrepreneurship Competition (Top 1‰ globally)

Publications

ZrC modified carbon/carbon composites using ZrSi2 and Zr-Cu alloys as reactive infiltrating materials – 2024, Journal of Alloys and Compounds; Cited by: 1
Ablation resistant C/C-HfC-ZrC-TaC-SiC composites prepared by reactive melt infiltration – 2024, Ceramics International; Cited by: 0
Ablation resistant behavior of silicide modified HfB2-SiC coating on graphite by spark plasma sintering: Role of MeSi2 addition – 2024, Journal of the European Ceramic Society; Cited by: 1
Improving repair performance for damaged C/C composites via heat-treatment temperature optimization and surface pretreatment – 2024, Journal of Materials Science & Technology; Cited by: 6
Insights into (Hf-Zr-Ta-Nb) C thermal protective system: Ablation behavior, morphology evolution and atomic bonding – 2024, Ceramics International; Cited by: 7
Insights into service-derived Zr-Ta-O film: Morphology evolution, temperature resistance, and atomic bonding – 2024, Journal of the European Ceramic Society; Cited by: 6
Effects of air plasma flame on the ZrB2-based UHTC coatings: Microstructure, phase evolution and ablation resistance – 2023, Journal of Materials Science & Technology; Cited by: 16