Будівництво та цивільна інженерія

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Перегляд Будівництво та цивільна інженерія за Назва

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  • Документ
    Choice of organization forms for construction of residential objects taking into account interests and abilities of different participants
    (ESI, 2015-03) Tytok, V. V.
    The great value has the choice of organizational forms for construction management at organization of construction production. Choice of any organizational form to perform particular project depends on number of factors: customer`s and investor`s wishes, contractor`s abilities, specific character of construction object.
  • Документ
    Corrosion Resistance of Polyester Powder Coatings Using Fillers of Various Chemical Nature
    (2020) Gots, Vladimir; Lastivka, Oles; Berdnyk, Oksana; Tomin, Oleksandr; Shilyuk, Petro
    In the article the effect of fillers of various chemical nature on the corrosion resistance of polyester powder coatings i terms of flaking widths and corrosion expansion widths in accordance with DSTU ISO 4628-8: 2012 was reviewed. According to the results of studies, the effectiveness of the use of fillers to increase the corrosion resistance of the powder coating varies depending on the average particle size and crystalline form of the filler was found. As a rule, in order to receive a powder coating based decorative coating you should apply only one layer of paint, while liquid coatings require applying several layers; this increases the time of coating production. The powder coating can be easily utilized and recycled, thus the economic feasibility of production increases
  • Документ
    Elements of technology for the surface gipsum composite and its properties, as a facing material
    (ОДАБА, 2022-03) Tarasevych, V. I.; Gasan, Yu. G.
    The paper considers the issues of obtaining a composite material based on gypsum, fly ash and sulfur with improved performance. Regularities of impregnation of a gypsum sol matrix with a sulfur melt are established, taking into account the capillary-porous structure of the gypsum sol stone and the physical and technical properties of sulfur. The conducted studies make it possible to determine the sulfur mass transfer coefficient ams and the maximum sulfur-containing Us in impregnated products, depending on the initial values of the sulfur melt temperature, water-solid ratio and fly ash content. This allows to determine quickly and effectively the duration of impregnation to a given sulfur content for a specific composition and size of gypsum products. Technological factors influencing the hardening coefficient, water resistance and chemical resistance of gypsum ash products impregnated in sulfur melt have been studied. An analysis of the results shows that the strength of samples impregnated with sulfur increases while the degree of filling of the pore space with it is increasing. So, with increase in the relative sulfur content (v = Us / Usmax) from 0.30 to 0.90, the compressive strength increases from 10.1 to 42 MPa. It has been established that water resistance of the impregnated samples significantly depends on the degree of impregnation and the amount of fly ash. The experiments carried out give reason to believe that the material based on gypsum, ash and sulfur refers to waterproof materials, since the softening coefficient is higher than 0.7. It has been established that gypsum and gypsum samples impregnated with sulfur melt have a chemical resistance coefficient of at least 0.7, which allows them to be classified as chemically resistant. The resulting sulfur-gypsum composite is distinguished by high strength, water and corrosion resistance to aggressive environments of livestock complexes, food and chemical industries, where it should be used in the form of special facing products. В роботі розглянуті питання отримання композиційного матеріалу на основі гіпсу, золи-виносу та сірки з підвищеними експлуатаційними характеристиками. Встановлено закономірності просочення гіпсозольної матриці розплавом сірки з урахуванням капілярнопористої структури гіпсозольного каменю та фізико-технічних властивостей сірки. Проведені дослідження дозволяють визначати коефіцієнт масопереносу сірки ams та максимального сірковмісту Us у просочених виробах, залежно від вихідних значень температури розплаву сірки, водотвердого відношення та вмісту золи-виносу. Це дозволяє ефективно та оперативно визначати тривалість просочення до заданого вмісту сірки для конкретного складу та розміру гіпсозольних виробів. Досліджено технологічні фактори, що впливають на коефіцієнт зміцнення, водостійкість та хімічну стійкість гіпсозольних виробів, просочених у розплаві сірки. Аналіз результатів показує, що міцність просочених сіркою зразків підвищується зі збільшенням рівня заповнення нею порового простору. Так, при збільшенні відносного вмісту сірки (v= Us/Usmax) з 0,30 до 0,90 межа міцності при стисканні підвищується з 10,1 до 42 МПа. Встановлено, що водостійкість просочених зразків істотно залежить від ступеня просочення та кількості золивинесення. Проведені експерименти дають підставу вважати, що матеріал на основі гіпсу, золи та сірки відноситься до водостійких матеріалів, оскільки коефіцієнт розм'якшення вище 0,7. Встановлено, що гіпсові та гіпсозольні зразки, просочені розплавом сірки, мають коефіцієнт хімічної стійкості не менше 0,7, це дозволяє віднести їх до хімічно стійких. Отриманий сіркогіпсовий композит відрізняється високою міцністю, водо- та корозійною стійкістю до агресивних середовищ тваринницьких комплексів, підприємств харчової та хімічної промисловості, де його слід використовувати у вигляді спеціальних облицювальних виробів. Ключові слова: сірка, гіпс, зола, водостійкість, хімічна стійкість, розплав сірки.
  • Документ
    Features of quantitative measurements of the dynamic module of elasticity of binders in optimization of production technology serogypsum composite
    (ОДАБА, 2021-06) Tarasevych, V. I.; Gasan, Yu. G.; Dolgoshey, V. B.
    The paper considers the issues of studying the structure formation of binders during hardening to determine the optimal moments of mechanical action on gypsum concrete specimens, which makes it possible to optimize the technology of their impregnation with sulfur melt. The time dependence of the elastic modulus of a hardening, binder is its important physicochemical characteristic, since it is used to objectively identify the stages of structure formation, to simulate the processes occurring at each of the stages. It is noted that the method of acoustic resonance of bending vibrations, in the case of hardening binders, needs correction with respect to the measurement technique and interpretation of the results obtained. The kinetics of the resonance frequency of a sample consisting of a rigid cell and a dispersion poured into it is a function of the elastic properties of the cell, the dispersion itself, the contact zone of the dispersion with cell and therefore cannot be used for either qualitative or quantitative analysis of the kinetics of hardening. Taking into account the elasticity of cuvette is necessary to obtain reliable information. В роботі розглянуті питання дослідження структуроутворення в’яжучих в процесі тверднення для визначення оптимальних моментів механічної дії на гіпсобетонні зразки, що дозволяє оптимізувати технологію їх просочування розплавом сірки. Часова залежність модуля пружності твердіючого в’яжучого є його важливою фізико-хімічною характеристикою, оскільки вона використовується для об’єктивного виділення етапів структуроутворення, моделювання процесів, що протікають на кожному з етапів. Відмічається, що метод акустичного резонансу, у випадку твердіючих в’яжучих, потребує корекції відносно методики вимірювань та трактовки отриманих результатів. Кінетика резонансної частоти зразка, що складається з жорсткої кювети і залитої в неї дисперсії, є функцією пружних властивостей кювети, самої дисперсії, зони контакту дисперсії з кюветою і тому не може бути використана ні для якісного, ні для кількісного аналізу кінетики твердіння. Врахування пружності кювети є необхідним для отримання достовірної інформації.
  • Документ
    Improving the energy efficiency of translucent structures with using of special purpose glasses
    (Харків: ХНУБА, 2020-05) Pushkarova, Katerina; Kochevykh, Maryna; Honchar, Olha
    Ensuring the energy efficiency of translucent glass structures, including windows, balcony doors, storefronts used in buildings and structures, provides for minimal total energy costs not only for heating, but also for the conditioning and lighting of the premises. Modern translucent structures are represented mainly by doubleglazed windows, in the application of which heat losses are reduced due to the improvement of the window design and the use of new materials. Double-glazed windows should allow the maximum amount of light to be transmitted and at the same time minimally affect energy consumption for heating or cooling the room. The use of special-purpose glass allows to obtain a modern double-glazed window with different functional characteristics.
  • Документ
    Innovative building materials in creation an architectural environment
    (ХНУБА, 2020-05) Abyzov, Vadim; Pushkarova, Katerina; Kochevykh, Maryna; Honchar, Olha; Bazeliuk, Natalia
    Progressive building materials and technologies can ensure not only the durability of buildings and structures that are operated in difficult conditions and the consumption of a minimum amount of energy with little impact on the environment, but also will contribute to the creation of an effective and harmonious architectural environment in accordance with the requirements of sustainable development. An important role in solving these problems is assigned to recycled (reusable materials); traditional natural and local building materials that due to technical progress have gained new prospects for use in modern environmental and energy-efficient structures and buildings (“old-new” natural materials); nanomaterials and nanotechnologies, the use of which will not only improve the quality and properties of materials, and, accordingly, the environment, but also create completely new materials and architectural solutions with a set of properties. The purpose of this study is generalization, systematization and examination of these innovative materials and products.
  • Документ
    INVESTIGATION OF PROPERTIES OF MODIFIED BASALT FIBERS
    (2018) Gots, Volodymyr; Palchyk, Petr; Berdnyk, Oksana
    Thermophysical, physical-mechanical and acoustic characteristics of a rough continuous basalt fiber under the influence of operating factors and a corrosive environment are studied. It is shown that the production of protective materials with high thermophysical and acoustic properties is possible when creating a porous system with a known texture characteristic of pores of different classes, purposes and connections. An influence of the porous system of rough continuous basalt fiber on the operational properties of flexible heat and sound insulation products and materials is studied. The requirements of normative documents on thermal protection of buildings and structures have caused a constant tendency from the creation of new materials that ensure reliable operation of structures and equipment in the conditions of intensive influence of destructive factors of external influence. This led to an increase in requirements for walling wall materials that are used to fill openings in frame construction, or as an independent structural and thermal insulation material when building buildings with load-bearing walls. They are presented with a set of requirements that combines: physical and mechanical, chemical, hygienic, thermophysical, decorative and finishing, and other properties of the material. In this connection, there is a need to create materials that, having a small average density and high strength, are able to withstand the temperature loads, and the influence of an aggressive environment. It is determined that the performance characteristics of flexible heat and sound insulation materials are directly proportional to the degree of porosity of the composite materials and their structural characteristics. It is shown that the increase in the operating temperature of these materials, sound and thermal resistance is determined by the chemical and mineralogical composition of the initial materials and their structural characteristics. The influence of the mechanism of selective leaching of coarse continuous basalt fibers on their texture characteristics and the operating temperature zone is studied. The resulting material is produced from environmentally friendly raw materials using a one-stage technology without harmful effects on the environment and, unlike thermal insulation materials based on polymers or asbestos, has no harmful effect on the human body, meets the requirements of the European Union for the protection of the environment and sanitary and hygienic standards.
  • Документ
    Modeling of thermal conductivity of reed products
    (2020) Tsapko, Yu.; Tsapko, A.; Bondarenkо, O.
    The present work researches processes of heat transfer by samples of mats manufactured from reed. Due to the unique properties of the reed, such as medium density, low thermal conductivity, relatively high weather resistance, high chemical resistance, possibility to produce parts on-site, cost-effectiveness and others, reed products are widely used in building construction despite the high rate of development of new technologies. The mechanisms of heat insulation in the result of energy transfer through the material are established, which makes it possible to influence this process. It is proven, that the mechanisms are conditioned upon the increased porosity of the material. Thus, decreasing volume weight results in decreasing thermal conductivity, and vice versa. The simulation of the heat transfer process with the flameproof coating is carried out, the dependencies of the thermophysical coefficients on the temperature are determined. Based on the obtained dependencies, the coefficient of thermal conductivity for the products made of dry pine wood is calculated and makes 0.056 W / (m · K). Features of slowing down the process of heat transfer to material made of wood wool and glue binding agent with the formation of pores were studied. This is explained by the fact that there is no movement of air in large pores, accompanied by heat transfer. Thus, there are grounds to argue for the possibility of directed regulation of the processes of the formation of thermal insulation products using the reeds characterized by voids in the stems.
  • Документ
    Processes of structure formation and neoformation of basalt fiber in an alkaline environment
    (IOP, 2020) Berdnyk, O. Yu.; Lastivka, O. V.; Maystrenko, A. A.; Amelina, N. O.
    Several approaches can be used to determine the effect of an alkaline environment on glass materials (basalt fibers). One of the most common approaches for the determination of the alkali resistance of a substance is to measure the relative mass loss after the interaction of the object of research with the alkaline environment. According to the practice guidelines, the approach involves determining the alkali resistance of a glass by measuring the mass loss per unit area of the glass under test after boiling it in an alkaline solution. But the disadvantage of this approach is it can’t be applied to basalt or another multicomponent fiberglass as it doesn’t introduce different speeds of fiber dissolution.
  • Документ
    Processes of structure formation and neoformation of basalt fiber in an alkaline environment
    (IOP Publishing, 2020) Berdnyk, O. Yu.; Lastivka, O. V.; Maystrenko, A. A.; Amelina, N. O.
    Several approaches can be used to determine the effect of an alkaline environment on glass materials (basalt fibers). One of the most common approaches for the determination of the alkali resistance of a substance is to measure the relative mass loss after the interaction of the object of research with the alkaline environment. According to the practice guidelines, the approach involves determining the alkali resistance of a glass by measuring the mass loss per unit area of the glass under test after boiling it in an alkaline solution. But the disadvantage of this approach is it can’t be applied to basalt or another multicomponent fiberglass as it doesn’t introduce different speeds of fiber dissolution.
  • Документ
    Production of modified basalt fibre for heat-insulating products manufacturing
    (IOP Publishing, 2019) Gots, V. I.; Berdnyk, O.Y.; Rogozina, N. O.; Maystrenko, А. А.
    As a result of the research flexible heat-insulating materials were developed based on basalt fiber with increased effectiveness, which can be achieved due to directed fiber microstructure forming through fusion modification. It is known that chemical composition of initial fusion not identically influences on physical and chemical and mechanical properties of basaltic fibres. Structural descriptions of fusion and basaltic fibre got from him appear main factors the nearer, than high speed of cooling. This index mainly depends on such constituents: а) ambient temperatures; b) coefficient of heat conducting; c) heat conducting of fusion; d) areas of surface. By researches influence of temperature of basaltic fusion was shown on the structure of fibres. Structural characteristics of the basalt fiber (number of active zones, coefficient of its distribution on the basalt fiber surface, as well as a correlation of three groups of active zones) depend on rheological properties of basal fusion, speed of drawing through the die plate and cooling speed.
  • Документ
    Radiation protective properties of fine-grained concretes and their radiation resistance
    (Харків: ХНУБА, 2020-05) Anopko, Dmitro; Honchar, Olha; Kochevykh, Maryna; Kushnierova, Lilia
    Many years of world experience in the selection of materials for radiation protection shows that concrete is the main material. It can combine heavy components to protect against gamma radiation and light components to absorb neutron fluxes. This fact, as well as manufacturability, low price and the possibility of using local materials, have determined the widespread use of concrete for protection against radioactive radiation.
  • Документ
    The influence of technological factors on the properties of basalt fiber when used in the manufacture of flexible heat and sound insulating products
    (Proceedings of the 3rd Annual Conference “Technology transfer: fundamental principle and innovative technical solutions”. Tallin, Estonia, 2019) Berdnyk, Oksana
    Analysis of energy efficiency and operational safety of technological equipment of industrial enterprises, engineering networks, buildings and structures, building structures in many sectors of the economy, including the housing and industrial sectors, causes interest in the use of high-tech, environmentally friendly heat and sound insulation materials with enhanced performance properties. One of the relevant representatives of these materials is basalt fibers and their use as raw materials in the production of flexible heat and sound insulating products. It is known that the chemical composition of the initial melt equally affects the physicochemical and mechanical properties of basalt fibers. The main influence factors, including the chemical composition, are the thermal past of the melt, the method for producing basalt fiber and the conditions for the formation of its structure. These factors determine the structural characteristics of the fiber and, as a consequence, its physicochemical characteristics. The degree of fiber strength is directly determined by its chemical composition and production method. The greatest strength of the fiber is obtained by ensuring the perfect fiber structure in the absence of ruptures of siliceous chains
  • Документ
    The role of the crystallo-chemical factor in the evaluation and improvement of the nanomodification efficiency of mortar and concrete
    (2019-12) Pushkarova, Katerina; Gonchar, Olga; Kaverin, Konstantin
    The article presents a new approach to the control of the processes of structure formation of binder systems, taking into account the achievements of nanotechnologies. The possibilities of managing the structure of the material at the nanoscale and the micro-level by introducing primary nanoscale additives or forming nanoscale objects in the bulk of the material are considered. The peculiarities of contact zone formation and microstructure of artificial stone based on nanomodified Portland cement and alkaline binder systems are investigated. The role of the crystallo-chemical factor and its influence on the strength formation of all levels of concrete structure are shown. It is proved that when using micro silica modifying additives, their efficiency at the micro level is higher than at the meso- and macrolevels. At the same time, the modification of the binding systems by artificial zeolites provides a more pronounced effect in concrete at the macro-level – due to the crystallo-chemical similarity of additives, products of hydration and minerals of the aggregate. Taking into account the crystal-chemical similarity of the new formation opens new possibilities for the choice of nano additives, considering not only the principle and nature of their action at the level of nanoscale and microstructure, but also the influence on the peculiarities of the formation of the contact zone at the meso- and macro-levels, which will have a decisive influence not only on the strength, but also on the special properties of concrete.
  • Документ
    The role of the crystallo-chemical factor in the evaluation and improvement of the nanomodification efficiency of mortar and concrete
    (IOP Conference Series: Materials Science and Engineering, 2019-12) Pushkarova, Katerina; Gonchar, Olga; Kaverin, Konstantin
    The article presents a new approach to the control of the processes of structure formation of binder systems, taking into account the achievements of nanotechnologies. The possibilities of managing the structure of the material at the nanoscale and the micro-level by introducing primary nanoscale additives or forming nanoscale objects in the bulk of the material are considered. The peculiarities of contact zone formation and microstructure of artificial stone based on nanomodified Portland cement and alkaline binder systems are investigated. The role of the crystallo-chemical factor and its influence on the strength formation of all levels of concrete structure are shown. It is proved that when using micro silica modifying additives, their efficiency at the micro level is higher than at the meso- and macrolevels. At the same time, the modification of the binding systems by artificial zeolites provides a more pronounced effect in concrete at the macro-level – due to the crystallo-chemical similarity of additives, products of hydration and minerals of the aggregate. Taking into account the crystal-chemical similarity of the new formation opens new possibilities for the choice of nano additives, considering not only the principle and nature of their action at the level of nanoscale and microstructure, but also the influence on the peculiarities of the formation of the contact zone at the meso- and macro-levels, which will have a decisive influence not only on the strength, but also on the special properties of concrete.
  • Документ
    Адаптація житлового фонду до вимог маломобільних груп населення
    (Ліра-К, 2019-03-27) Титок, В. В.; Мішкіна, Р. І.
    Створення гармонійного, здорового і комфортабельного життєвого простору стає альтернативою процесам урбанізації. За останні роки все більше уваги приділяється озелененню міст, розширенню паркових зон, зростає значення ландшафтної архітектури в містобудуванні. У зв'язку з останніми тенденціями розвитку міського простору все більше приділяється уваги соціальній інтеграції людей з обмеженими можливостями.
  • Документ
    Визначення тривалості процесу монтажу та демонтажу опалубки за методом цілочисленного нормування
    (НДІБВ, 2020-02-06) Тонкачеєв, Геннадій Миколайович; Тонкачеєв, Віталій Геннадійович
    Матеріал статті ґрунтується на теоретичному аналізі та досвіді нормування процесів зведення будівель і споруд. Особлива увага приділяється проблемі вибору конструкцій опалубних систем для оптимізації процесів влаштування монолітних конструкцій каркасних багатоповерхових будівель. На відміну від існуючих методик, які не дають можливість порівняння опалубних систем, запропоновано тривалість монтажу та демонтажу опалубок визначати за методом цілочисленного нормування, який передбачає тривалість виконання дій по встановленню і закріпленню складових елементів опалубки, встановлювати цілими числами в залежності від кількості переміщень елементів опалубки і ступеня відповідальності за точністю і надійністю з’єднань. Новий підхід до визначення тривалості цілочисленним методом вирішує проблему при виборі опалубних систем.
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    Використання 3D BIM-інформаційного моделювання при проєктуванні, розрахунках та конструюванні металевих конструкцій
    (Одеська державна академія будівництва та архітектури, 2021) Адаменко, В. М.
    Активний розвиток інформаційних технологій, зокрема 3D BIM-інформаційного моделювання будівель, дозволяє вивести процеси проєктування, розрахунку та конструювання металевих конструкцій принципово на інший рівень. Створення 3D інформаційної моделі у інтуїтивно зручному середовищі, узгодження різних розділів проєкту між собою за рахунок використання єдиної інформаційної моделі, та відповідно зменшення кількості проєктних помилок, імпорт збережених моделей практично із будь-яких розрахункових систем, їх розрахунок та підбір перерізів, виконання конструювання та деталізації вузлів в 3D просторі, автоматичне формування специфікацій та необхідних видів при компонуванні креслень, зменшення об'єму переробок при внесенні змін, ось далеко не повний перелік переваг при роботі з 3D BIM-інформаційними системами.
  • Документ
    Використання відходів теплоенергетики для отримання композиційних в´яжучих систем
    (ЧНТУ, 2019-05-16) Гончар, Ольга
    Проблема переробки відходів теплоенергетики на сьогоднішній день стоїть дуже гостро, незважаючи на перехід сучасних теплових електростанцій (ТЕС) на безвідходне газове виробництво. Одним з найбільш ефективних рішень цієї проблеми є використання золи при виробництві різних видів будівельних матеріалів, зокрема, відомо широке використання золи як компоненту неорганічних в‘яжучих речовин, як добавки до бетонів.
  • Документ
    Вплив наповнювачів на корозійну стійкість поліефірних порошкових покриттів
    (2020) Гоц, В. І.; Ластівка, О. В.; Бердник, О. Ю.; Шилюк, П. С.; Томін, О. О.
    According to the results of studies, the effectiveness of the use of fillers to increase the corrosion resistance of the powder coating varies depending on the average particle size and crystalline form of the filler was found. As a rule, in order to receive a powder coating based decorative coating you should apply only one layer of paint, while liquid coatings require applying several layers; this increases the time of coating production. The powder coating can be easily utilized and recycled, thus the economic feasibility of production increases.