A.N. Matunin scite author profile

A.N. Matunin

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Investigation of the Effectiveness of Plasma-Chemical Ozone Generators on the Barrier Discharge in Air at Atmospheric Pressure

Андреев¹,

Matunin²,

Pichugin³

et al. 2011

PAST-TF

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Для решения задач совершенствования плазмохимических генераторов озона на барьерном разряде и глубокого исследования пространственно-временной структуры барьерного разряда был проведён ряд экспериментов с барьерным разрядом в воздухе при атмосферном давлении. В работе экспериментально показано, что наиболее производительной по синтезу озона является расширенная часть канала микроразряда, непосредственно прилегающая к диэлектрическому барьеру. Также показано, что безбарьерные генераторы озона уступают по эффективности барьерным. Полученные результаты необходимо учитывать при разработке высокопроизводительных плазмохимических генераторов озона. Ключевые слова: барьерный разряд, канал микроразряда, плазмохимический синтез озона, плазмохимический генератор озона на барьерном разряде. INVESTIGATION OF THE EFFECTIVENESS OF PLASMA-CHEMICAL OZONE GENERATORS ON THE BARRIER DISCHARGE IN AIR AT ATMOSPHERIC PRESSURE. V.V. ANDREEV, A.N. MATUNIN, Yu.P. PICHUGIN, V.G. TELEGIN, G.G TELEGIN. The technologies of plasma synthesis of ozone, based on the use of a barrier discharge, are investigated. To solve the problems of development of plasma-chemical ozone generators on the barrier discharge and in-depth study of the spatiotemporal structure of the barrier discharge, a series of experiments with a barrier discharge in air at atmospheric pressure were performed. As shown experimentally that the most productive on the synthesis of ozone is the extended part of the microdischarge channel directly adjacent to a dielectric barrier. Also it was demonstrated that barrier-free ozone generators are less efficient compared to the barrier. The results obtained should be considered when designing of high performance plasma ozone generators. Key words: barrier discharge, the microdischarge channel, plasma-chemical synthesis of ozone, plasma-chemical ozone generator on the barrier discharge.

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Ways of Suture Material Perfection in Surgery

Arshakyan¹,

Штофин²,

Matunin³

et al. 2017

Kms

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In high technologies time surgery makes certain demands to suture materials.A suture has to possess a number of properties besides the prevention of infectious complications [1,2] in the wound, it must contribute to the rapid and traceless incisional wound healing [3,4,5,6]. Moreover, an important aspect is adaptive and deformative characteristics of the suture that allows to minimize a number of negative factors in the course of healing and further scarring.Nikelide titanic suture has such properties. It has both porous interfacial structure and superelastic and superplastic properties [7,8, 9].We've carried out a serious of animal tests to study the behavior of nikelide titanic suture in living tissues.

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A.N. Matunin

Investigation of the Effectiveness of Plasma-Chemical Ozone Generators on the Barrier Discharge in Air at Atmospheric Pressure

Ways of Suture Material Perfection in Surgery

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