"Вестник МГСУ"

The authors argue that bearing walls of buildings that have up to four stories can be designed and made of small cellular concrete blocks. These walls demonstrate advantages specific to solid masonry walls. For example, they have high water vapor permeability. Whenever the internal humidity increases, half of the moisture content can be extracted from the masonry due to the water vapour permeability of external walls, while the other half of the moisture content can go back into the room (due to the sorption capacity of the wall material). Furthermore, any lower density wall material has smaller heat absorption capacity to ensure a comfortable environment.The application of small cellular concrete blocks as a wall material is an alternative to thoroughly insulated multi-layer external walls. The authors present options of structural solutions of external walls of buildings.It is noteworthy that due to the relatively low strength of cellular concrete, walls have a low bearing capacity. Cellular concretes are brittle.Control tests of small cellular concrete blocks made in the natural environment do not always prove the desired compressive strength. In addition, strength properties of small cellular concrete wall blocks may vary. The authors present their findings in terms of their examination of the technical condition of mid-rise buildings that have walls made of small cellular concrete blocks. The authors consider the reasons for the defects of walls made of small cellular concrete blocks.

Upon examination of eleven main buildings of power plants, analysis of defects and damages of building structures was performed. Thereafter, the damageability of principal bearing structures of main buildings of thermal plants was analyzed. It was identified that the fastest growing defects and damages were concentrated in the structures of operating sites. The research of the rate of development of the most frequent damages and defects made it possible to conclude that internal corrosion of the reinforcing steel was the most dangerous defect, as far as the reinforced concrete elements of operating sites were concerned. Methods of mathematical statistics were applied to identify the reinforcing steel development pattern inside reinforced concrete elements of floors of operating sites. It was identified that the probability of corrosion of reinforced concrete elements of operating sites was distributed in accordance with the demonstrative law. Based on these data, calculation of strength of reinforced concrete slabs and metal beams was performed in terms of their regular sections, given the natural loads and the realistic condition of structures. As a result, dependence between the bearing capacity reserve ratio and the corrosion development pattern was identified for reinforced concrete slabs and metal beams of operating sites. In order to analyze the sufficiency of the bearing capacity of building structures of operating sites in relation to their time in commission, equations were derived to identify the nature of dependence between the sufficiency of the bearing capacity of reinforced concrete slabs and metal beams of the operating sites and their time in commission.

Industrial and civil buildings and other construction objects during operation are subject to force and environmental impacts influencing their structural and technological parameters. Operational integrity of buildings greatly depends on crack-resistance of roof coatings. In this relation the search for new technological solutions for choosing optimal compositions and components is an important and current scientific task. Labor intensity of repair technology and absence of objective assessment method of coating state lead to crack formation and rapid wear. The authors examined mastics properties influencing crack resistance of roof coatings and waterproof coverings made of water-emulsion bitumen mastics and established the dependence of crack-resistance of coatings made of water-emulsion bitumen mastics from the type of powdered filler-emulsifier. The results of the work show that crack resistance of roof mastic coatings increases when using asphalt-claydite mixture as coupling, which is made of bitumen emulsion with high roughness of coupling surface.

The co-authors discuss the statistical analysis results of the atmospheric transparency evolution in Moscow territory within the last 35 years. The analysis shows the statistical increase of the global warming impact on the growing daily average visibility or the atmospheric transparency. The article presents statistical regularities of the risk increase of the atmosphere transparency deviations from its multiyear averages. The article notes the impact of atmospheric transparency on the risk of the increase in the weather anomalies, roof icing, as well as icing of power supply systems and communication, roads, bridges and other transport construction objects. It is also noted that the increase in temperature fluctuations amplitude, humidity, rainfall and other climatic loads leads to accelerated deterioration of building structures. The average increase in the number of atmospheric high transparency realizations increased almost 1.5 times for the last 35 years.If the trend persists for the current urban planning period (e.g., 100 years), the3,37 times increase in the number of days with high transparency is very realistic. The increase in atmosphere transparency will be accompanied by the concomitant rise of temperature, humidity, precipitation and wind speed oscillations.With the increasing duration of windless seasons we should also expect the concomitant growing risks of dry, hot and fire seasons. Such a global climate change process is of great importance for investors, self-regulatory organizations, owners of construction objects, managing and energy companies and insurers. It is also essential for municipal, regional and Federal urban planning companies.This problem in Russia and abroad is significantly intensified by previously unexpected growth of hazardous man-made and natural, climatic, geological and geophysical processes. These factors cause new and, as a result, non-normalized loads and impacts on buildings, structures and geoecological systems of the urbanized territories, which are beyond the project. In addition to the statistical data analysis of the Moscow atmospheric transparency evolution the authors also performed similar research on daily average visibility in different locations and on different continents.Such studies have been conducted by the authors in such cities as New-York, Anchorage, Buenos Aires, Niamey, London, Tokyo, Canberra and other cities of the planet. The analysis of geographical manifestations of atmosphere transparency evolution as a result of global climate change showed that the daily average visibility evolution observed in Moscow is of global nature. These results will be published by the authors in the coming series of articles on the subject.Global warming creates the problems of food security, urban population sustainment and construction adaptation to the new climatic realities in long perspective of urban planning. Solar radiation effect on the structures of buildings are among the most important climatic loads, which are taken into account in the regulations in the process of buildings and structures design.However, the excising regulatory documents contain no data about the evolution of solar irradiation over the building constructions throughout the buildings life cycle as a result of the continuing global warming. This remark also refers to the radiation intensity change as a result of the transparency or daily average visibility evolution.

In article problems of maintenance of fire safety of buildings in the conditions of transition of control functions behind quality of civil work to the self-regulation organizations are considered. Recommendations about overcoming of arising problems are given.

The authors provide solutions to the relevant issue of development and construction of
foundations resting on a sliding layer as a method of external seismic protection of buildings and
structures. The authors have developed a system of automated operating control over the external
seismic protection of buildings (structures) that represents an automatic switch of the emergencylevel
seismic load. The authors have filed an application for the registration of their invention. The
proposed solution has everything in place to be widely applied to improve the seismic protection of
buildings and structures, especially those resting on problematic soils.
The authors provide their description of a paradox of foundations: foundations are analyzed
in terms of "upside-down" loads, whereas seismic loads have an opposite direction. The authors
provide their solutions to this problem.
The authors argue that methods of seismic protection incorporated into effective regulations
are limited, and they do not constitute any external seismic protection methods, whereas the
application of seismic isolation inside buildings is unreasonable, as it is limited by the requirement
to install it "above the foundation". Presently, the above methods are being reworked into foundation
platforms resting on a sliding layer. Their efficiency has been proven by a computerized model and
a theoretical analysis.
The authors also provide their argumentation in favour of the conclusion that relevant seismic
protection development trends are to incorporate advanced structural solutions, including methods
of external seismic protection.

Introduction. An approach to the development of the organizational-technological model of the life cycle of a medical facility building is presented. Buildings of medical organizations have a number of features in the design, construction and operation. The buildings of nuclear medicine are subject to particularly high requirements of radiation and fire safety. Materials and methods. To organize the design, construction and maintenance of medical buildings, it is advisable to create and develop an organizational and technological model of the medical building life cycle. Such model was created by the author in the form of a business processes sequence. Confirmation of the effectiveness of the model is carried out with the help of multi-criteria expert evaluation. Results. To solve this problem, it is proposed a number of changes in the order of the investment project carrying. A new element is the Preliminary justification of the requirements for the health facility. It should become a mandatory document when obtaining a town-planning plan of the ground area, which is in Russia a de facto permission to design. It is also proposed to prepare technical requirements of three levels. The first level requirements are used for pre-design stage procedures. The requirements of the second level are included in the medical and technical design assignment. The requirements of the third level are applied to the detailed design, as well as to the construction and maintenance of the facility. Requirements are included in the requirement system and must be checked at key stages of the project. At the preliminary project phase, it is also advisable to make a technical and economic calculation with the justification of the main technical solutions and technical and economic indicators. This document should also include a project management plan. New elements are included in organizational and technological models of different stages of the object life cycle. Conclusions. On the basis of the developed model, it is proposed to make adjustments to the normative guideline used in the construction management. For example, it is necessary to make mandatory documents of the pre-design stage. These works have to be paid by investor therefore the standard of design cost has to be increased.