Helio de Lucena Lira | Materials Science | Sustainable Innovation Pioneer Award

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Prof. Helio de Lucena Lira | Materials Science | Sustainable Innovation Pioneer Award

Professor | Universidade Federal de Campina Grande | Brazil

Prof. Helio de Lucena Lira is a distinguished professor at the Universidade Federal de Campina Grande, recognized for his expertise in Materials Engineering with a focus on ceramics. He holds a doctoral degree in Chemistry from the University of Glasgow, a master’s degree in Process Engineering, and a bachelor’s degree in Industrial Chemistry from the Universidade Federal da Paraíba. Over his career, he has held significant academic positions, including full professorship and leadership in both undergraduate and postgraduate programs in Materials Engineering and Chemical Engineering, where he has supervised numerous research projects and guided graduate students. His research centers on the development of ceramic membranes, microfiltration technologies, advanced ceramics, and the sustainable utilization of industrial residues, contributing substantially to materials innovation and environmental applications. Prof. Lira has authored an extensive body of publications that are widely cited in his field, reflecting the impact and relevance of his work. He has been recognized as a productivity fellow by CNPq and has participated in international training programs, enhancing his expertise in fine ceramics. His professional service includes active roles in research development, curriculum leadership, and mentorship, demonstrating a sustained commitment to advancing scientific knowledge and fostering the next generation of engineers and researchers. Prof. Lira’s distinguished career exemplifies excellence in research, education, and professional leadership.

Profiles: Google Scholar | Scopus | ORCID

Featured Publications

1. Ceramic membranes production using quartzite waste for treatment of domestic wastewater, International Journal of Applied Ceramic Technology, 2025.

2. Sustainable ceramic membranes from clays and mining wastes by rapid sintering process, Materials Research, 2025.

3. Structure and morphological properties of cobalt-oxide-based (Co3O4) materials as electrodes for supercapacitors: A brief review. Full text unavailable.

4. TiO2 and Ag-TiO2 nanofibrous aerogels by SBS method and freeze-casting: Treatment of contaminated water, Materials Letters, 2024.

5. Development of asymmetric ceramic membranes for dairy wastewater treatment – A comparison between co-sintering and conventional firing process, Journal of Water Process Engineering, 2024.

Alexander Lenshin | Materials Science | Best Researcher Award

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Dr. Alexander Lenshin | Materials Science | Best Researcher Award

Leading researcher at Voronezh State University, Russia

Dr. Alexander Sergeevich Lenshin is a distinguished physicist and researcher, holding a Doctorate in Physical and Mathematical Sciences and serving as a leading researcher and associate professor at Voronezh State University. With over 14 years of academic and scientific experience, he has authored more than 100 publications, including numerous papers in high-impact Q1 journals. His research focuses on nanostructured materials, semiconductor heterostructures, and advanced 3D printing technologies. Dr. Lenshin has successfully led prestigious grants from the President of the Russian Federation, RFBR, and RSF, and serves as an expert for the Russian Science Foundation. He actively mentors graduate students and contributes to educational program development. His achievements have earned him regional awards and national recognition, including inclusion in the Strategic Talent Reserve of the Ministry of Science and Higher Education. Committed to both scientific excellence and education, Dr. Lenshin exemplifies the qualities of a leading researcher and academic innovator.

Professional Profile 

Scopus Profile
ORCID Profile

Education

Dr. Alexander Sergeevich Lenshin received his foundational education at Voronezh State University, where he completed his Bachelor’s degree in 2004 and Master’s degree in 2006 in physics-related disciplines. He earned his Candidate of Physical and Mathematical Sciences (Ph.D. equivalent) in 2009 and his Doctor of Sciences degree in 2021 from the same institution, signifying a high level of academic excellence in the Russian academic hierarchy. His academic journey reflects a consistent commitment to deepening his expertise in physics and materials science. Beyond his formal education, Dr. Lenshin has completed numerous advanced training and professional development programs, including qualifications in semiconductor device project management, digital science and technology, labor safety, and strategic leadership. These programs have further enhanced his interdisciplinary competence and administrative capacity in the scientific and academic community. His academic foundation is both rigorous and diverse, equipping him for leadership roles in research and higher education.

Professional Experience

Dr. Lenshin has amassed over 14 years of experience in higher education and scientific research. He is currently a leading researcher and associate professor at Voronezh State University, where he teaches core physics courses and specialized subjects such as additive technologies in microelectronics. His professional activities span teaching, research supervision, curriculum development, and administrative contributions. He has mentored graduate and postgraduate students and actively promotes their participation in national and international scientific conferences. In addition to his academic duties, he plays a vital role in institutional development by contributing to the design of postgraduate training programs in physical sciences. His service also includes judging student science tournaments and mentoring innovation leagues, showcasing his dedication to student engagement and scientific outreach. Dr. Lenshin’s career is characterized by a balance of teaching, mentorship, and high-level scientific inquiry, making him a well-rounded academic professional and a key figure in advancing physics education and research.

Research Interest

Dr. Alexander Lenshin’s research focuses on the physics and engineering of low-dimensional nanostructures, advanced materials, and semiconductor heterostructures. His work includes the study of porous silicon, GaN/SiC-based hybrid structures, and polylactide-based polymers, with applications in microelectronics, photonics, and optoelectronics. He is particularly interested in the morphological, optical, and structural characterization of materials using methods such as Raman spectroscopy, molecular beam epitaxy, and various nano-fabrication techniques. A key theme in his research is understanding and controlling the physical properties of hybrid systems to optimize their functional performance in real-world applications. His interdisciplinary approach merges materials science with applied physics and nanoengineering. Dr. Lenshin’s scientific contributions are evidenced by more than 100 published works, many in top-tier journals, and his leadership in several funded research projects. His research stands at the forefront of modern materials science and has implications for next-generation electronic and photonic devices.

Award and Honor

Dr. Alexander Lenshin has received multiple prestigious awards in recognition of his scientific and educational contributions. He was a recipient of the Young Scientists and Specialists Award of the Voronezh Region in 2022 and previously won the Government of Voronezh Region Prize for Scientific Development in 2013. In 2018, he was awarded an honorary diploma by the city administration for his long-standing contributions to science and education. Dr. Lenshin has twice secured the highly competitive Presidential Grants of the Russian Federation, emphasizing his national standing as a researcher. He has also led projects supported by the Russian Foundation for Basic Research (RFBR) and the Russian Science Foundation (RSF). His role as an expert for the RSF and guest editor for the journal Coatings (MDPI, Scopus Q2) further highlights his influence within the scientific community. In 2024, he was included in the Ministry of Science and Higher Education’s Strategic Talent Reserve, a notable distinction for leadership in science and education.

Conclusion

Dr. Alexander Sergeevich Lenshin is an accomplished physicist, researcher, and educator whose career reflects a deep commitment to advancing science and higher education. With a strong academic foundation, extensive teaching experience, and a prolific research record in advanced materials and nanostructures, he exemplifies scientific leadership. His success in securing competitive research grants and mentoring the next generation of scientists underscores his influence in both national and institutional contexts. Recognized with multiple regional and governmental awards, Dr. Lenshin has demonstrated excellence in both individual and collaborative scientific endeavors. His inclusion in the Strategic Talent Reserve signals national confidence in his potential for higher leadership roles in science and technology policy. As a researcher, mentor, and academic innovator, he embodies the values and qualifications deserving of top honors such as the Best Researcher Award. Dr. Lenshin’s trajectory continues to make significant contributions to the field of physical sciences and the broader research community.

Publications Top Notes

  • Examining the morphology and surface composition of a nanostructured tin film on porous silicon
    Authors: Ksenia B. Kim, Alexander S. Lenshin, Sergei S. Chernenko, Sabukhi Ilich ogly Niftaliev, Andrey I. Chukavin
    Year: 2024
    Citation: DOI: 10.1364/JOT.91.000675

  • Microstructural and hydrophilic properties of polyethylene terephthalate glycol polymer samples with different 3D printing patterns
    Authors: Alexander S. Lenshin, Vera E. Frolova, Sergey A. Ivkov, Evelina P. Domashevskaya
    Year: 2024
    Citation: DOI: 10.17308/kcmf.2024.26/11810

  • Study of semi-polar gallium nitride grown on m-sapphire by chloride vapor-phase epitaxy
    Authors: P. V. Seredin, N. A. Kurilo, Ali O. Radam, N. S. Builov, D. L. Goloshchapov, S. A. Ivkov, A. S. Lenshin, et al.
    Year: 2023
    Citation: DOI: 10.17308/kcmf.2023.25/10978

  • Comparative studies of nanoscale columnar AlxGa1-xN/AlN heterostructures grown by plasma-assisted molecular-beam epitaxy on cSi, porSi/cSi and SiC/porSi/cSi substrates
    Authors: P.V. Seredin, D.L. Goloshchapov, N.A. Kurilo, Ali Obaid Radam, V.M. Kashkarov, A.S. Lenshin, et al.
    Year: 2023
    Citation: DOI: 10.1016/j.optmat.2023.114451

  • Structure and composition of a composite of porous silicon with deposited copperAuthors: Alexander S. Lenshin, Kseniya B. Kim, Boris L. Agapov, Vladimir M. Kashkarov, Anatoly N. Lukin, Sabukhi I. Niftaliyev
    Year: 2023
    Citation: DOI: 10.17308/kcmf.2023.25/11259

  • Characteristics of the formation and composition of AlxGa1-xN/AlN/por-Si/Si(111) heterostructures grown using a porous silicon buffer layer
    Authors: Alexander S. Lenshin, Pavel V. Seredin, Dmitry S. Zolotukhin, Artemy N. Belyukov, Andrey M. Mizerov, Igor A. Kasatkin, et al.
    Year: 2022
    Citation: DOI: 10.17308/kcmf.2022.24/9055

  • Application of Sorption Analysis in the Study of Various Nanomaterials Used in Electronics Depending on their Composition and Production Conditions
    Authors: A. S. Lenshin, E. V. Maraeva
    Year: 2022
    Citation: DOI: 10.32603/1993-8985-2022-25-1-47-53

  • Features of the two-stage formation of macroporous and mesoporous silicon structures
    Authors: Alexander S. Lenshin, Anatoly N. Lukin, Yaroslav A. Peshkov, Sergey V. Kannykin, Boris L. Agapov, Pavel V. Seredin, Evelina P. Domashevskaya
    Year: 2021
    Citation: DOI: 10.17308/kcmf.2021.23/3300

  • Influence of electrochemical etching modes in single- and two-stage formation of porous silicon on oxidation of its surface layers under natural conditions
    Authors: Alexander S. Lenshin, Konstantin A. Barkov, Natalya G. Skopintseva, Boris L. Agapov, Evelina P. Domashevskaya
    Year: 2019
    Citation: DOI: 10.17308/kcmf.2019.21/2364

ARACELI ESPINOZA VAZQUEZ | Materials Science | Best Researcher Award

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Dr. ARACELI ESPINOZA VAZQUEZ | Materials Science | Best Researcher Award

research at Universidad Veracruzana- Instituto de Ingenierían, Mexico

Dra. Araceli Espinoza Vázquez is a distinguished researcher specializing in materials science, corrosion inhibition, and electrochemical analysis. With a strong background in academia and research, she has contributed significantly to understanding corrosion mechanisms and developing innovative protective coatings. Her work has applications in industrial sectors such as petroleum and in the preservation of historically significant metals like bronze and silver. As a professor and researcher, she has mentored students in various engineering and chemistry disciplines, helping shape the next generation of scientists. She has held numerous teaching and research positions at prestigious institutions, including Universidad Nacional Autónoma de México (UNAM) and Universidad Veracruzana. Dra. Espinoza has also participated in multiple postdoctoral fellowships, furthering her expertise in electrochemical techniques and sustainable corrosion inhibitors. Her dedication to advancing materials science through both fundamental and applied research has earned her recognition within the academic and scientific communities, making her a leader in her field.

Professional Profile

Education

Dra. Espinoza Vázquez earned her Ph.D. in Materials Science and Engineering from the Universidad Autónoma Metropolitana-Azcapotzalco (UAM) in 2013, where she focused on the electrochemical characterization of corrosion inhibitors. Prior to this, she completed a Master’s degree in the same discipline at UAM in 2011, conducting extensive research on chemical interactions at metal surfaces. She obtained her Bachelor’s degree in Chemical Engineering from UAM in 2008, laying a strong foundation in material properties and industrial applications. Throughout her academic journey, she has specialized in electrochemical techniques such as impedance spectroscopy and polarization curves, which are crucial for evaluating corrosion resistance. Her education also includes international research experiences, including academic stays at Universidad Rovira & Virgili in Spain, where she explored organic corrosion inhibitors for steel protection. This diverse educational background has equipped her with the expertise to lead research projects in both academic and industrial settings.

Professional Experience

Dra. Espinoza Vázquez has an extensive academic and research career, with experience spanning over a decade. She is currently a faculty member at the Institute of Engineering at Universidad Veracruzana, where she teaches and conducts research on materials protection. Previously, she served as a professor at UNAM’s Faculty of Chemistry, instructing courses in metallurgy and electrochemical processing. Her experience also includes postdoctoral research at UNAM and the Institute of Materials Research, where she worked on corrosion inhibitors for hydrocarbons and cultural heritage preservation. She has collaborated with various universities and research centers, contributing to projects on nanostructured coatings and sustainable corrosion prevention methods. In addition to her academic roles, she has been actively involved in mentoring students at both undergraduate and postgraduate levels, fostering new talent in materials science. Her multidisciplinary experience reflects her commitment to bridging theoretical research with practical applications in engineering and industry.

Research Interests

Dra. Espinoza’s research primarily focuses on corrosion science, electrochemical techniques, and materials protection. She specializes in studying the mechanisms of corrosion and developing inhibitors from natural and synthetic compounds. A major aspect of her work involves applying electrochemical impedance spectroscopy (EIS) and polarization curves to evaluate metal degradation in aggressive environments. Her research extends to protective coatings for metals of historical and artistic value, such as bronze and silver, aiming to preserve cultural heritage artifacts. In recent years, she has explored biomedical applications of magnesium alloys, investigating corrosion-resistant materials for medical implants. Additionally, she has worked on developing mesoporous materials impregnated with corrosion inhibitors, advancing sustainable and eco-friendly protective technologies. Her interdisciplinary research spans industrial applications, environmental sustainability, and materials conservation, positioning her as a key contributor to the field of materials science and electrochemistry.

Awards and Honors

Dra. Espinoza has been recognized for her contributions to materials science and corrosion research through various prestigious honors. She has held the National Researcher Level I (SNI-I) distinction from Mexico’s National System of Researchers (CONACYT) since 2015, a testament to her impactful scientific work. She has also been awarded multiple postdoctoral research fellowships, including support from DGAPA-UNAM and CONACYT, for projects on corrosion inhibitors for industrial and cultural applications. Her publications in renowned journals and international conferences have further established her reputation as a leading researcher. She has also been an invited speaker at national and international symposiums, sharing insights on electrochemical protection strategies. Through her dedication to advancing knowledge in corrosion science and engineering, she continues to earn recognition within the scientific community. Her achievements highlight her significant role in academia and research, making her a strong candidate for awards celebrating excellence in scientific contributions.

Conclusion

Dra. Espinoza Vázquez is a highly qualified and accomplished researcher in materials science, particularly in corrosion studies. Her research spans academia, industry, and cultural heritage, demonstrating a well-rounded impact. While she is a strong candidate for the Best Researcher Award, further publications in high-impact journals and leadership in major projects could elevate her candidacy even further.

Publications Top Noted

  • Corrosion inhibition performance of expired dicloxacillin for X65 steel in 1 M HCl

    • Authors: Ramírez-Cano, J.A., Espinoza-Vázquez, A., Campos-Anaya, K.R., Galván-Martínez, R., Orozco-Cruz, R.
    • Year: 2025
    • Journal: Materials Letters
    • Citations: 0

  • Effect of the Use of Some Rare Earth Compounds as Corrosion Inhibitors for API 5L X70 Steel in Saline Medium

    • Authors: Hernández García, S., Espinoza-Vázquez, A., Palacios, L.N., Castro, M., Orozco-Cruz, R.
    • Year: 2025
    • Journal: Metals
    • Citations: 0

  • Application of electrochemical noise in the study of an epoxy coating with hematite nanoparticles

    • Authors: Ramírez-Fernández, J.A., Orozco-Cruz, R., Espinoza-Vázquez, A., Carmona-Hernández, A., Galván-Martínez, R.
    • Year: Not specified
    • Journal: Not specified
    • Citations: 0

  • Electrochemical and theoretical evaluation of loratadine as corrosion inhibitor for X65 steel in 1M HCl aqueous solution

    • Authors: Ramírez-Cano, J.A., Espinoza-Vázquez, A., Miralrio, A., Castro, M., Orozco-Cruz, R.
    • Year: 2024
    • Journal: International Journal of Electrochemical Science
    • Citations: 1

  • EIS study of Mimosa tenuiflora nanocontainers in a defective epoxy resin for the protection of low-carbon steel in a saline media

    • Authors: Méndez-Figueroa, H.G., Soria-Castro, M., Quintana-Owen, P., Galván-Martínez, R., Orozco-Cruz, R.
    • Year: Not specified
    • Journal: Not specified
    • Citations: 0

  • Electrochemical characterization of ZnO/Mt@Fe-TA nanocontainers tested as corrosion inhibitor for metallic structures in a 3.5% NaCl medium

    • Authors: Zambrano, P.N.T., Méndez-Figueroa, H.G., Espinoza-Vázquez, A., Martinez, R.G., Orozco-Cruz, R.
    • Year: Not specified
    • Journal: Not specified
    • Citations: 1

 

Yuriy Chumlyakov | Materials Science | Best Researcher Award

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Prof. Yuriy Chumlyakov | Materials Science | Best Researcher Award

head of laboratory at Tomsk State University, Russia

Yuriy Ivanovich Chumlyakov is a prominent Russian scientist renowned for his groundbreaking contributions to materials science and solid-state physics. Currently, he is the head of the Laboratory of Physics of Strength and Plasticity at the Siberian Physical-Technical Institute, Tomsk State University, and also a professor at Tomsk State University. Over his distinguished career, Chumlyakov has gained international recognition for his pioneering research on high-strength single crystals, including studies on mechanical twinning, thermoelastic martensitic transformations, and shape memory alloys. His work has not only enriched theoretical physics but also influenced practical applications in material engineering, particularly in areas like superelasticity and plastic deformation. Throughout his career, he has collaborated with leading research institutions globally and played a key role in advancing the scientific understanding of materials’ behavior under stress and transformation. His academic and professional pursuits have made him a leading figure in his field, contributing extensively to both research and teaching.

Professional Profile

Education

Yuriy Chumlyakov’s academic journey is marked by an unwavering commitment to advancing knowledge in solid-state physics. He completed his undergraduate degree at Tomsk State University, where he earned a diploma in physics in 1970. Building upon this foundation, he pursued graduate studies at the same institution, earning his Ph.D. in solid-state physics in 1980. His expertise in the field was further solidified when he obtained the prestigious Doctor of Science degree in 1989 from the Institute of Strength Physics and Materials Science, Russian Academy of Sciences, Tomsk. Chumlyakov’s education provided him with the deep theoretical understanding and practical research skills necessary for his long-term contributions to the study of material properties, including those related to crystal structures, plasticity, and shape memory alloys. His academic background has played an essential role in shaping his successful career as a researcher and educator, allowing him to mentor future generations of scientists.

Professional Experience

Yuriy Ivanovich Chumlyakov’s professional career spans several decades, with significant contributions to both academic research and the advancement of materials science. Since 1989, he has served as the head of the Laboratory of Physics of Strength and Plasticity at the Siberian Physical-Technical Institute, where he has overseen numerous research projects focused on the behavior of high-strength single crystals under various stress conditions. Additionally, since 1993, Chumlyakov has been a professor at Tomsk State University, educating students in solid-state physics and materials science. His career also includes a long tenure as a senior research worker at the same institute, where he initially gained prominence. Throughout his career, Chumlyakov has been involved in numerous international collaborations, contributing to the global scientific community. His leadership and extensive experience in experimental and theoretical physics have positioned him as a key figure in the study of materials’ mechanical properties and transformations.

Research Interests

Yuriy Chumlyakov’s research interests lie at the intersection of solid-state physics, materials science, and applied physics. His primary focus is on the behavior of single crystals, particularly in the context of mechanical twinning, plastic deformation, and fracture mechanisms. He has extensively studied thermoelastic martensitic transformations in homogeneous and non-homogeneous crystals, including materials like NiTi, FeNiCoAl, and TiNiFe. Chumlyakov’s work on shape memory alloys and superelasticity has contributed to advancing the understanding of materials that undergo reversible transformations when subjected to external stimuli, such as temperature or stress. His expertise also extends to the dislocation structures in crystals and the plastic deformation of single crystals, which are vital for applications in aerospace, automotive, and medical fields. The practical implications of his work are vast, especially in the development of advanced materials for engineering solutions, including applications in structural health monitoring and high-performance materials.

Awards and Honors

Yuriy Ivanovich Chumlyakov’s exemplary contributions to materials science have earned him numerous prestigious awards and honors over the years. He has been a recipient of multiple grants from the Russian Foundation for Basic Research and the Russian Ministry of Education, underscoring the significance of his research in advancing the field. Chumlyakov’s work has been widely recognized internationally, with honors including a fellowship from the Japan Society for the Promotion of Science (JSPS) and the prestigious George Miller Professorship at the University of Illinois. He has served on the editorial boards of leading journals such as the Journal of Physics of Metals and Metallography and as a guest editor for special issues on shape memory alloys in the ASME Journal of Engineering and Technology. Furthermore, his contributions to the scientific community have been acknowledged through his appointment as a permanent jury member of PhD and Doctor of Science councils at Tomsk State University. These honors reflect his standing as a leading researcher in his field.

Conclusion

Yuriy Ivanovich Chumlyakov is a highly deserving candidate for the Best Researcher Award. His long history of groundbreaking research, leadership in academia, global recognition, and extensive contributions to the fields of solid-state physics and materials science make him a standout figure in his discipline. His work on shape memory alloys and thermomechanical transformations is crucial in advancing both theoretical and practical aspects of materials science, particularly for engineering applications. Expanding his outreach and engaging with newer interdisciplinary fields would only further enhance the impact of his already impressive career.

Publications Top Noted

  • High-temperature thermoelastic martensitic transformations in Ni44Fe19Ga27Co10 single crystals
    • Authors: Timofeeva, E.E., Panchenko, E.Y., Zherdeva, M.V., Volochaev, M.N., Chumlyakov, Y.I.
    • Year: 2025
    • Journal: Materials Letters
    • Citations: 0
  • Effect of carbon on the shape memory effect of [1¯44]−Oriented Cr20Fe20Mn20Co35Ni4.9C0.1 high-entropy alloy single crystals under tension
    • Authors: Kireeva, I.V., Chumlyakov, Y.I., Pobedennaya, Z.V., Vyrodova, A.V.
    • Year: 2024
    • Journal: Materials Letters
    • Citations: 0
  • Cyclic stability of the elastocaloric effect in heterophase [001]-oriented TiNi single crystals
    • Authors: Surikov, N.Y., Panchenko, E., Chumlyakov, Y.I., Marchenko, E.
    • Year: 2024
    • Journal: Applied Physics Letters
    • Citations: 0
  • Influence of the number of particle variants on the cyclic stability of superelasticity in Ti-51.5at.%Ni single crystals
    • Authors: Timofeeva, E.E., Zherdeva, M.V., Tagiltsev, A.I., Panchenko, E.Y., Chumlyakov, Y.I.
    • Year: 2024
    • Journal: Materials Letters
    • Citations: 1
  • Thermal and Cyclic Stability of Two-Way Shape Memory Effect in Ni44Fe19Ga27Co10 Single Crystals
    • Authors: Timofeeva, E.E., Dmitrienko, M.S., Panchenko, E.Y., Fatkullin, I.D., Chumlyakov, Y.I.
    • Year: 2024
    • Journal: Russian Physics Journal
    • Citations: 0
  • Microstructure and Thermoelastic Martensitic Transformation in Ni-Low and -Rich Ni–Ti–Hf–Nb High-temperature Shape Memory Alloys
    • Authors: Eftifeeva, A.S., Timofeeva, E.E., Panchenko, E.Y., Yanushonyte, E.I., Chumlyakov, Y.I.
    • Year: 2024
    • Journal: Russian Physics Journal
    • Citations: 0
  • Orientation Dependence of Cyclic Stability of Superelasticity of Ti50.2Ni49.8 Alloy Single Crystals under Compression
    • Authors: Kireeva, I.V., Chumlyakov, Y.I., Vyrodova, A.V., Pobedennaya, Z.V., Marchenko, E.S.
    • Year: 2024
    • Journal: Physics of Metals and Metallography
    • Citations: 0
  • Influence of Heat Treatments on Martensitic Transformations and Elastocaloric Effect in Two-Phase (β + γ) NiFeGa Alloys
    • Authors: Kurlevskaya, I.D., Panchenko, E.Y., Tokhmetova, A.B., Timofeeva, E.E., Chumlyakov, Y.I.
    • Year: 2024
    • Journal: Physical Mesomechanics
    • Citations: 1
  • Superelasticity of [0 0 1]-oriented Fe–Mn–Al–Cr–Ni crystals with a negative temperature dependence of transformation stresses
    • Authors: Chumlyakov, Y.I., Kireeva, I.V., Pobedennaya, Z.V., Kuksgauzen, I.V., Kuksgauzen, D.A.
    • Year: 2024
    • Journal: Materials Letters
    • Citations: 0
  • Formation of texture and twinning at 296 K of “Artificial” polycrystals of an equiatomic Co20Cr20Fe20Ni20Mn20 High-entropy alloy
    • Authors: Kireeva, I.V., Chumlyakov, Y.I., Kuksgauzen, I.V., Kuksgauzen, D.A.
    • Year: 2024
    • Journal: Materials Letters
    • Citations: 0