In 1957 the Government of the USSR made a decision to organize two types of scientific periodicals: "Reports of the Academy of Sciences" and "Izvestia of Higher Educational Institutions". Publication of the journal "Technology textile industry"was entrusted to the Ivanovo Textile Institute named after MV Frunze (now IHTA) and is still being successfully carried out by it. The founder of the journal is the Ministry of Education Russian Federation... The editorial board of the journal included and includes representatives of the largest textile universities Russia and some CIS countries: Moscow State Textile University, Ivanovo State Textile Academy, Kostroma State Technological University, St. Petersburg state university technology and design, Tashkent Institute of Textile and light industry, Russian Correspondence Institute of Textile and Light Industry. The "Technology of the Textile Industry" magazine is a periodical. It is published 6 times a year. For more than 40 years of existence of the journal, more than 260 issues have been published, containing more than 10 thousand scientific articles. The journal publishes articles and reviews, highlights the results of research works; talks about the advanced domestic and foreign experience that determines the development of textile technology and technology; reports on scientific conferences and meetings; publishes materials of a critical and debatable nature, short messages, materials of dissertations; organizes the exchange of scientific information between universities, industrial enterprises, research institutions; discusses research and teaching methodology; publishes advertising information. The magazine consists of 14 sections: "Economics and organization of production", "Textile materials science", "Primary processing. Raw materials", "Spinning", "Weaving", "Finishing", "Technology of nonwovens", "Knitted production", "Sewing production "," Textile machines and devices "," Automation of technological processes "," Ecology and industrial heat power engineering "," Information technologies "," Exchange of experience, criticism and bibliography, short messages ". For all the years of its existence, the journal "Technology of the Textile Industry" has practically become the main scientific periodical on the problems of textile technology and technology, economics and organization of production, mechanization and automation of technological processes. Scientific research developed - the scientific level of the journal developed and grew. In addition to the issues of technology of textile production, strong positions in the journal were won by the problems of organizing production and the economy of the textile industry, textile engineering, automation of technological processes, energy, ecology. The appearance of the journal more than 40 years ago played an important role in a significant increase in the qualifications of scientific personnel. Degree seekers have always made extensive use and use of journal pages to publish the materials of their dissertations. Distinctive feature of these works is high level theoretical research, which allows us to speak about the authority of the journal not only in Russia, but also abroad. For many years the magazine was fully translated into English in Great Britain, distributed and distributed in many countries of the world: USA, France, Germany, China, Mongolia and others. For more than 40 years of publication, both the appearance of the magazine and the technology of its publication have changed. The current editorial board and editorial staff preserve and develop the traditions laid down by the previous generations of prominent scientists, and do everything to ensure that the Tekhnologiya Tekhnologicheskaya promyshlennosti journal remains a publication of a high and modern scientific level.
The main topics of the journal:
Economics and organization of production
- Textile materials science
- Primary processing. Raw materials
- Spinning
- Weaving
- Finishing
- Technology of nonwovens
- Knitted production
- Clothing industry
- Textile machines and apparatus
- Automation of technological processes
- Ecology and industrial heat power engineering
- Exchange of experience, criticism and bibliography, short messages
First Vice-Rector, Vice-Rector for Academic Affairs, Scientific Director of the Optimization Laboratory textile technologies, Professor of the Department of Engineering Materials Science and Metrology, Member of the Academic Council, Doctor of Technical Sciences, Professor.
Titles and awards
- He was awarded the badge "Honored Worker of Higher Professional Education". He is a member of the European Society for Pedagogical Engineering.
- Member of the International Society for Engineering Education.
- Member of the editorial board of the journal Izvestiya Vuzov. Light Industry Technology ".
- Honorary Worker of VPO.
Functions
- Manages the planning, organization and conduct of educational and methodological work at all educational levels of all areas of training and specialties of the university;
- Supervises the development and implementation of the education quality system at the university;
- Supervises the transition to federal state educational standards.
- Coordinates the activities of all departments of the university on licensing and accreditation of individual educational programs and the university as a whole;
- Takes part in resolving issues international cooperation university related to the educational process;
- Interacts with state and municipal bodies, enterprises, institutions and organizations on education issues.
Education
- 1974 - Leningrad Institute of Textile and Light Industry named after V.I. CM. Kirov.
- 1982 - Ph.D. thesis defense. Topic: "Modeling the process of forming a combing product in order to improve its quality."
- 1996 - defense of a doctoral dissertation. Topic: "Theoretical and practical aspects of yarn production technology from mixtures of fibers of various origins and properties."
Professional experience
- Currently - First Vice-Rector, Vice-Rector for Academic Affairs; Professor of the Department of Engineering Materials Science and Metrology; Scientific Director of the Laboratory for Optimization of Textile Technologies.
Research interests:
- Planning and organizing an experiment
- Study of the structure and properties of textile materials and products based on them.
Main publications
The works of prof. Melnikov Boris Nikolaevich,
published in the journal« Proceedings of universities. Textile Industry Technology "
, Dyes that chemically interact with cellulosic materials (translation of the article by Vickerstuff, JSDC, 73, No.6, 237-245, 1957) // Izv. universities. Textile Industry Technology, 1958, No. 2. Pp. 181-192.
, Physicochemical properties of alkaline solutions of azotols and their interaction with cellulose fibers // Izv. universities. Textile Industry Technology, 1958, No. 4. S.151-156.
, Kinetics of dyeing processes // Izv. universities. Textile Industry Technology, 1958, No. 5. S.96-108.
, On the relationship between the structure of a number of direct dyes, the size of their particles in solution and the rate of diffusion in cellulose fibers // Izv. universities. Textile Industry Technology, 1960, No. 1. Pp. 111-120.
, Indelible dressing on cotton fabrics obtained using colloidal solutions of melamide-formaldehyde resins // Izv. universities. Textile Industry Technology, 1960, No. 2. S.91-97.
, On the relationship between the structure of azo dyes - oxa derivatives - and thiodiazotols - and the rate of their diffusion in copper-ammonia fiber // Izv. universities. Textile Industry Technology, 1960, No. 6. S. 120-124.
, Dyeing of nitrone with acid dyes // Izv. universities. Textile Industry Technology, 1961, No. 1. S.106-112.
, On the possibility of intensifying the process of nylon dyeing with the formation of insoluble oxy-azo dyes on the fiber // Izv. universities. Textile Industry Technology, 1961, No. 3. S.107-110.
, Dyeing of nitron with basic dyes // Izv. universities. Textile Industry Technology, 1961, No. 5. S. 99-104.
, Investigation of the influence of hydrophilic organic solvents on the kinetics of the processes of dyeing cellulose fibers with direct dyes // Izv. universities. Textile Industry Technology, 1962, No. 1. S.106-114.
, On the possibility of intensifying the process of nylon dyeing with the formation of insoluble oxyazo dyes on the fiber // Izv. universities. Textile Industry Technology, 1962, No. 3. S.107-114.
, Interaction of direct dyes with organic solvents // Izv. universities. Textile Industry Technology, 1962, No. 4. S.89-94.
, On the question of the mechanism of interaction of cationic dyes with nitrone // Izv. universities. Textile Industry Technology, 1962, No. 5. Pp. 114-117.
, Influence of some organic solvents on the swelling of viscose fiber in the process of its dyeing // Izv. universities. Textile Industry Technology, 1963, No. 4. S.103-107.
, Microphotometric method for studying the diffusion of dyes in cellulose film // Izv. universities. Textile Industry Technology, 1963, No. 6. S.118-123.
, Investigation of the sorption of azoamines by nylon fiber // Izv. universities. Textile Industry Technology, 1964, No. 5. S.88-94.
, Experience of using organic solvents for dyeing cotton fabrics with sulfur dyes // Izv. universities. Textile Industry Technology, 1965, No. 1. Pp. 152-157.
, Research in the field of creating a technology for a continuous-flow method of dyeing nitrone with cationic dyes // Izv. universities. Textile Industry Technology, 1965, No. 2. Pp. 114-120.
, Study of the reaction mechanism of the formation of insoluble oxyazo dyes in polyamide fibers // Izv. universities. Textile industry technology. 1965, no. 6. S.81-85.
, Investigation of the kinetics of desorption of direct dyes from cellulose fibers // Izv. universities. Textile Industry Technology, 1966, No. 1. S.104-109.
, Study of diffusion of direct dyes in cellulose fibers at temperatures above 100 ° C // Izv. universities. Textile Industry Technology, 1966, No. 2. S.108-114.
, Influence of hydrophilic organic solvents on the charge of direct dyes // Izv. universities. Textile Industry Technology, 1966, No. 3. S.107-112.
, The use of N, N '- methylolacrylamide to impart crease resistance to cotton fabrics // Izv. universities. Textile Industry Technology, 1966, No. 6. S.108-113.
, Development of a continuous method for dyeing nitrone with cationic dyes // Izv. universities. Textile industry technology. 1967, no. 3. S.94-99.
, Dyeing cellulose materials with direct dyes at temperatures above 100 o // Izv. universities. Textile Industry Technology, 1967, No. 5. S.97-108.
, Dyeing polypropylene with dispersed azo dyes // Izv. universities. Textile industry technology. 1967, no. 6. S.95-100.
, Dyeing by synthesizing pigments on fiber // Izv. universities. Textile industry technology. 1968, No. 1. S.108-112.
, On the question of the state of direct dyes on cellulose fiber // Izv. universities. Textile Industry Technology, 1968, No. 2. S. 99-103.
, Investigation of the relationship between sorption and diffusion phenomena in dyeing processes. Izv. universities. Textile industry technology. 1968, no. 6. S.97-100.
, The mechanism of action of intensifiers in the process of dyeing nitrone with cationic dyes // Izv. universities Technology of the textile industry, 1969, no. S.93-97.
, Study of the interaction of acrylamide with cellulose // Izv. universities Technology of the textile industry, 1969, no. P.22-24.
, The role of higher education in the development of the science of finishing textile materials // Izv. universities. Textile industry technology. 1970, no. 2. S.83-92.
, On the question of the mechanism of reactions occurring during the finishing of fabrics with acrylamide // Izv. universities. Textile Industry Technology, 1970, No. 3. S.98-102.
, Investigation of temperatures above 100 ° C for the fixation of dispersed dyes with lavsan fiber // Izv. universities. Textile Industry Technology, 1970, No. 4. S.79-82.
, Investigation of the dyeing process under non-isothermal conditions // Izv. universities. Textile industry technology. 1970, no. 6. S.96-100.
, Determination of diffusion coefficients in dyeing processes not brought to equilibrium // Izv. universities. Textile Industry Technology, 1971, No. 1. S.90-93.
, Dyeing of polyacrylonitrile fiber nitron with cationic dyes // Izv. universities. Textile Industry Technology, 1971, No. 2. S.102-106.
, Investigation of the thermal method of dyeing cellulose fibers with active dyes // Izv. universities. Textile Industry Technology, 1971, No. 3. S.93-96.
, The role of methylene chloride in the dyeing of lavsan with dispersed dyes // Izv. universities Technology of the textile industry, 1971, No. 5. S.92-95.
, Evaluation of the results of dyeing pre-heated fabrics. Izv. universities. Textile Industry Technology, 1971, No. 6. S.83-87.
, Mathematical analysis of the results of experimental studies of the process of dyeing polyacrylonitrile fiber with cationic dyes // Izv. universities. Textile industry technology. 1972, no. 1. S. 80-83.
, The action of aliphatic alcohols in the process of dyeing nylon fiber with acid dyes // Izv. universities Technology of the textile industry, 1972, No. 2. S.76-80.
, Influence of the fiber structure on the thermodynamics of the dyeing process with vat dyes // Izv. universities. Textile industry technology. 1972, no. 4. S.88-93.
, Determination of the diffusion coefficient of the dye by the time of half dyeing in baths with variable dye concentration // Izv. universities. Textile industry technology. 1972, no. 5. S.87-90.
, Adsorption and diffusion of a dye in a fiber at the stage of formation of a surface adsorption layer // Izv. universities. Textile Industry Technology, 1972, No. 6. S.101-104.
, Dye diffusion in fiber before equilibrium is established // Izv. universities. Textile Industry Technology, 1973, No. 1. S.75-78.
, Investigation of the process of fixing dispersed dyes on synthetic fibers in water vapor and organic solvents, volatile water vapor, Izv. universities Technology of the textile industry, 1973, no. S. 80-83.
, Calculation of the diffusion coefficients of dyes in fiber for dyeing processes at an adsorption rate commensurate with the diffusion rate // Izv. universities. Textile Industry Technology, 1973, No. 3. S. 80-83.
, The mechanism of the formation of copper phthalocyanine on fiber during dyeing of cellulose fabrics. Izv. universities Technology of the textile industry, 1973, no. S.83-87.
, Influence of the structure of cellulose fibers on the kinetics of the process of dyeing them with vat dyes // Izv. universities. Textile Industry Technology, 1973, No. 5. S.86-90.
, Influence of the state of cationic dyes in solution on the coloring of nitron fiber // Izv. universities. Textile Industry Technology, 1973, No. 6. S.83-87.
, Investigation of the influence of the initial moisture content of tissue and catalysts on the fixation of vat dyes // Izv. universities Technology of the textile industry, 1974, no. S. 80-84.
, Study of the effectiveness of the action of amides in the heat-fixation method of dyeing // Izv. universities Technology of the textile industry, 1974, no. S.83-87.
, The use of acrylamide and thermosetting resins for finishing cotton fabrics // Izv. universities. Textile Industry Technology, 1974, No. 3. S.86-90.
, Bazhbeuk-, Interaction of dimethylolethylene urea with cellulose in low-wrinkle finishing of linen fabric // Izv. universities. Textile Industry Technology, 1974, No. 4. S.71-75.
, Influence of changes in the supramolecular structure of viscose fiber on the coloristic efficiency of printing staple fabrics with vat dyes // Izv. universities. Textile Industry Technology, 1974, No. 5. S.69-73.
, Kinetics of non-isothermal dyeing // Izv. universities. Textile Industry Technology, 1975, No. 1. S.81-85.
, Mathematical model of the kinetics of the process of dyeing wool fiber with acid dyes // Izv. universities. Textile Industry Technology, 1975. No. 2. S.84-87.
, Intensification of the process of nitrone dyeing with cationic dyes // Izv. universities. Textile Industry Technology, 1975, No. 3. S.70-74.
, Comparison of various methods of fixing dispersed dyes on fabrics made of triacetate and polyester fibers. Izv. universities. Textile Industry Technology, 1975, No. 4. S.70-74.
, To the question of the stability of suspensions of vat dyes in the high-temperature method of dyeing flax-lavsan fabrics. Izv. universities. Textile Industry Technology, 1975, No. 5. S.92-95.
, General model of the kinetics of dyeing taking into account the resistance of the boundary layer [beginning] // Izv. universities. Textile Industry Technology, 1975, No. 6. S.76-80.
, General model of the kinetics of dyeing taking into account the resistance of the boundary layer [continuation] // Izv. universities. Textile Industry Technology, 1976, No. 1. S.88-92.
, Influence of heat treatment temperature on the process of interaction of acrylamide and its methylol derivative // Izv. universities. Textile Industry Technology, 1976, No. 2. S.81-84.
, Modification of cotton fabrics in order to reduce the loss of their strength during non-crease finishing // Izv. universities. Textile Industry Technology, 1976, No. 3. S.79-82.
, Spectrophotometric study of leucorrhoea solutions of vat dyes of the indanthrene series under conditions of high-temperature dyeing // Izv. universities. Textile Industry Technology, 1976, No. 4. S.70-73.
Shilova B.N. Discontinuous mathematical model of the dyeing process [beginning] // Izv. universities. Textile Industry Technology, 1976, No. 5. S.73-77.
, Discontinuous kinetic model of the dyeing process // Izv. universities. Textile Industry Technology, 1976, No. 5. Pp. 73-77; No. 6. S.75-78.
, Investigation of the process of fixing dispersed dyes on fabrics made of chemical fibers in vapors in vapors of azeotropic mixtures of organic solvents and water // Izv. universities. Textile Industry Technology, 1977, No. 1. S. 60-64.
, Permeability of a cellophane film with cationic agents and dyes // Izv. universities. Textile Industry Technology, 1977, No. 3. S.65-67.
, Investigation of changes in the physical and chemical properties of cotton fiber under the action of liquid ammonia // Izv. universities. Textile Industry Technology, 1977, No. 4. S.56-58.
Development of science and technology in the field of dyeing and finishing production // Izv. universities. Textile Industry Technology, 1977, No. 5. S.65-68.
, Study of the interaction of organic solvents with lavsan fiber // Izv. universities. Textile Industry Technology, 1977, No. 5. P.79-83.
, Experimental study of the kinetics of non-isothermal dyeing of nylon fiber with acid dyes // Izv. universities Technology of the textile industry, 1977, No. 6. S.61-63.
, Features of dyeing fabrics from physically modified polyamide Shelon yarns // Izv. universities Technology of the textile industry, 1978, No. 1. S.62-66.
, Generalization of Langmuir's sorption isotherm as applied to dyeing processes // Izv. universities. Textile Industry Technology, 1978, No. 2. S.68-71.
, On the composition of the transformation products of a mixture of methazine with acrylamide during radiation-chemical modification of tissues from cellulose fibers // Izv. universities. Textile Industry Technology, 1978, No. 3. S.61-64.
, Investigation of the interaction of phosphoric acid triamide with cellulose fiber by infrared spectroscopy // Izv. universities. Textile Industry Technology, 1978, No. 4. S.93-96.
, Comparison of the process of fixation of dyes in unsaturated vapors of organic solvents and in vapors of their azeotropic mixture with water // Izv. universities. Textile Industry Technology, 1978, No. 5. S.85-89.
, Evaluation of the efficiency of activation of cellulose materials with liquid ammonia // Izv. universities. Textile Industry Technology, 1978, No. 6. S.77-80.
, Intensification of impregnation of non-capillary tissues // Izv. universities. Textile Industry Technology, 1979, No. 1. S.52-56.
, Kinetics of dyeing of a substrate in the form of a film with a limited number of active sites from a bath with a variable dye concentration // Izv. universities. Textile Industry Technology, 1979, No. 2. S.39-42.
, Kinetics of dyeing a substrate in the form of a fiber with a limited number of active sites from a bath with a variable dye concentration // Izv. universities. Textile Industry Technology, 1979, No. 3. S.48-50.
, Investigation of chemical transformations of methazine and acrylamide mixtures during fabric finishing using ionizing radiation// Izv. universities Technology of the textile industry, 1979, no. S.54-57.
, Changes in the fine structure of cotton cellulose with different methods of mercerization // Izv. universities. Textile Industry Technology, 1980, No. 1. S.55-57.
, The choice of optimal conditions for conducting the process of tissue mercerization with liquid ammonia and hot solutions of caustic soda // Izv. universities. Textile industry technology. 1980, no. 2. S. 58-60.
, Investigation of the process of vapor-phase dyeing of fabric made of polyester fiber with dispersed dyes. Izv. universities. Textile Industry Technology, 1980, No. 3. S.49-53.
, The use of superheated steam when bleaching cotton fabrics with hydrogen peroxide // Izv. universities. Textile Industry Technology, 1980, No. 4. S.45-48.
, Influence of steaming conditions in the processes of high-speed peroxide bleaching on the degree of cleaning of cotton fabrics. Izv. universities. Textile Industry Technology, 1980, No. 5. S.59-62.
, Influence of the type of reaction medium on the process of cellulose modification with dimethylolethylene urea // Izv. universities. Textile Industry Technology, 1980, No. 6. S.49-52.
, Increasing the efficiency of using potassium dichromate when dyeing wool with acid-mordant dyes // Izv. universities. Textile Industry Technology, 1981, No. 1. S.51-54.
, The use of liquid ammonia in the process of imparting crease-resistance properties to cotton fabrics // Izv. universities. Textile industry technology. 1981, no. 2. S. 60-62.
, Method of dyeing fabrics from a mixture of wool with lavsan // Izv. universities. Textile Industry Technology, 1981. No. 3. S.50-53.
, Kinetics of fixation and destruction of an active dye during heat-set dyeing // Izv. universities. Textile Industry Technology, 1981, No. 4. S.50-53.
, Dyeing of lavsan with dispersed dyes under the influence of an electric field in the presence of organic solvents // Izv. universities Technology of the textile industry, 1981, No. 5. S.46-49.
, Activation of cellulose fiber with water // Izv. universities. Textile Industry Technology, 1981, No. 5. S.54-56.
, Intensification of the process of dyeing wool with chromium dyes // Izv. universities Technology of the textile industry, 1981, No. 6. S.49-52.
, Dyeing of harsh fabrics of clothing assortment with active dyes // Izv. universities. Textile Industry Technology, 1982, No. 1. S.55-58.
, Effect of liquid ammonia on chemical composition harsh cotton fiber and the physicochemical properties of the yarn made from it // Izv. universities. Textile Industry Technology, 1982, No. 2. S.61-63.
, Properties of cotton yarn subjected to treatment with liquid ammonia with the addition of anionic drugs // Izv. universities. Textile Industry Technology, 1982, No. 3. S.59-62.
, Investigation of the kinetics of fixation of active dyes by wool fiber in the continuous process of dyeing // Izv. universities. Textile Industry Technology, 1982, No. 4. S.56-59.
, Comparison of the efficiency of high-temperature methods for fixing dyes // Izv. universities. Textile Industry Technology, 1982, No. 6. S.49-53.
, Modification of polyester fabrics by gas-phase plasma graft copolymerization // Izv. universities Technology of the textile industry, 1983, no. S.44-47.
, The main results of research in the development of science and technology of finishing textile materials // Izv. universities. Textile Industry Technology, 1983, No. 2. S.51-55.
, Investigation of the applicability of the gas-phase plasma-initiated post-polymerization method for modifying the surface properties of polyester fabrics. Izv. universities. Textile Industry Technology, 1983, No. 2. S.56-59.
, Fixation of resin precondensates on cellulose fiber in an environment of superheated steam with non-crease finishing using solutions of finishing preparations in liquid ammonia // Izv. universities Technology of the textile industry, 1983, No. 3. S.59-63.
, The use of liquid ammonia for non-wrinkle finishing of fabrics with thermosetting resins // Izv. universities Technology of the textile industry, 1983, no. S.59-61.
, Influence of ionizing radiation on the processes of transformation of finishing preparations and active dyes // Izv. universities. Textile Industry Technology, 1983, No. 5. S.50-53.
, The use of anthraquinone to intensify the preparation of cotton fabrics // Izv. universities. Textile Industry Technology, 1983, No. 6. S.61-64.
, Monochromatic dyeing of cotton-lavsan fabrics from liquid ammonia. Izv. universities. Textile industry technology. 1984, no. 1. S.56-59.
, XIV International Congress of Colorists // Izv. universities. Textile Industry Technology, 1984. No. 1. Pp. 113-116.
, A new method of processing fabric with a vapor-liquid jet. Izv. universities. Textile Industry Technology, 1984, No. 2. S.70-74.
, Peculiarities of stretching of cotton fabrics during treatment with liquid ammonia and aqueous solution of sodium hydroxide // Izv. universities Technology of the textile industry, 1984, No. 4. S.50-53.
, Efficiency of fabric treatment with a vapor-liquid jet // Izv. universities. Textile Industry Technology, 1984, No. 4. S.48-52.
, Intensification of the process of impregnation of textile materials with alkaline solutions // Izv. universities. Textile Industry Technology, 1984, No. 5. P.47-50.
, Influence of chelating agents and reducing agents on the efficiency of decoction and bleaching of cotton fabrics. Izv. universities. Textile Industry Technology, 1984, No. 6. S.52-55.
, Spectrophotometric study of changes in lignin in the preparation of cotton fabrics // Izv. universities. Textile Industry Technology, 1985, no. S.62-65.
, Stability g to hydrolysis of bonds of dye and amino-formaldehyde resin with cellulose during radiation-chemical dyeing and finishing of teksil materials // Izv. universities. Textile Industry Technology, 1985, no. S.64-67.
, Influence of the degree of elongation of yarn treated with liquid ammonia on its main physical and mechanical characteristics // Izv. universities. Textile Industry Technology, 1985, No. 3. S.56-59.
, Preparation of cotton yarn for weaving using liquid ammonia and nonionic surfactants // Izv. universities Technology of the textile industry, 1985, no. S.44-46.
, Mathematical description of the process of processing fibrous materials in a steam environment // Izv. universities. Textile Industry Technology, 1985, no. 6. S.50-52.
, Investigation of rarely cross-linked acrylates as thickeners for printing // Izv. universities. Textile Industry Technology, 1986, No. 1. S.58-61.
, Comparison of combined methods of dyeing and finishing cotton-lavsan fabrics // Izv. universities Technology of the textile industry, 1986, no. S.67-70.
, The use of magnetic fields in dyeing fabrics made of cellulose and polyester fibers // Izv. universities Technology of the textile industry, 1986, no. S.64-67.
, Investigation of the process of azeotropic fixation of dispersed dyes with polyester materials // Izv. universities. Textile industry technology. 1986, no. 4. S.57-60.
, Influence of various plasticizing media on structure and relaxation processes in polyester fiber // Izv. universities. Textile Industry Technology, 1986. No. 6. S.52-55.
Boris Nikolaevich Melnikov (on the occasion of his 60th birthday)// Izv. universities. Textile Industry Technology, 1986. No. 6. Pp. 115-116.
, Influence of sulfo-derivatives of anthraquinone on the process of removing lignin-containing impurities from cotton fabrics. Izv. universities. Textile industry technology. 1987, no. 1. S.70-73.
, The choice of optimal modes of stabilization of the size of cotton fabrics during their processing with liquid ammonia // Izv. universities. Textile Industry Technology, 1987, No. 3. S.59-62.
, The use of glyoxal-based compositions for imparting low crease properties to cotton fabrics // Izv. universities. Textile Industry Technology, 1987, No. 4. S.59-62.
, Mathematical description of the process of moistening a textile material in a saturated steam environment // Izv. universities. Textile Industry Technology, 1987, No. 5. S.65-68.
, Changing the color shade in the processes of washing fabrics. Izv. universities. Textile Industry Technology, 1987. No. 6. S.71-74.
, Fixation of dispersed dyes on cellulose-polyester fabrics // Izv. universities. Textile industry technology. 1988, no. 1. S.49-51.
, Fixation of vat dyes on cotton-lavsan fabric in a one-step dyeing method // Izv. universities. Textile Industry Technology, 1988, No. 2. S.54-56.
, Investigation of the reactivity of sulfo-derivatives of anthraquinone under conditions of alkaline processing of textile materials // Izv. universities. Textile Industry Technology, 1988, No. 3. S.54-57.
, The relationship between the state of active dyes in solution and their sorption by cellulose // Izv. universities. Textile Industry Technology, 1988, No. 4. S.56-59.
, The use of inorganic salts and film-forming preparations to reduce shrinkage in the processes of wet-heat treatment of worsted suit fabrics. Izv. universities. Textile Industry Technology, 1988, No. 5. S.54-56.
, Influence of tension of cotton fabrics on the speed modes of the process of mercerization of them with aqueous solutions of sodium hydroxide // Izv. universities. Textile industry technology. 1988, no. 6. S.67-70.
# , Moryganov A. P. The current state and prospects for the development of technology for finishing fabrics. Izv. universities. Textile Industry Technology, 1989. No. 1. S.61-65.
, Changes in the performance properties of viscose staple fabrics under the action of liquid ammonia. Izv. universities. Textile Industry Technology, 1989, No. 1. S.65-68.
#, The role of capillary phenomena in the process of dyeing textile materials using liquid ammonia // Izv. universities. Textile Industry Technology, 1989. No. 1. S.69-72.
#, One-stage technology for dyeing and finishing cotton-lavsan fabrics // Izv. universities. Textile Industry Technology, 1989. No. 2. S.67-70.
#, Smrnova A.P., Intensification of the process of dyeing cotton-lavsan fabric with vat dyes // Izv. universities. Textile Industry Technology, 1989. No. 2. S.64-67.
, Kinetic laws of the process of dyeing packages of textile materials // Izv. universities. Textile Industry Technology, 1989. No. 2. S.56-60.
, Influence of the structure of cotton fabrics on the process of their mercerization with sodium hydroxide solutions // Izv. universities. Textile industry technology. 1989, no. 3. S.58-62.
, Suspension dyeing with vat dyes in liquid ammonia. Izv. universities. Textile industry technology. 1989, no. 4. S.67-70.
, The use of glyoxal-glycol adducts as formaldehyde-free precondensates for low-wrinkle finishing of viscose staple fabrics. Izv. universities. Textile Industry Technology, 1989, No. 5. S.61-64.
, The use of the enzyme peroxidase in the preparation of textile materials // Izv. universities. Textile industry technology. 1989, no. 5. S.65-69.
, Influence of the structure of cotton fabrics on the process of structural modification of cellulose when treated with sodium hydroxide solutions under tension. Izv. universities. Textile industry technology. 1989, no. 6. S.63-65.
, Influence of microwave currents on the physical and mechanical properties of cotton fabrics and the supramolecular structure of cellulose // Izv. universities. Textile Industry Technology, 1990, No. 1. S.57-60.
, One-stage high-temperature method for dyeing cotton-lavsan fabrics with cubosols // Izv. universities. Textile Industry Technology, 1990, No. 2. S.55-57.
, Bleaching of textile materials with urea monoperoxyhydrate in liquid ammonia. Izv. universities. Textile Industry Technology, 1990, No. 3. S.54-57.
, Intensification of the process of peroxide bleaching of textile materials // Izv. universities. Textile Industry Technology, 1990, No. 4. S.45-47.
, Assessment of the possibility of using aqueous ammonia for dyeing cotton fabrics with active dyes // Izv. universities. Textile Industry Technology, 1990. No. 5. S.58-61.
, Investigation of the kinetics of high-temperature nitrite manifestation of cubosols // Izv. universities. Textile Industry Technology, 1990. No. 6. S.58-60.
, Physical and mechanical characteristics of polyester fiber dyed in an aqueous ammonia environment. Izv. universities. Textile Industry Technology, 1991, No. 1. S.68-71.
, Formaldehyde-free finishing of shirt cotton fabrics // Izv. universities. Textile Industry Technology, 1991. No. 2. S.54-57.
, Analysis of the regularities of the process of stretching cotton fabrics during treatment with sodium hydroxide solutions // Izv. universities. Textile Industry Technology, 1991, No. 3. S.53-55.
, New approaches to the creation of liquid-phase compositions for the textile industry // Izv. universities. Textile Industry Technology, 1991, No. 4. S.57-63.
, Convective-microwave fixation of active dyes by cotton cloth // Izv. universities. Textile Industry Technology, 1991, No. 5. S.51-54.
, The use of emulsions of aliphatic alcohols in the process of mercerization of harsh cotton fabrics // Izv. universities. Textile Industry Technology, 1991, No. 6. S.50-53.
, Reducing the loss of fiber strength during carbonization of wool // Izv. universities. Textile Industry Technology, 1992, No. 1. S.54-56.
, Optimization of formaldehyde-free composition for final finishing of cotton shirts // Izv. universities. Textile Industry Technology, 1992, No. 2. S.51-54.
, Influence of the magnetic field on the state of hydrosols of vat dyes // Izv. universities. Textile Industry Technology, 1992, No. 3. S.54-56.
, Features of the process of low-wrinkle finishing of cotton fabrics in a water-organic vapor environment // Izv. universities. Textile Industry Technology, 1992, No. 4. S.49-51.
, Enzymatic preparation of cotton fabrics // Izv. universities. Textile Industry Technology, 1993, No. 2. S.51-54.
, The use of a composite biological product for the preparation of cotton fabrics // Izv. universities. Textile Industry Technology, 1993, No. 3. S.49-53.
, Method of thermal stabilization of worsted tissues at low temperatures // Izv. universities. Textile Industry Technology, 1993, No. 4. S.53-57.
, Regularities of the kinetics of mercerization of cotton fabrics with sodium hydroxide solutions // Izv. universities. Textile Industry Technology, 1993, No. 5. S.49-53.
, Influence of structural characteristics of cotton fabrics on the efficiency of fixation of active dyes in the field of high-frequency currents // Izv. universities. Textile Industry Technology, 1993, No. 6. P.47-50.
, Sedimentation stability of suspensions of vat dyes // Izv. universities. Textile Industry Technology, 1994, No. 2. S.48-50.
, Intensification of high-temperature nitrite manifestation of cubosols // Izv. universities. Textile Industry Technology, 1994, No. 3. S.33-35.
, Method for calculating the optimal concentration of alkaline solutions during the mercerization of cotton fabrics of various structures. Izv. universities. Textile Industry Technology, 1994, No. 4. S.33-36.
, Investigation of the diffusion process of active dyes into cellulose material under the action of a high frequency frequency field // Izv. universities. Textile Industry Technology, 1994, No. 5. S.43-46.
, Heating simulation polymer materials in the field of high-frequency currents // Izv. universities. Textile Industry Technology, 1994, No. 6. S.43-46.
, Chemical transformations of a mixture of methazine and acrylamide in the finishing of cotton fabrics according to the PX-method // Izv. universities. Textile Industry Technology, 1995, No. 2. S.43-47.
, Study of the oxidizing ability of peroxide solutions in the presence of various stabilizing systems // Izv. universities. Textile Industry Technology, 1995, No. 3. S.45-48.
, The use of enzyme-peroxide solutions in bleaching fabrics. Izv. universities. Textile Industry Technology, 1995, No. 5. S.48-51.
, Features of the influence of surfactant compositions on the quality of finishing worsted fabrics. Izv. universities. Textile Industry Technology, 1995, No. 6. S.41-44.
, Influence of the level of structural modification of cellulose on increasing the strength of cotton fabrics as a result of mercerization // Izv. universities. Textile Industry Technology, 1996, No. 1. S.45-48.
, Method for modifying the properties of thickeners used in the textile industry. Izv. universities. Textile Industry Technology, 1996, No. 2. S. 60-63.
, The use of organic stabilizers in one-stage processes of peroxide bleaching of mixed fabrics. Izv. universities. Textile Industry Technology, 1996, No. 3. S.40-43.
, Analysis of efficiency and optimization of one-stage method of mercerization and bleaching of cellulose hydrate textile materials from liquid ammonia. Izv. universities. Textile Industry Technology, 1996, No. 4. S.45-47.
, The use of the AS stabilizer in one-stage peroxide bleaching of cotton fabrics. Izv. universities. Textile Industry Technology, 1997, No. 3. S.53-56.
, The mechanism of the protective action of lignosulfonates in the process of carbonization of wool fiber // Izv. universities. Textile Industry Technology, 1997, No. 4. S.55-59.
, Lebedeva V, I., Biocompositions based on surfactants for the preparation of textile materials // Izv. universities. Textile Industry Technology, 1997, No. 5. S.50-54.
Forty years of textile chemistry on the pages of the journal // Izv. universities. Textile Industry Technology, 1997, No. 6. S.62-68.
, Influence of the level of structural modification of cellulose on the increase in the gloss of cotton fabrics as a result of mercerization // Izv. universities. Textile Industry Technology, 1997, No. 6. S.68-72.
, Development of new catalytic systems for low-formaldehyde wrinkle finishing // Izv. universities. Textile Industry Technology, 1998, No. 1. S.45-47.
, Complex thickener for printing on cellulose-containing textile materials // Izv. universities. Textile Industry Technology, 1998, No. 2. S.50-52.
, Study of the kinetics of manifestation of cubosols in the field of high-frequency currents // Izv. universities. Textile Industry Technology, 1998, No. 3. S.54-57.
, Influence chemical nature thickeners on the quality of local bleaching of gray flax // Izv. universities. Textile Industry Technology, 1998, No. 4. S.50-53.
, Modern methods of preparation of linen textile materials // Izv. universities. Textile Industry Technology, 1998, No. 5. S.49-57.
, Compositions based on biologically active substances for washing tissues after printing // Izv. universities. Textile Industry Technology, 1998, No. 6. S54-57.
, Dyeing of woolen carbonized fiber // Izv. universities. Textile Industry Technology, 1999, No. 1. S.61-64.
, The use of high-frequency currents for fixing active dyes when printing cotton fabrics // Izv. universities. Textile Industry Technology, 1999, No. 3. S.56-59.
, Creation of composite preparations for starch modification // Izv. universities. Textile Industry Technology, 1999, No. 5. S.46-50.
, Development of a high-frequency method for fixing pigments on cotton fabrics during printing // Izv. universities. Textile Industry Technology, 1999, No. 6. S.53-57.
, New finishing compositions for low-wrinkle finishing of linen-containing fabrics // Izv. universities. Textile Industry Technology, 2000, No. 1. S.61-63.
, Development of technology for the use of forelen for low-wrinkle finishing of flax-containing materials // Izv. universities. Textile Industry Technology, 2000, No. 2. S.61-64.
, Ledneva S.V. Study of the influence of TVV on the state of acid and metal-containing dyes in solution and their dyeing of wool fiber. Izv. universities. Textile Industry Technology, 2000, No. 4. S. 60-64.
, Study of the kinetics of the process of enzymatic washing of printed fabrics // Izv. universities. Textile Industry Technology, 2000, No. 5. S. 60-63.
, Influence of various surfactants on the technological properties of wool-containing fibrous materials // Izv. universities. Textile Industry Technology, 2001, No. 2. S.69-73.
, Influence of surfactants on the process of dyeing cotton fabrics with sulfur dyes // Izv. universities. Textile Industry Technology, 2001, No. 3. S.48-51.
, Effective technology of mercerization of cotton fabrics // Izv. universities. Textile Industry Technology, 2001, No. 4. Pp. 33-36.
, The use of high-frequency heating to intensify the processes of low-wrinkle finishing of cotton fabrics. Izv. universities. Textile Industry Technology, 2001, No. 6. S.41-43.
, Melnikov B.N. The role of the solvation-extraction factor in the decoction of textile material // Izv. universities. Textile Industry Technology, 2002, No. 1. S.55-58.
, ., Intensification of the process of dyeing cotton fabrics with sulfur dyes // Izv. universities. Textile Industry Technology, 2002, No. 1. S.61-65.
, Improvement of the technology of strengthening the colors of textile materials // Izv. universities. Textile Industry Technology, 2002, No. 3. S.52-55.
, The use of liposomal preparations in the processes of peroxide bleaching of textile materials // Izv. universities. Textile Industry Technology, 2002, No. 3. S. 60-64.
, Assessment of washing and wetting properties of nonionic surfactants under conditions of decoction of textile material // Izv. universities. Textile Industry Technology, 2002, No. 6. S.54-57.
, New technology of low-wrinkle finishing of textile materials // Izv. universities. Textile Industry Technology, 2003, No. 1. S.73-76.
, Increasing the resistance of paints to wet treatments when dyeing with water-soluble dyes // Izv. universities. Textile Industry Technology, 2003, No. 2. S.49-51.
, Dyeing of nitrone with cationic dyes under the influence of electric current // Izv. universities. Textile Industry Technology, 2003, No. 3. S.61-63.
, Evaluation of the efficiency of using new generation fire retardants for finishing decorative textile materials // Izv. universities. Textile Industry Technology, 2003, No. 5. P.47-50.
Textile chemistry at the turn of the 20th and 21st centuries // Izv. universities. Technology of the textile industry, 2004, Special issue "175 years of textile education in Russia" (stitched in number 1). S. XVI-XXVI.
, Technological methods of artistic and coloristic design of cotton-polyester fabrics // Izv. universities. Textile Industry Technology, 2004, No. 6. S.52-59.
, The use of new surfactants for strengthening the dyes of fabrics colored with direct dyes // Izv. universities. Textile Industry Technology, 2005, No. 1. S.54-58.
, The use of new TVVs in the processes of printing textile materials with active dyes. Izv. universities. Textile Industry Technology, 2005, No. 3. S.55-57.
, Fire protection of cellulose materials with compositions of phosphorus and nitrogen-containing compounds // Izv. universities. Textile Industry Technology, 2005, No. 5. S.37-42.
, Tsirkina O.G. The mechanism of the activating effect of electromagnetic oscillations on the system fiber-forming polymer - technological composition Izv. universities. Textile Industry Technology, 2005, No. 6. S.47-51.
, Design features of high-frequency applicators for continuous processing of straightened textile materials and the possibility of optimizing their operating modes. Izv. universities. Textile Industry Technology, 2006, No. 2. S.58-61.
, Investigation of the effect of cationic polyelectrolytes on the state of anionic dyes in solution // Izv. universities. Textile Industry Technology, 2006, No. 3. S.58-61.
, Enzymatic technologies for the preparation and modification of linen materials // Izv. universities. Textile industry technology, 2006, No. 6p. S.53-57.
, The use of derivatives of alkylamines in the processes of fixing dyes of textile materials colored with active dyes // Izv. universities. Textile industry technology, 2006, No. 6p. S.68-70.
, Combined technologies of mechanical and biochemical finishing of flax-containing textile materials // Izv. universities. Textile Industry Technology, 2007, No. 1s. S.87-92.
, Features of the energetics of technological processes for the refinement of cellulose-containing tissues in high-frequency / microwave-fields // Izv. universities. Textile Industry Technology, 2007, No. 2. S.57-60.
Progress in textile chemistry for 50 years // Izv. universities. Textile Industry Technology, 2007, No. 6. S.33-47.
, Finishing of cellulose textile materials using Otexid NF // Izv. universities. Textile Industry Technology, 2008, No. 5. S.62-65.
, Problems of the choice of textile auxiliaries for the preparation and washing of textile materials // Izv. universities. Textile Industry Technology, 2009, No. 2.
