Анкета автора(ов)
Фамилия, имя, отчество, учёная степень, звание, должность. Полное и сокращённое наименование организации, адрес организации. | Габидуллин М.Г. – доктор технических наук, профессор E-mail: Этот e-mail адрес защищен от спам-ботов, для его просмотра у Вас должен быть включен Javascript Мавлюбердинов А.Р. – кандидат технических наук, доцент Казанский государственный архитектурно-строительный университет Адрес организации: 420043, Россия, г. Казань, ул. Зелёная, д. 1 Габидуллина А.Н. – старший научный сотрудник Институт механики и машиностроения Казанского научного центра РАН Адрес организации: 421101, Россия, г. Казань, ул. Ямашева, д. 82 |
Название статьи. | Разработка требований к основным свойствам пенокерамики |
Аннотация. | Впервые для учета особенностей технологии производства пенокерамики и их взаимосвязи с разработанными базовыми нормативными значениями основных свойств пенокерамики введен «коэффициент технологичности» N, что позволило на основании данных литературного обзора для конструкционных, конструкционно-теплоизоляционных и теплоизоляционных пенокерамических материалов расчетно-графическим методом установить базовые показатели предела прочности при сжатии, представленные в виде номограмм и таблиц. |
Ключевые слова. | Пенокерамика, зависимости, нормативные требования, «коэффициент технологичности», прочность, плотность. |
First name, Middle name, Last name, Scientific degree, Scientific rank, Current position. Full and brief name of the organization, The organization address. | Gabidullin M.G. – doctor of technical sciences, professor Mavlyuberdinov A.R. – candidate of technical sciences, associate professor Kazan State University of Architecture and Engineering The organization address: 420043, Russia, Kazan, Zelenaya st., 1 Gabidullina A.N. – senior researcher Institute of Mechanics and Engineering, Kazan Science Centre The organization address: 421101, Russia, Kazan, Iamasheva st., 82 |
Title of the article | Development of requirements for basic properties of foamed ceramics |
Abstract. | Nowadays, issues of resource and energy consumption in the production and use of construction ceramics is paid much attention. Therefore, in recent years the construction industry of Russia develops and increases the release of effective ceramic wall materials in the form of porous, hollow porous bricks, stones and blocks, with thermal conductivity down to 0,14-0,2 W/m?°C). Greater reduction in thermal conductivity (0,08-0,12) may be achieved by using ceramic foam wall blocks, which are not produced industrially in Russia yet. One reason is the lack of developed scientific and technological bases of their production, as well as the lack of standards, regulating main characteristics of ceramic foam materials. This article attempts to develop the requirements for the values of compressive strength, water absorption and thermal conductivity of foamed ceramics, i.e. to solve the urgent problems of modern materials - to promote diversification of efficient building materials. The dependence of ultimate compressive strength on average density was analyzed on the basis of a number of studies of native and foreign scientists, and was plotted for the range of density of 100 to 1200 kg/m3 using extrapolation, separately for heat-insulating, heat-insulating-and-construction and construction ceramic foam materials. That was necessary, because previously published data didn’t cover all the required range of density values, for example, only 190 to 600 kg/m3, or only 400 to 800 kg/m3. Therefore, extra values were calculated using extrapolation to cover the entire range of the average density of 100 to 1200 kg/m3, typical for heat-insulating, heat-insulating-and-construction and construction ceramic foam materials. Subsequently, new curves, based on calculated data, were obtained with analytical description. For the first time «manufacturability factor» N was introduced, in order to take into account the features of foamed ceramics production technology and their affect on the newly established standard values of foamed ceramics characteristics. That made it possible to determine basic values of the ultimate compressive strength, presented in the form of nomograms and tables, by calculations and graphical method on the basis of literature review of engineering and heat-insulating ceramic foam materials. |
Keywords. | Foamed ceramics, correlations, standards, «manufacturability factor» strength, density. |
Для цитирования: | Габидуллин М.Г., Мавлюбердинов А.Р., Габидуллина А.Н. Разработка требований к основным свойствам пенокерамики // Известия КГАСУ. 2011. №4(18) С.224-232. |
For citations: | Gabidullin M.G., Mavlyuberdinov A.R., Gabidullina A.N. Development of requirements for basic properties of foamed ceramics // Izvestiya KGASU. 2011. №4(18) P.224-232. |