TY - JOUR T1 - The Control of Building Composite Structure Formation Through the Use of Multifunctional Modifiers AU - Volodchenko, Aleksandr Anatolevich AU - Lesovik, Valery Stanislavovich AU - Zagorodnjuk, Liliya Hasanovna AU - Volodchenko, Anatoly Nikolaevich AU - Aleksandrovna, Kuprina Anna JO - Research Journal of Applied Sciences VL - 10 IS - 12 SP - 931 EP - 936 PY - 2015 DA - 2001/08/19 SN - 1815-932x DO - rjasci.2015.931.936 UR - https://makhillpublications.co/view-article.php?doi=rjasci.2015.931.936 KW - Inorganic plasticizer KW -clay rocks KW -nanodispersed raw materials KW -heat and humidity treatment KW -structure formation KW -building materials AB - The study of the environmental management, the use of natural and environmentally friendly man-made materials, the introduction of new, modern, energy-efficient and resource-saving technologies at the creation of construction materials is one of the major problems that appeared since, the mid of the XX-th century. The use of non-traditional raw clay as the component of inorganic dispersed systems in the production of construction composites allows you to justify theoretically and confirm experimentally the possibility of controlling the structure formation processes to produce materials with the desired properties by introducing into the raw mass of non-traditional clay rocks for construction industry. Using non-traditional raw clay as inorganic plasticizing systems in construction materials production, the transition from the traditional raw material is possible to obtain the composite materials based on natural multifunctional materials that will speed up the synthesis of new formations change their morphology and optimize the microstructure of cement compounds and thus will improve the performance of products. On the basis of a special clay material used as an organic plasticizer one may obtain efficient, energy-saving highly porous painted wall building materials with low energy consumption. ER -