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Information × Registration Number 0209U005397, 0108U004821 , R & D reports Title Mechanism of forming, structure and properties of nanostructural wearproof superficial layers, appearing during frictional interaction of bodies in active surroundings. Section 2. Development of technological bases and obtaining of antifrictional nanocarbon additives to the vehicles and transmission oils by high-power electrodischarge methods popup.stage_title Head Kuskova Natalya Ivanivna, Registration Date 12-02-2009 Organization Institute of Pulse Research and Engineering popup.description2 Object of research is the methods of reception, division and enrichment of nanocarbon materials which can be used as antifriction additives to the oils. Electrodischarge methods of perspective nanomaterials' based on the carbon receiption were developed. Mentioned nanomaterials contain nanodiamonds, fullerenes, nanocarbon and different metallic nanostructures. Their influence on tribotechnical characteristics of friction's pair was set. New effective physical, technical and chemical methods of nanocarbon's enrichment were developed. The structure and composition of nanocarbon material which have been get by electrodischarge treatment of kerosene were explored. The industrial oils, treated by electric discharge and different nanocarbon materials (fullerenes and amorphous carbon) as additions to the oils were tested. The comparative analysis of tribologic properties of obtained carbon nanomaterials was conducted. Analysis of results of their use as additives to the oils was conducted. Efficiency andperspective of cheap nanocarbon materials' use as antifriction and antiwearing additives to the most widespread motor-car and transmission oils use were proven. This kind of nanocarbon material - amorphous carbon is a result of electrodischarge treatment of kerosene. Product Description popup.authors popup.nrat_date 2020-04-02 Close