Increasing the resistance of a NiCrBSi coating to heat wear by means of combined laser heat treatment

Testing of NiCrBSi coatings formed by gas-powder laser cladding and combined laser heat treatment, including laser cladding and high-temperature annealing, were conducted under conditions of sliding friction on the Kh12M steel according to the pin-on-disk scheme. The combined processing resulting in the formation of large carbides and chromium borides in the coatings is shown to increase their wear resistance by a factor of 1.8 at sliding velocities of 6.1 and 9.3 m/s, when there is significant frictional heating of the friction surfaces. © 2018 Author(s)

Constrains on non-Newtonian gravity from the experiment on neutron quantum states in the Earth's gravitational field

An upper limit to non-Newtonian attracive forces is obtained from the measurement of quantum states of neutrons in the Earth's gravitational field. This limit improves the existing constrains in the nanometer range

Дія антимікробних препаратів і світлодіодного випромінювання на добові біоплівки S. aureus та E. coli

Estimating the results of the antimicrobial action and the LED radiation on diurnal S. aureus and E. coli biofilms it has been found that under the complex effects using optical emission of the orange spectrum and β-lactam antimicrobial drugs the density of biofilms was 1.5 times higher than the control values; under the action of the drug from the group of fluoroquinolones levofloxacin and the orange LED emission spectrum the density of daily S. aureus biofilm was 42.8 times reduced, and E. coli decreased by 18.9 times compared to the control. When determining the impact of the green radiation spectrum together with β-lactam antimicrobial drugs on daily biofilms of multiresistant strains there is inhibition of the density of isolates biofilm of both S. aureus and E. coli compared to the control. In a complex application of levofloxacin and the green LED emission spectrum the destruction of daily biofilms of multiresistant isolates of S. aureus by 2.4 times and E. coli by 3.1 times has been determined compared to the control. The similar results have been reported in determining the ability of irradiated planktonic cells to form the secondary biofilms: the lowest density of the secondary biofilm is registered in application of the optical radiation of the violet spectrum in combination with levofloxacin: the density of the secondary S. aureus biofilm reduced by 52.4, and the density of the E. coli biofilm reduced by 39.3 times compared to the control. As a result of this study the possibility of using the incoherent optical radiation of the violet spectrum with levofloxacin, which is a photosensitizer and contributes to decrease in the proliferative activity and the ability to form biofilms of multiresistant isolates of S. aureus and E. coli and increase their antibiotics resistance, in the treatment of inflammatory processes has been substantiated.Оценивая результаты действия противомикробных препаратов и светодиодного излучения на суточные биопленки S. aureus и E. coli, было установлено, что под комплексным воздействием с применением оптического излучения оранжевого спектра и β-лактамных противомикробных препаратов плотность биопленок была в 1,5 раза выше контрольных значений, препарата из группы фторхинолонов левофлоксацина и светодиодного излучения оранжевого спектра наблюдалось снижение плотности суточной биопленки S. aureus в 42,8 раза; а E. coli – в 18,9 раза по сравнению с контролем. При определении влияния излучения зеленого спектра вместе с β-лактамными антимикробными препаратами на суточные биопленки полирезистентных штаммов наблюдается угнетение плотности биопленки изолятов как S. aureus, так и E. coli по сравнению с контролем. А при комплексном применении левофлоксацина и светодиодного излучения зеленого спектра установлено разрушение суточных биопленок полирезистентных изолятов S. aureus в 2,4 раза, а E. coli в 3,1 раза по сравнению с контролем. Аналогичные результаты были зафиксированы при определении способности облученных планктонных клеток образовывать вторичные биопленки: наименьшая плотность вторичной биопленки зарегистрирована при применении оптического излучения фиолетового спектра комплексно с левофлоксацином: плотность вторичной биопленки S.aureus снижена в 52,4 и в 39,3 раза – снижена плотность вторичной биопленки E.coli сравнению с контролем. В результате данного исследования обоснована возможность применения в комплексной терапии гнойно-воспалительных процессов низкоинтенсивного некогерентного оптического излучения фиолетового спектра с левофлоксацином, который является фотосенсибилизатором и способствует подавлению пролиферативной активности и способности к формированию биопленок полирезистентных изолятов S. aureus и E. coli и повышению их антибиотикочувствительности.Оцінюючи результати щодо визначення дії антимікробних препаратів і світлодіодного випромінювання на добові біоплівки S. aureus і E. coli було встановлено, що під комплексним впливом із застосуванням оптичного випромінювання помаранчевого спектра та β-лактамних антимікробних препаратів щільність біоплівок була у 1,5 рази вища за контрольні значення, препарату з групи фторхінолонів левофлоксацину і світлодіодного випромінювання помаранчевого спектра зниження щільності добової біоплівки S. aureus у 42,8 рази а E. coli – у 18,9 рази порівняно з контролем. При визначенні впливу випромінювання зеленого спектра разом з β-лактамними антимікробними препаратами на добові біоплівки полірезистентних штамів спостерігається пригнічення щільності біоплівки ізолятів як S. aureus, так і E. coli порівняно з контролем. А при комплексному застосуванні левофлоксацину і світлодіодного випромінювання зеленого спектра встановлено руйнування добових біоплівок полірезистентних ізолятів S. aureus у 2,4 рази, а E. coli у 3,1 рази порівняно з контролем. Застосування антимікробних препаратів і світлодіодного випромінювання фіолетового спектра призвело до зниження щільності добових біоплівок S. aureus у 17,4 рази при застосуванні амоксиклаву, у 13,4 рази при застосуванні цефтриаксону та у 42,8 рази в комплексі з левофлоксацином. Аналогічні результати були зафіксовані при визначенні здатності опромінених планктонних клітин утворювати вторинні біоплівки: найменша щільність вторинної біоплівки зареєстрована при застосуванні оптичного випромінювання фіолетового спектра комплексно з левофлоксацином: щільність вторинної біоплівки S. aureus знижена у 52,4 та у 39,3 рази – знижена щільність вторинної біоплівки E. coli порівняно з контролем. У результаті цього дослідження обґрунтовано можливість застосування у комплексній терапії гнійно-запальних процесів низькоінтенсивного некогерентного оптичного випромінювання фіолетового спектра з левофлоксацином, який є фотосенсибілізатором та сприяє пригніченню проліферативної активності і здатності до формування біоплівок полірезистентних ізолятів S. aureus та E. coli і підвищенню їх антибіотикочутливості

Wear-resistant nickel-based laser clad coatings for high-temperature applications

The effect of high-temperature processing on laser clad Ni-based coatings is studied. Annealing at 1025°C forms thermally stable framework structures with large chromium carbides and borides. As a result, improved hardness and wear resistance of the coating are maintained when heated to 1000°C. Stabilizing annealing also increases the frictional thermal resistance of the NiCrBSi coating. Under high-speed (3.1– 9.3 m/s) sliding friction, when the surface layer temperature reaches about 500 –1000°С and higher, the wear resistance of the coating increases by 1.7 – 3.0 times. The proposed approach to the formation of heat-resistant coatings is promising, in particular, for a hot deformation tool and other components of metallurgical equipment operating under high thermal and mechanical loads. Such products include crystallizer walls of continuous casting machines. For the walls, the development of laser cladding technology for wear-resistant composite coatings on copper alloys is relevant as an alternative to thermal spraying. The cladding of composite NiBSi-WC coatings of 0.6 and 1.6 mm thickness on a Cu-Cr-Zr bronze substrate heated to 200 – 250°C with a diode laser is considered. The presence of boron causes the formation of the W(C, B) carboboride phase, whose hardness is higher than that of WC in the initial powder. Depending on the thickness of coatings and, accordingly, on the duration of heating and the subsequent cooling, the process of secondary carboborides precipitation from the solid solution can be suppressed (in the “thin” coating) or activated (in the “thick” coating). This leads to a higher wear resistance under friction sliding 1.6 mm thickness coating. © 2019, Institute for Metals Superplasticity Problems of Russian Academy of Sciences. All rights reserved.Institute of Education Sciences, IES: АААА-А18-118020790147-4Russian Science Foundation, RSF: 19-79-00031АААА-А18-118020190116-6The work was supported by the state orders of IMP UB RAS on the subjects “Laser” and “Structure” №АААА-А18-118020190116-6 and IES №АААА-А18-118020790147-4. The study of the evolution of the structure of NiCrBSi coatings during heating was carried out with financial support from the Russian Science Foundation, grant № 19-79-00031. The structural studies were done on the equipment installed at the Plastometriya Collective Use Center of IES UB RAS

Сложности применения классификации TI-RADS при ультразвуковом исследовании щитовидной железы

The article presents the experience of using the TIRADS classification (2020) in multiparametric ultrasound examination of the thyroid gland of 60 patients with subsequent morphological verification by fine needle aspiration biopsy. The article support the problems and difficulties that may arise in the ultrasound diagnostics doctor during the stratification of nodules and possible ways to solve this problems.В статье приводится опыт применения классификации TI-RADS (2020) при проведении мультипараметрического ультразвукового исследования щитовидной железы 60 пациентов с последующей морфологической верификацией путем тонкоигольной аспирационной биопсии. Освещены проблемы и трудности, которые могут возникнуть у врача ультразвуковой диагностики при стратификации узлового образования при использовании данной классификации и возможные пути их решения

Multidimensional Gaussian sums arising from distribution of Birkhoff sums in zero entropy dynamical systems

A duality formula, of the Hardy and Littlewood type for multidimensional Gaussian sums, is proved in order to estimate the asymptotic long time behavior of distribution of Birkhoff sums $S_n$ of a sequence generated by a skew product dynamical system on the $\mathbb{T}^2$ torus, with zero Lyapounov exponents. The sequence, taking the values $\pm 1$, is pairwise independent (but not independent) ergodic sequence with infinite range dependence. The model corresponds to the motion of a particle on an infinite cylinder, hopping backward and forward along its axis, with a transversal acceleration parameter $\alpha$. We show that when the parameter $\alpha /\pi$ is rational then all the moments of the normalized sums $E((S_n/\sqrt{n})^k)$, but the second, are unbounded with respect to n, while for irrational $\alpha /\pi$, with bounded continuous fraction representation, all these moments are finite and bounded with respect to n.Comment: To be published in J. Phys.

Measurement of the e+e−→K+K−π+π−e^+e^- \to K^+K^-\pi^+\pi^- cross section with the CMD-3 detector at the VEPP-2000 collider

The process $e^+e^- \to K^+K^-\pi^+\pi^-$ has been studied in the center-of-mass energy range from 1500 to 2000\,MeV using a data sample of 23 pb$^{-1}$ collected with the CMD-3 detector at the VEPP-2000 $e^+e^-$ collider. Using about 24000 selected events, the $e^+e^- \to K^+K^-\pi^+\pi^-$ cross section has been measured with a systematic uncertainty decreasing from 11.7\% at 1500-1600\,MeV to 6.1\% above 1800\,MeV. A preliminary study of $K^+K^-\pi^+\pi^-$ production dynamics has been performed

Cavitation Resistance of WC-10Co4Cr and WC-20CrC-7Ni HVAF Coatings

Machines operating in aqueous environments may be subjected to cavitation damage during operation. This study aims to evaluate the cavitation resistance of WC-10Co4Cr and WC-20CrC-7Ni coatings under cavitation erosion conditions with additional electrochemical effects. The coatings were deposited on AISI 1040 steel substrates using a high velocity air fuel thermal spray process. The microstructure of the coatings was observed by a scanning electron microscope, while their phase composition was analyzed using an energy-dispersive microanalysis system. In addition, the microhardness of the coatings and substrate was measured, and the surface topography of the eroded surface layers was observed using a 3D optical profilometer. The results revealed that the cavitation resistance of the WC-20CrC-7Ni coatings was better than that of the WC-10Co4Cr coatings. The observation of the structure and surface topography made it possible to identity the reasons for the differences between the cavitation resistance of both coatings: The WC-20CrC-7Ni coatings had a finer grain structure, lower pore density, and lower as-sprayed surface roughness. These differences, along with the presence of a high Cr and Ni content in the feedstock powder, that increased the coating corrosion resistance, contributed to improving the cavitation resistance and reducing the material loss of the WC-20CrC-7Ni coatings. © 2021, ASM International.The work was completed within state assignments from FASO Russia for IMP UB RAS on the subjects No. AAAA-A18-118020190116-6, № AAAA-A19-119070490049-8 and for IES UB RAS on the subject No. AAAA-A18-118020790147-4. The present study was supported by project № IRA-SME-66316 cladHEA+ (M-ERA.NET Call 2019-II) and M-ERA.Net ETAG18012 DuraCer. The experimental research was carried out using the equipment of the Plastometriya Collective Use Center of IES UB RAS

Characteristics of the response of the microalga (Dunaliella viridis) to cerium compounds in culture

Recently, nanobiotechnology has been developing intensively; therefore, various properties of nanoparticles, which depend on their origin, concentration, and size, are of interest. It is known that CeO2 nanoparticles cause a positive biological effect. These particles are able to penetrate through biomembranes. At the same time, there are assumptions about a high degree of biological risks when using nanomaterials, and it is obvious that the biosafety of nanomaterials is decisive in the development of new products, including for medicine. The cytotoxicity of samples of cerium salts and cerium dioxide nanoparticles of different sizes was assessed at different concentrations using D. viridis. The cytotoxicity level by morphological and functional disorders of D. viridis was investigated, as determined by the change in cell shape, accumulation of inclusions, loss of flagellum, change in nature and movement, the formation of micro- and macroaggregates by D. viridis cells and exometabolite release. The cytotoxicity coefficient was calculated as a quotient of total detected changes divided by their number. It was shown that cerium salts (cerium (IV) ammonium nitrate and cerium (III) chloride) had pronounced cytotoxicity, which exceeded cytotoxicity values of the control by 7 and 6 times, respectively. Cerium dioxide nanoparticles with a size of 6 nm at a concentration of 0.01 M showed intermediate cytotoxicity, which exceeded control values by 3.5 times, and after the effect of nanoparticles with a size of 2 nm at a concentration of 0.1 M, the cytotoxicity coefficient corresponded to control values. The addition of inactivated blood serum to the incubation mixture resulted in a decreased cytotoxic effect of cerium dioxide. The use of D. viridis as a test system will supplement the arsenal of biotesting tools for nanomaterials and the study of the mechanisms of their effect