Merzhanov Institute of Structural Macrokinetics and Materials Science Russian Academy of Sciences (ISMAN) | Russia
Stolin Alexander Moiseevich is a distinguished materials scientist with a PhD and Doctor of Sciences degree, known for his pioneering contributions in the fields of self-propagating high-temperature synthesis (SHS), rheology, powder metallurgy, and solid-phase technologies. A graduate of Rostov State University, he began his scientific career at the Institute of Chemical Physics before joining ISMAN, where he has led the Laboratory of Plastic Deformation of Inorganic Materials since 1988. With over 500 scientific publications, 50 patents and copyright certificates, and an h-index of 21, his work has significantly advanced the understanding of viscous flow in reacting systems and high-temperature materials processing. He has mentored 21 PhD students and 2 doctoral candidates and is actively involved in multiple editorial boards and scientific committees. He is a key figure in academic-industry collaborations, notably with United Company Rusal. His accolades include the title of Honored Inventor of the USSR, the G.V. Vinogradov Prize, the Gold Medal at the Moscow Salon of Innovations, and the Honored Scientist of the Moscow Region title. His research continues to shape advanced material development and education in Russia and internationally, with a strong commitment to mentoring and scientific leadership. His citation count exceeds 1000, supported by verified documents and indexed publications.
Profile : Scopus
Featured Publications
Stolin, A.M., [Co-authors]. (2025). Structure and properties of the surfacing layer obtained with a powder SHS electrode based on TiC–NiCr. Metallurgist.
Stolin, A.M., [Co-authors]. (2024). Cold Uniaxial Pressing of PTFE-Based Composite Materials with Functional TiC and TiB₂ Additives. Russian Metallurgy (Metally).
Stolin, A.M., [Co-authors]. (2024). Critical Phenomena of Rheodynamic Origin in the Process of One-Sided Cold Pressing of Powder Materials. Theoretical Foundations of Chemical Engineering.
Stolin, A.M., [Co-authors]. (2024). Distinctive Features of the Grain Size Reduction Process in a TiC–NiCr Material Produced by SHS Extrusion. Inorganic Materials.
Stolin, A.M., [Co-authors]. (2023). Structure, and Mechanical and Tribological Properties of Ti–Cr–C–Ni–Fe Composite Coatings. Physical Mesomechanics.