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Scientific fields and expertise:
N. N. cherenda has been working in the field of ion beam and plasma beam modified materials for more than 25 years, and has studied their phase and structure transformation, element redistribution, surface phenomena and tribological properties (hardness, friction and wear).
The main rules of the structure and phase change of Al after C-N implantation were found. The formation of nano scale (5-10nm) aluminum carbide precipitation was observed. The formation model of them was established.
The principle of structure change (element and phase composition, property change) of various materials (different types of steel, superalloy, aluminum alloy, etc.) under the influence of plasma flow compression was determined. Satisfactory results have been obtained in the machining test of high speed steel cutting tools. The basic principle of alloying metal and semiconductor materials by plasma flow was developed, and a new doping method was proposed (patented in Russia and Belarus). A method of metal containing nanostructured coating by plasma flow compression deposition was designed. At present, he is studying for his doctoral dissertation entitled "dynamic phenomena in the interaction of compressed plasma flow with metal and alloy surfaces".
N. N. cherenda has been working in the field of ion beam and plasma beam modified materials for more than 25 years, and has studied their phase and structure transformation, element redistribution, surface phenomena and tribological properties (hardness, friction and wear).
The main rules of the structure and phase change of Al after C-N implantation were found. The formation of nano scale (5-10nm) aluminum carbide precipitation was observed. The formation model of them was established.
The principle of structure change (element and phase composition, property change) of various materials (different types of steel, superalloy, aluminum alloy, etc.) under the influence of plasma flow compression was determined. Satisfactory results have been obtained in the machining test of high speed steel cutting tools. The basic principle of alloying metal and semiconductor materials by plasma flow was developed, and a new doping method was proposed (patented in Russia and Belarus). A method of metal containing nanostructured coating by plasma flow compression deposition was designed. At present, he is studying for his doctoral dissertation entitled "dynamic phenomena in the interaction of compressed plasma flow with metal and alloy surfaces".
Research Interests
Papers共 109 篇Author StatisticsCo-AuthorSimilar Experts
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PHYSICAL CHEMISTRY CHEMICAL PHYSICSno. 14 (2024): 10841-10849
Nikolai Cherenda, Artem Leivi, Alexandra Petukh,Vladimir Uglov,Sergey Grigoriev,Alexey Vereschaka,Valiantsin Astashynski,Anton Kuzmitski
HIGH TEMPERATURE MATERIAL PROCESSESno. 2 (2024): 7-24
HIGH TEMPERATURE MATERIAL PROCESSESno. 1 (2024)
Inorganic Materials: Applied Researchno. 3 (2024): 626-635
Physical chemistry chemical physics : PCCPno. 14 (2024): 10841-10849
Physics and Chemistry of Materials Treatment (2023): 5-17
Alexey Vereschaka,Nikolai Cherenda,Catherine Sotova,Vladimir Uglov, Olga Reva, Anna Basalai, Alexander Isobello,Natalia Baranova
Wear (2023): 204624-204624
METALSno. 4 (2023): 718-718
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Author Statistics
#Papers: 110
#Citation: 725
H-Index: 17
G-Index: 21
Sociability: 6
Diversity: 0
Activity: 1
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