New technical solutions in nanotechnology. Part 2

Nanotehnologii v Stroitelʹstve. 2016;8(3):74-91 DOI 10.15828/2075-8545-2016-8-3-74-91


Journal Homepage

Journal Title: Nanotehnologii v Stroitelʹstve

ISSN: 2075-8545 (Online)

Publisher: OOO "CNT «NanoStroitelstvo»

Society/Institution: OOO "CNT «NanoStroitelstvo»

LCC Subject Category: Technology: Building construction

Country of publisher: Russian Federation

Language of fulltext: Russian, English

Full-text formats available: PDF



IVANOV Leonid Alexeevich (Ph.D. in Engineering, Vice President of the International Academy of Engineering. Member of the International Journalist Federation; Gazetny per., block 9, bld.4, Moscow, Russian Federation, 125009, e-mail: [email protected])

MUMINOVA Svetlana Rashidovna (Ph.D. in Engineering, Assistant Professor of Chair of Service Engineering, Russian State University of Tourism and Service; 99, Glavnaya ulitsa, Cherkizovo, Pushkino district, Moscow region, 141221, e-mail: [email protected])


Peer review

Editorial Board

Instructions for authors

Time From Submission to Publication: 8 weeks


Abstract | Full Text

The new technical solutions including inventions in the area of nanotechnology and nanomaterials are efficiently applied in communal and housing services as well as in construction and other joint fields. The invention «The diagnostics method for defects on the metal surfaces (RU 2581441)» refers to the methods used to detect defects and cracks on the surface of metal equipment and pipe lines. The suspension of metal nanoparticles is consistently applied on the surface of controlled object following direction from the bigger diameter to the smaller one. The nanoparticles possess the photoluminescence property and their shape is spheric with different diameters. After each application the surface is dried and excessive particles are removed. Then rowwise scanning of object surface is executed with the ray of femtosecond laser and at the same time the intensity of the two-photon luminescence signal is registered in every studied area fixing the location of this area and obtaining the map of glow intensity distribution of nanoparticles exited by the laser radiation. The maps shows the zones with the maximal glow intensity, the coor dinates and shape of the determined glow zone make it possible to determine the coordinates and shape of the defect and the size of its intersection is considered to be equal to relative diameter of the applied nanoparticles at this application stage. The technical stage is increased reliability and credibility of the study. The specialists may be also interested in the following inventions: the method to produce forged pieces from fire-resistant granulated alloys (RU 2583564); the method to produce nanocomposite with double shape memory effect based on monocrystals of ferromagnetic alloy (RU 2583560); the method to produce nanostructured titanium-nickel-zirconium coatings with shape memory (RU 2583222); the method to produce nanocomposites based on golden nanoparticles covered with coating of silica oxide and quantum points (RU 2583022); the nethod to produce polymer composite based on oriented carbon nanotubes (RU 2560382); the method to produce ferromagnetic metal nanoparticles with hard isolation coating (RU 2582870); the method of synthesis of endohedral fullerenes (RU 2582697); the optical measurement system and the method of quantitative measurement of critical size for nanodimensional objects (RU 2582484); the method to produce nanostructured coating and the equipment for its realization (RU 2575667) et al.