"Вестник МГСУ"

The article examines the modern monographs on fracture mechanics, strength, durability and crack resistance of building materials of the following European authors: Zaitsev U.V., Leonovich S.N., Schneider U., Eberhardshtayner E. The article presents the biographical data about the authors, their achievements in education and science, as well as the summary and analysis of the considered monographs.In the book of Zaitsev and Leonovich "The Strength and Durability of Structural Materials with Crack" the authors state, that the increase in reliability and durability of building structures and reinforced concrete structures the same as increase in concrete strength and optimization of its nonrigid features is one of the ways of solving urgent problems in the field of construction.The authors of the monograph "Structure, Strength and Fracture Mechanics of Concrete under Biaxial and Triaxial Compression" present the results of experimental and theoretical studies of the behavior of the common, extra strong, centrifugalled concretes and haydite concrete of various structures.In the monograph "Strength and Fracture Toughness of Structural Building Materials under Complex Stress State" the results of experimental and theoretical studies of the wood and concrete of various structures behavior under Biaxial and Triaxial Compression are presented.The monographs are destined for postgraduate students, candidates for a doctor's degree, scientific and engineering-technical workers of scientific and research centers and engineering companies.

Let be an orthonormalized polynomial system of n degree: , where is a weight function in the interval (-1,1), constants ; and is the Kronecker symbol. For every function we consider the Fourier-Sobolev series:
.
By virtue of the T-regular triangular matrix of real numbers we form the sequence of -means .
Some results of convergence and -summability (uniformly and almost everywhere) of Fourier-Sobolev series for polynomials orthogonal in continual-discrete Sobolev spaces are provided in the paper. These results expand and generalize the corresponding statements made by Fourier, Gegenbauer and Sobolev.

Due to wide implementation of enveloping structures with increased heat-insulation properties in modern construction here appeared a necessity to assess their moisture conditions. Assessment of moisture conditions of enveloping structures is carried out according to maximum allowable moisture state basing on determining the surface of maximum damping. In relation to it the necessity of additional vapour barrier is checked using moisture balance equation. Though the change of indoor climate parameters in premises is not taken into account in moisture balance equations defined for different seasons. The author improves the method of calculating moisture protective parameters of enclosing structures according to the maximum allowable damping state for a year and a period of moisture accumulation. It is shown in this article that accounting of temperature and relative humidity change of inside air allows specifying calculated parameters of indoor climate in residential and office rooms in assessment of moisture protective properties of enclosing structures for the case of an effective enclosing structure with a façade heat-insulation composite system. Coordinates of the maximum moistened surface of the envelope depends on indoor climate design parameters. It is concluded that the increase of requirements for moisture protection of enclosing structures when using design values of temperature and relative humidity of internal air according to the Russian regulation (SP 50.13330.2012) is not always reasonable. Accounting of changes of indoor climate parameters allows more precise assessment of moisture protective properties of enclosing structures during their design.