Dr. Sarah kareem Al-Saudi | geopolymer | Best Researcher Award

Doctorate at Miskolc, Hungary

Professional Profile

🎓 Academic and Professional Background

Sarah Kareem Mohammed Al-Saudi holds a Bachelor's degree in Materials Engineering, where she gained in-depth knowledge of materials utilized in manufacturing, focusing on their properties and methods to optimize them for diverse industrial applications. In 2011, she pursued a Master's in Materials Engineering Technology, emphasizing corrosion control for buried petroleum tanks. Her research involved isolating these tanks with high-resistivity media to mitigate corrosion rates effectively. Since 2014, Sarah has been an Assistant Lecturer at the Department of Building and Construction Technologies Engineering at Al-Esraa University College in Baghdad. In 2021, she began her PhD journey at the University of Miskolc in Hungary, focusing on recycling materials to develop eco-friendly construction solutions, including geopolymers and foam glass derived from recycled glass waste.

🔬Areas of Research

Lightweight Concrete
Lightweight concrete stands out for its energy-efficient properties in construction. It offers superior thermal insulation and reduces load-bearing demands, making it an ideal material for modern sustainable architecture.

Geopolymer
Produced from industrial waste, geopolymers are an eco-friendly alternative to traditional Portland cement. They help reduce carbon emissions while maintaining exceptional durability and chemical resistance, driving sustainability in construction practices.

Foam Glass
Foam glass, known for its lightweight structure and thermal insulation, is crucial in both construction and industrial applications. It supports sustainable practices by utilizing recycled glass waste, aligning with eco-friendly innovations.

Composite Ceramics
Composite ceramics are renowned for their exceptional heat resistance, strength, and durability. These properties make them indispensable in high-performance industries, such as aerospace and automotive, ensuring reliable and efficient material solutions.

Publications Top Noted📝

Production of lightweight geopolymer concrete with foam glass aggregate derived from cathode-ray glass waste

Authors: Mohammed Al-Saudi, S.K., Géber, R.

Journal: Case Studies in Construction Materials

Year: 2024

Effect of liquid-solid ratio on metakaolin-based geopolymer binder properties

Authors: Mohammed, A.-S.S.K., Géber, R.

Journal: Pollack Periodica

Year: 2024

Comparative study of metakaolin-based geopolymer characteristics utilizing different dosages of water glass in the activator solution

Authors: Sarah Kareem Mohammed, A.-S., Géber, R., Simon, A., Kurovics, E., Hamza, A.

Journal: Results in Engineering

Year: 2023

Effect of adding ceramic powder particles on the mechanical properties of fiber reinforced epoxy matrix (Al2O3-TiO2(97-3%)/laboratory study)

Authors: Hilmi, S.A., Mohammed, S.K., Znad, R.S.

Journal: AIP Conference Proceedings

Year: 2023

Preparation of an Aluminum Titania/Mullite Composite from the Raw Materials Alumina, Titania and Silica Fume

Authors: Mohammed, A.-S.S.K., Kurovics, E., Ibrahim, J.-E.F.M., Simon, A., Géber, R.

Journal: Revue des Composites et des Materiaux Avances

Year: 2022

🎓 Academic and Professional Background

Prof. Zhuang Liu Ph.D. in Materials Physics and Chemistry from the Chinese Academy of Sciences in 2010. Following this, I began my postdoctoral research at Chung Cheng University in Taiwan, China, in 2011. Since 2012, I have been associated with the Ningbo Institute of Materials Technology and Engineering, under the Chinese Academy of Sciences. In 2016, I undertook a year-long research project as a visiting scholar at Ames National Laboratory in the United States, gaining invaluable experience and expanding my knowledge in materials science.

🔬 Research and Innovations

Completed/Ongoing Research Projects: Includes the National Key R&D Program of China (Grant No. 2021YFB3503102), Zhejiang Provincial Natural Science Foundation Youth Original Project (Grant No. LDQ24E010001), and the Science and Technology Innovation 2025 Major Project of Ningbo (Grant No. 2022Z204).

Publications Top Noted📚

Simultaneous enhancement of magnetic properties and flexural strength in 2:17 type SmCo magnets induced by spherical WO3 particles doping

Authors: Yang, Y., Liu, Z., Zhu, C., Chen, R., Yan, A.
Journal: Journal of Magnetism and Magnetic Materials
Year: 2024

Phase structure evolution and its effect on magnetic and mechanical properties of B-doped Sm2Co17-type magnets with high Fe content

Authors: Li, Y.-W., Liu, Z., Wu, H.-C., Chen, R.-J., Yan, A.-R.
Journal: Chinese Physics B
Year: 2024

Significant effect of ordered micro-domain on cell boundary phase distribution and demagnetization curve squareness of Sm2Co17-type magnet

Authors: Liu, Z., Wu, H.-C., Zhang, C.-Y., Chen, R.-J., Yan, A.
Journal: Rare Metals
Year: 2024

Enhanced electrical resistivity in SmFe2-xSix alloys with large magnetostriction

Authors: Hou, R., Zhang, M., Xia, R., Liu, J., Yan, A.
Journal: Journal of Magnetism and Magnetic Materials
Year: 2024

Effect of CeO2 doping on the coercivity of 2:17 type SmCo magnets

Authors: Gao, X.-L., Liu, Z., Wang, G.-Q., Chen, R.-J., Yan, A.-R.
Journal: Chinese Physics B
Year: 2023