Classification of building materials and their main properties and methods of determination. Building materials Building materials and their use

Building materials and products are classified according to the degree of readiness, origin, purpose and technological features.

According to the degree of readiness, the actual building materials and building products are distinguished - finished products and elements mounted and fixed at the place of work. Building materials include wood, metals, cement, concrete, bricks, sand, mortars for masonry and various plasters, paints and varnishes, natural stones, etc.

Building products are prefabricated reinforced concrete panels and structures, window and door blocks, sanitary ware and cabins, etc. Unlike products, building materials are processed before use - they are mixed with water, compacted, sawn, tashed, etc.

By origin, building materials are divided into natural and artificial.

natural materials- these are wood, rocks (natural stones), peat, natural bitumen and asphalts, etc. These materials are obtained from natural raw materials by simple processing without changing their original structure and chemical composition.

To artificial materials include brick, cement, reinforced concrete, glass, etc. They are obtained from natural and artificial raw materials, by-products of industry and agriculture using special technologies. Artificial materials differ from the original raw materials both in structure and in chemical composition, which is due to its radical processing in the factory.

The most widely used classifications of materials according to purpose and technological feature.

According to the purpose, the materials are divided into the following groups:

construction materials- materials that perceive and transmit loads in building structures;

thermal insulation materials, the main purpose of which is to minimize the transfer of heat through the building structure and thereby ensure the necessary thermal conditions in the room with minimal energy consumption;

acoustic materials(sound-absorbing and sound-proof materials) - to reduce the level of "noise pollution" of the room;

waterproofing and roofing materials- to create waterproof layers on roofs, underground structures and other structures that need to be protected from the effects of water or water vapor;

sealing materials- for sealing joints in prefabricated structures;

Decoration Materials- to improve the decorative qualities of building structures, as well as to protect structural, heat-insulating and other materials from external influences;

special purpose materials(for example, refractory or acid-resistant), used in the construction of special structures.

A number of materials (for example, cement, lime, wood) cannot be attributed to any one group, since they are used both in their pure form and as raw materials for the production of other building materials and products. These are the so-called general purpose materials. The difficulty of classifying building materials by purpose is that the same materials can be assigned to different groups. For example, concrete is mainly used as a structural material, but some of its types have a completely different purpose: especially lightweight concretes are a heat-insulating material; especially heavy concretes - a special-purpose material that is used to protect against radioactive radiation. .

According to the technological basis, materials are divided into the following groups, taking into account the type of raw material from which the material is obtained and the type of its manufacture:

Natural stone materials and products- obtained from rocks by their processing: wall blocks and stones, facing slabs, architectural details, rubble stone for foundations, crushed stone, gravel, sand, etc.

Ceramic materials and products- obtained from clay with additives by molding, drying and firing: bricks, ceramic blocks and stones, tiles, pipes, faience and porcelain products, facing and floor tiles, expanded clay (artificial gravel for lightweight concrete), etc.

Glass and other materials and products from mineral melts- window and facing glass, glass blocks, profiled glass (for fencing), tiles, pipes, glass-ceramic and slag-glass products, stone casting.

Inorganic binders- mineral materials, mostly powdery, forming a plastic body when mixed with water, acquiring a stone-like state over time: cements of various types, lime, gypsum binders, etc.

concretes- artificial stone materials obtained from a mixture of binder, water, fine and coarse aggregates. Reinforced concrete is called reinforced concrete, it resists well not only compression, but also bending and stretching.

Mortars- artificial stone materials, consisting of a binder, water and fine aggregates, which eventually pass from a pasty to a stone-like state.

Artificial non-fired stone materials- obtained on the basis of inorganic binders and various aggregates: silicate brick, gypsum and gypsum concrete products, asbestos-cement products and structures, silicate concretes.

Organic binders and materials based on them- bituminous and tar binders, roofing and waterproofing materials: roofing felt, glassine, isol, brizol, hydroisol, roofing felt, adhesive mastics, asphalt concretes and mortars.

Polymer materials and products- a group of materials obtained on the basis of synthetic polymers (thermoplastic non-thermosetting resins): linoleums, relin, synthetic carpet materials, tiles, wood-laminated plastics, fiberglass, foam plastics, foam plastics, honeycomb plastics, etc.

Wood materials and products- obtained as a result of mechanical processing of wood: roundwood, sawn timber, blanks for various joinery products, parquet, plywood, skirting boards, handrails, door and window blocks, glued structures.

metal materials- the most widely used in construction ferrous metals (steel and cast iron), rolled steel (I-beams, channels, angles), metal alloys, especially aluminum.

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Ministry of Agriculture of the Russian Federation

Department of Science and Technology Policy and Education

Federal State Educational Institution

higher professional education

"Krasnoyarsk State Agrarian University"

Department of Mechanical Engineering Technology

abstract

Construction Materials

Work plan

building material stone production

1. The main types of building materials, their classification and applications in construction

A wide variety of materials are used in construction. According to the purpose, building materials are usually divided into the following groups:

- binding building materials (air binders, hydraulic binders). This group includes various types of cements, lime, gypsum;

l wall materials - enclosing structures. This group includes natural stone materials, ceramic and silicate bricks, concrete, gypsum and asbestos-cement panels and blocks, enclosing structures made of glass and silicate cellular and dense concrete, panels and blocks made of reinforced concrete;

l finishing materials and products - ceramic products, as well as products made of architectural and building glass, gypsum, cement, products based on polymers, natural finishing stones;

l heat and sound insulating materials and products - materials and products based on mineral fibers, glass, gypsum, silicate binder and polymers;

l waterproofing and roofing materials - materials and products based on polymer, bitumen and other binders, asbestos-cement slate and tiles;

l sealing - in the form of mastics, bundles and gaskets for sealing joints in prefabricated structures;

b aggregates for concrete - natural, from sedimentary and igneous rocks in the form of sand and crushed stone (gravel), and artificial porous;

l piece sanitary ware and pipes - from metals, ceramics, porcelain, glass, asbestos cement, polymers, reinforced concrete, various plastics.

The classification of building materials according to their purpose allows you to identify the most effective materials, determine their interchangeability, and then correctly balance the production and consumption of materials.

According to the type of raw materials, building materials are divided into:

– Natural;

– Artificial;

– Mineral;

– Organic;

The main directions for the use of natural materials:

1. Facing of buildings and engineering structures (embankments, bridges, etc.), erection of building walls, flooring and stairs, use as aggregates for concrete and mortar, as well as in road and hydraulic engineering construction.

2. Use in industry to obtain other materials: ceramics, binders (cement, lime, gypsum), glass, etc.

Artificial building materials are divided according to the main feature of their hardening (formation of structural bonds) into:

o unfired- materials, the hardening of which occurs at ordinary, relatively low temperatures with crystallization of neoplasms from solutions, as well as materials, the hardening of which occurs in autoclaves at elevated temperatures (175-200 ° C) and water vapor pressure (0.9-1.6 MPa);

o roasting- materials whose structure is formed during their heat treatment mainly due to solid-phase transformations and interactions.

This division is partly conditional, because it is not always possible to determine a clear boundary between materials.

In non-calcined conglomerates, cementing binders are represented by inorganic, organic, polymeric, as well as mixed (for example, organomineral) products. Inorganic binders include clinker cements, gypsum, magnesia, etc.; to organic - bitumen and tar binders and their derivatives; to polymeric - thermoplastic and thermosetting polymeric products.

In conglomerates of the roasting type, ceramic, slag, glass and stone melts play the role of a binder.

Organic binders make it possible to obtain conglomerates that differ: in the temperature of their use in construction - hot, warm and cold asphalt concrete; according to workability - rigid, plastic, cast, etc.; according to the size of the aggregate particles - coarse, medium and fine-grained, as well as finely dispersed.

Polymer binders are important components in the manufacture of polymer concrete, building plastics, fiberglass and other often called composite materials.

The classification of artificial building materials (conglomerates), united by a general theory, is expanding with the advent of new binders, the development of new artificial aggregates, new technologies or a significant modernization of existing ones, the creation of new combined structures.

2. Obtaining and using natural building materials, mineral binders and artificial stone building materials

Natural, or natural, building materials and products are obtained directly from the bowels of the earth or by processing wood materials. In the manufacture of products from them, these materials are given a certain shape and rational dimensions without changing their internal structure, chemical and material composition. More often than others from natural wood and stone materials and products are used. In addition to them, in a ready-to-use form or during mechanical processing, you can get natural bitumen or asphalt, reeds, peat, bonfires and other natural products.

Natural stone materials are called building materials obtained from rocks through the use of only mechanical processing (crushing, splitting, sawing, grinding, polishing, etc.). As a result of such processing, natural stone materials almost completely retain the physical and mechanical properties of the rock from which they were obtained. Natural stone materials are widely used in construction, they are also the main raw material for the production of mineral binders and artificial stone materials.

By origin, rocks are divided into three groups: igneous (igneous), sedimentary and metamorphic.

Types of natural stone materials and products. Various types of natural stone materials and products are used in construction: rubble stone, wall stones and blocks, facing stones and slabs, roofing tiles, etc.

Rubble stone is used in construction in the form of irregularly shaped pieces of rock (torn rubble) or irregular slabs. Ragged rubble is obtained from sedimentary rocks (limestones, dolomites, sandstones) in an explosive way, and slabs (bedded rubble and flagstone) are mined from layered rocks using wedges, percussion mechanisms, etc. It should not have cracks, delaminations and loose interlayers reducing its building properties.

Rubble stone serves as a material for laying foundations, walls of unheated buildings and structures, retaining walls, etc. Waste during the preparation of rubble stone is crushed and used in the form of crushed stone for concrete.

Wall stones and blocks are made from limestone, volcanic tuffs and other rocks with a density of up to 2200 kg/m 3 . The dimensions of the stones for manual laying are 390x190x190 mm, the dimensions of the enlarged blocks for mechanized masonry are set based on the strength of the rock and the lifting capacity of the cranes. The correct geometric shape and the required dimensions of stones and blocks are obtained, as a rule, by sawing them out of an array using stone-cutting machines; chipped piece stones are produced much less frequently. The front surface of wall stones and blocks must meet the requirements of decorativeness.

Stones and blocks made of light rocks are local materials in a number of regions of our country. The walls of residential and public buildings made of light natural stones and blocks are much cheaper than brick walls and have a beautiful appearance.

Facing stones and slabs are made from blocks of natural stone by sawing or splitting them, followed by mechanical processing. Rocks for obtaining semi-finished blocks should be selected taking into account the operating conditions in which the facing products made from them will be located. Thus, rocks intended for external cladding must be weather-resistant, without cracks and traces of weathering, and have a beautiful and unchanging color. For this purpose, they use: granites, syenites, diorites, gabbro, labradorites, quartzites, dense limestones, tuffs, sandstones. Rocks used for interior cladding should have a beautiful color and be easily polished. Most often, marble is used for interior cladding.

Facing stones and slabs are sawn and hewn. Sawn products, as a rule, are cheaper and more durable than hewn ones, since when sawing rocks, it is possible to obtain relatively thin products without microcracks that occur when stone is cut.

Slabs for wall cladding and flooring must have a rectangular shape and specified dimensions. In addition, the front surface of the plates is given a different decorative texture. Depending on the method of execution, the textures are divided into: shock, obtained by chipping off stone particles (the texture of "rocks", bumpy, grooved, dotted, corrugated), and abrasive, obtained by abrasion of the surface with various abrasives (sawn, polished, polished, mirror).

Slabs and stones from igneous rocks (granites, labradorites, gabbro, etc.) are used for exterior cladding of socles and facades of monumental buildings, durable and decorative floors in public buildings with heavy human flows, for example, at metro stations, train stations and department stores , as well as for facing embankments, hydraulic structures, etc. In the production of marble slabs, a large amount of waste is obtained in the form of scraps, which are used for arranging mosaic floors.

In addition to facing slabs, natural stone is used to produce profile parts, such as skirting boards, corner parts and parts of faceted and fluted facings, as well as steps, window sills, etc.

Clay (roofing) slate roofing tiles are a very durable roofing material for rural construction. Splitting and chopping off the material, it is given a rectangular or rhombic shape.

In road construction, a variety of products made from natural stone are widely used, for example, paving stones, chipped or cobblestone, side stones. These products are made from igneous or sedimentary rocks, which must have high strength, low water absorption, good impact and abrasion resistance, frost resistance, and must not be affected by weathering. The same requirements apply to stone materials (granite, diorite, diabase, gabbro) intended for protective shell plates of hydraulic structures. Materials and products made from natural stone (basalt, diabase, etc.) are also used for structures operating at high temperatures. In addition, materials and products made of granite, diorite, quartzite, basalt, diabase and siliceous sandstone in the form of facing stones and regular-shaped slabs are used to protect building structures and apparatuses from acids.

The production of stone materials and products includes the extraction of rock and its processing.

Stone mining. In cases where rocks lie shallow or come to the surface of the earth, their extraction is carried out in an open way in quarries. Rocks lying at great depths are mined underground in quarries or mines.

Dense rocks intended for the production of crushed stone or rubble stone are usually developed using an explosive method, however, the explosive method is not used to obtain large-sized slabs and blocks from rock, since cracks can form in the rock. Separate blocks are sawn out or broken out of the massif by stone-cutting and cutting machines, as well as by special tools.

Easily processed rocks, such as tuff and shell limestone, are mined mechanized using stone-cutting machines, the cutting elements of which are horizontal and vertical circular saws with insert cutters. The stone-cutting machine is installed on a trolley that moves along the rail track along the face. With the help of disk plates located in three mutually perpendicular planes, blocks of certain sizes and regular geometric shapes are cut from the massif with a stone-cutting machine. On open pits, the stone-cutting machine designed by Galanin serves well. There are also stone-cutting machines that saw large blocks, which are then cut into slabs by other machines.

Loose rocks (sand, gravel, clay) are mined in an open way, using single- and multi-bucket excavators and other machines.

Wood- this is an important material widely used in the construction industry, as it has high strength at low density, low thermal conductivity, ease of machining. At the same time, there are also disadvantages in wood: the unequal nature of a number of properties in different directions, easy decay and flammability, high hygroscopicity, and the presence of a number of defects.

Timber is divided into unprocessed (round) and processed (sawn timber, split timber, veneer, etc.)

Round timber- pieces of tree trunks cleared of branches:

· construction and saw logs must have a diameter of the upper end of at least 14 cm and a length of 4 - 6.5 m, must be sanded and sawn at right angles to the longitudinal axis. According to the quality of the logs are divided into three grades:

podtovarnik - part of a tree trunk with a diameter of the upper end of 8 - 13 cm and a length of 3 - 9 m;

· poles have a diameter of the upper end 3 cm and a length of 3 - 9 m;

Mining racks - round timber 0.5 - 5 m long and 7 - 30 cm thick at the upper end. Deviations in the length of the racks are allowed in the amount of ± 2 cm, diameter ± 0.5 cm for racks up to 11 cm thick (inclusive) and ± 1 cm for racks 12 cm thick or more.

lumber are made by longitudinal sawing of saw logs:

plates or cuts - sawing a log into two halves;

· quarters - sawing up on two mutually perpendicular diameters;

slab or obapol - the cut outer part of the log. Obapol can be slab-shaped, when there is a cut on only one side, or plank - with a cut on both sides;

boards - lumber, the width of which is more than double the thickness. The thickness of the boards is 13 -100 mm, the width is 80 - 250 mm. Softwood boards have a length of up to 6.5 m, hardwood - up to 5 m with a gradation of 0.25 m. Boards are unedged (with unsawn edges for the entire length or half of the board) and edged (the cut must be more than half the length boards). According to the quality of wood and processing, boards are divided into five grades - selected, 1, 2, 3 and 4;

bars have a thickness or width of 100 - 250 mm with a ratio of width to thickness of less than two. Bars sawn from two sides are called two-edged or sleeper beams, and those sawn from four sides are called four-edged;

bars - lumber type timber up to 100 mm thick, its length is the same as that of the boards.

Fig. 1 Lumber (a - plates, b - quarters, c - slab, d - unedged board, d - semi-edged board, e - edged board, g - four-edged beam, h - cleanly edged beam)

Wood products: - planed molded products - floor boards, tongue-and-groove boards, seam boards; profile moldings - skirting boards and fillets, handrails for railings, trim for window and door frames, as well as window sill boards;

· products for parquet floors - piece, typesetting and panel parquet, as well as parquet boards;

· carpenter's boards - slatted boards, glued on one or both sides with planed plywood or veneer (for doors, partitions, floors and panel furniture);

construction plywood - a flat sheet consisting of three, five or more layers of veneer. Veneer is obtained on peeling machines by cutting a layer of wood (birch, spruce, pine, etc.) in the form of a continuous wide tape from a rotating pre-steamed log and then cutting it into cut sheets. Veneer sheets are glued in such a way that the fibers of two adjacent layers are mutually perpendicular, which gives plywood strength greater than that of wood. Plywood is produced up to 22 mm thick. Plywood is of increased, medium and limited water resistance.

Rice. 2 Molded products (a - grooved boards, b - seam boards, c - plinth, d - platband, d - handrail)

Basic information about mineral binders and their classification: Mineral binders are called artificially obtained powdery finely dispersed materials, which, when filled with water (aqueous solutions), form a plastic dough that can harden as a result of physical and chemical processes, i.e., pass into a stone-like state. This property of mineral binders allows them to be widely used for the preparation of mortars and concretes, as well as for the production of various non-firing artificial stone materials, products and parts, adhesives and paint compositions. This is the largest in terms of nomenclature, the most common and significant group of building materials in terms of application.

Mineral binders are divided into air and hydraulic. Air binders are substances that are able to harden, retain and increase their strength for a long time only in air. Air binders include air lime, gypsum and magnesia binders, liquid glass, etc.

Hydraulic binders are substances that are able to harden, retain and increase their strength for a long time not only in air, but also in water. Hydraulic binders include hydraulic lime, roman cement, Portland cement and its varieties, aluminous cement, waterproof expanding and non-shrinking cements, etc.

Building air lime is a binder obtained by moderate firing (not to sintering) of limestone containing no more than 6% clay impurities. As a result of roasting, a product is formed in the form of white lumps, called quicklime lump (boiler). Depending on the nature of the subsequent processing, the following types of air lime are distinguished: quicklime ground, slaked hydrated (fluff), lime dough, milk of lime.

Air lime production. Limestone, chalk, dolomitic limestone, etc. are used as raw materials for the production of air lime, consisting mainly of calcium carbonate CaCO 3, as well as a small amount of impurities - dolomite, gypsum, quartz and clay.

The technological process for the production of air lime consists of the extraction of carbonate rock (limestone or chalk) in a quarry, crushing and sorting it and subsequent firing in shaft or rotary kilns, where, due to the combustion of fuel, the temperature rises to 1000 - 1200 ° C and decomposition (dissociation) occurs limestone: CaCO 3 \u003d CaO + CO 2. The magnesium carbonate MgCO 3 present in limestone also decomposes during the firing process: MgCO 3 \u003d MgO + CO 2.

When further lowering into the cooling zone, the burnt lime is cooled by air, and then unloaded into the lower furnace by a special mechanism.

By using rotary kilns it is possible to produce lime from any carbonate rocks, including fine crushed limestone and loose wet chalk, which cannot be fired in shaft kilns.

High quality lump lime can be obtained by uniform firing of limestone until CO 2 is completely removed from it. The oxides of calcium and magnesium (CaO + MgO) remaining after firing are the active components of lime; their quantity determines the quality of the resulting material as a binder. In addition, lump lime usually contains a certain amount of underburning and overburning. Underburning - undecomposed calcium carbonate is obtained when too large pieces of limestone are loaded into the kiln or the firing temperature is not high enough. The underburnt has almost no astringent properties and therefore is a ballast. The burn is obtained as a result of the fusion of calcium oxide with impurities - silica, alumina and iron oxide - under the influence of too high a temperature. Burnt grains are extinguished very slowly.

When grinding in ball mills pre-crushed pieces of boiled lump lime, quicklime will be obtained, which, unlike slaked lime, has the ability to quickly set and harden. In the process of grinding boiled lump lime, various additives can be introduced: slag, ash, sand, pumice, limestone, which improve its properties and reduce the cost. In this way, for example, carbonate lime is obtained, consisting of 30 - 40% quicklime and 70 - 60% raw limestone. This lime is used for the preparation of self-heating mortars used in winter conditions.

Extinguishing lime. When quicklime is processed with water, calcium oxide turns into a hydrate according to the following formula: CaO + H 2 O \u003d Ca (OH) 2. This process is called "lime slaking" and is accompanied by the release of a large amount of heat and intense vaporization (this is why quicklime is usually called a boil).

Depending on the amount of water taken during quenching, hydrated lime (fluff), lime dough or lime milk are obtained.

Hydrated lime (fluff) is obtained when 6O - 70% of water is taken to quench lime - boiling water. The resulting hydrated lime is a white powder consisting of tiny particles of calcium hydroxide.

Depending on the quenching speed, lump lime is divided into quick-extinguishing with a quenching period of up to 20 minutes and slow-extinguishing - over 20 minutes. The higher the activity of lime, the faster it is extinguished and the greater the yield of lime dough.

Lime, as a rule, is used in construction in the form of a solution, that is, mixed with sand. Fields of application - Air lime is used for the preparation of lime-sand and mixed mortars used for masonry and plaster, in the production of silicate products, and also as a binder for painting paint compositions. In addition, ground and fluffy air lime is used in the production of lime-pozzolanic and lime-slag cements, which have hydraulic properties.

Solutions and products made with air-lime should not be used in damp rooms and foundations, as they are not waterproof. Plaster mortars on ground quicklime are recommended to be used both at positive and at negative outside temperatures. In this case, due to the fact that during the preparation and application of the solution a large amount of heat is released, excess moisture evaporates, and the solution itself quickly gains strength.

Gypsum binders are materials consisting of semi-aqueous gypsum or anhydrite and obtained by heat treatment of finely divided raw materials.

Gypsum binders, depending on the processing temperature of raw materials, are divided into two groups: low-firing and high-firing. Low-firing gypsum binders are characterized by rapid hardening. High-firing gypsum binders are characterized by slow hardening. Low-firing gypsum binders include: molding, building and high-strength gypsum, as well as gypsum binders from materials containing gypsum. High-firing binders include: anhydrite binder (anhydrite cement) and high-firing gypsum (extrich gypsum),

Production of building gypsum. When firing a lump of gypsum stone in a drying drum (rotary kiln), the hot flue gases come into direct contact with a slowly moving crushed gypsum stone. After firing, the gypsum is ground in a ball mill.

Joint firing of gypsum stone and its grinding is carried out in ball mills. In them, gypsum stone is crushed, its small particles are picked up by the flow of hot flue gases entering the mill. Being in a suspended state, gypsum stone particles are dehydrated to become semi-aqueous gypsum and carried out by flue gases from the mill to the dust settling devices.

Hardening of building plaster. When semi-aqueous gypsum is mixed with water, a plastic dough is formed, which quickly thickens and turns into a stone-like state. Further drying of the hardening mass leads to a significant increase in the strength of the gypsum. To accelerate hardening, artificial drying of gypsum products is used at a temperature not exceeding 60-65 ° C. At a higher temperature, the process of decomposition of gypsum dihydrate may begin, accompanied by a sharp decrease in strength. During hardening, gypsum increases in volume up to 1%, filling the molds well when casting gypsum products.

Application of building plaster. Building gypsum is used for products and parts used in the construction of buildings and structures at a relative humidity of not more than 60%. Gypsum and lime-gypsum plaster mortars, decorative, heat-insulating and finishing materials, as well as various architectural details are made from building gypsum by casting.

High-strength gypsum is a binder, consisting mainly of calcium sulfate hemihydrate, obtained by heat treatment of gypsum dihydrate in an autoclave under steam pressure or boiling in aqueous solutions of certain salts, followed by drying and grinding into a fine powder. It has a lower water requirement (about 45%), which makes it possible to obtain gypsum products with high density and strength.

High-strength gypsum is used for the manufacture of architectural details and building products with increased strength requirements.

3. Prospects for the development of building materials production

In this section of the test, I would like to talk about the prospects for the production of building materials specifically in Ukraine, while not relying on educational literature, which in particular covers topics, based on statistics before the crisis years in our country or, for the most part, on foreign statistics.

In almost all regions of our country, there is an acute shortage of really affordable building materials, including heat and energy efficient building materials suitable for the construction of single-layer building envelopes.

The need for heat-efficient building materials is acutely felt not only in the construction of housing, but also in the construction of industrial buildings and premises, warehouses and buildings for other purposes. Moreover, the main task of heat-efficient construction is not only the construction of new facilities, but also the reconstruction of previously built ones. Further, the described company is engaged in the production and sale of sand-cement wall blocks and semi-blocks in the Crimean region. For the production of blocks, the vibrocompression method is used. The quality of building materials manufactured using the volumetric vibrocompression method exceeds the quality of materials produced by casting. And the quality of the manufactured products is not inferior in its technical and physical and mathematical properties to more expensive wall materials.

On the example of this company, I would like to emphasize, in my opinion, the main problem of the development of construction in our country: The use of not only foreign building materials, but also equipment for their production.Rice. No. 3 "Dobrovsky plant of building materials, Simferopol"

The capacity of the plant allows to produce 1,560,000 items. in year.

In addition, in the near future, the production of paving slabs will begin on the basis of the plant, using the vibrocompression method with a production volume of 218,400 sq.m. in year. The total area of ​​the plant is 30,000 m.2

Product range:

Rice. No. 5 Stone concrete wall dressing hollow

The material is a concrete block intended for the construction of walls and plinths of wooden and stone houses. Has a smooth front surface. It has high compressive strength and frost resistance. The inner part of the block is hollow with partitions, which significantly increases the thermal insulation qualities of the material without a serious deterioration in strength characteristics.

It is used for erecting walls of low-rise buildings. In the construction of wooden houses, it is used to build a plinth on a strip foundation. Blocks are designed for laying by hand. They are fastened with ordinary masonry mortar. One block corresponds in size to eight single bricks (at a significantly lower price and less mortar consumption).

Density - 375 kPa. Frost resistance - 50 cycles. Load - 107 kg/cm. Water absorption - no more than 6%. Specific gravity 1m3 = 960 kg.

Rice. No. 6 Concrete partition wall hollow

The material is a concrete block intended for the construction of partitions of houses. It has high compressive strength and frost resistance. The inner part of the block is hollow with partitions, which significantly increases the thermal insulation qualities of the material without a serious deterioration in strength characteristics.

Blocks are designed for laying by hand. They are fastened with ordinary masonry mortar.

Density - 375 kPa. Frost resistance - 50 cycles. Load - 107 kg/cm. Water absorption - no more than 6%. Specific gravity 1m3 = 1152 kg.

In the production of blocks, colored pigments are used, which guarantee the invariance of color for decades. Possible colors: red, green, yellow, black, etc. Color saturation can vary over a wide range at the request of the customer.

The impact of technological progress on construction.

The scientific and technical development of the entire construction complex will continue in the future through the penetration of product and technological innovations of industrial firms serving the construction complex. The share of industrial firms in the total costs of the construction complex is estimated at about 89%, and the construction firms themselves at only 11%. At the same time, both the achievements of national industrial firms and the purchase of licenses in foreign markets will contribute to scientific and technological progress.

In the construction industry, further development of industrialization can be expected through the use of various, unified super-light building structures, automated machines and mechanisms that are already successfully used.

New structures based on polymers and ceramics will become widespread in the construction of bridges and pipelines, as well as in new technologies for protecting concrete and metals from corrosion. The use of structures with high thermal insulation properties in the construction of single-family houses will significantly (by 40-50%) increase their energy efficiency. The proportion of building materials made on the basis of the use of secondary raw materials and waste will increase.

We should expect an expansion in the production of construction equipment with automated control systems. A qualitative leap in the automation of building machines will be associated with the widespread introduction of microprocessor technology. One can expect the use of mobile robotic complexes, for example, for laying concrete mix, erecting prefabricated building structures, in material handling and finishing operations.

In the field of design, a qualitative leap is expected in the use of computers of new generations. This is due to the increased complexity of construction projects and the need to integrate all parts of the investment process in order to optimize it.

Strengthening integration processes.

Regional factors common to the three countries that affect the development of construction and the investment process in the near future are: liberalization of international investment in the process of regional economic integration, which improves investment conditions and the investment climate and acts as a factor in increasing the efficiency of capital investments; in strengthening the direct economic impact, including investment cooperation, between neighboring territories of various countries that are part of Euroregions and other similar entities. This will affect the dynamics, territorial and sectoral structure of investments of the states participating in this form of cooperation. The number of associations and the intensity of economic, including investment, interaction within their framework will undoubtedly increase in the future.

Conclusions for Post-Soviet States.

The cumulative effect of the factors listed above is manifested in the growth of labor productivity against the background of a reduction in the capital intensity of industrial production and a decrease in the volume of construction costs per unit of GDP. And this means that with a modest annual growth rate in the volume of construction work, the efficiency of construction production is sharply increasing.

In 2001-2015 the construction complexes of the CIS countries will have to implement many investment tasks that have already been largely resolved in the West. This is a radical renewal of the production potential of countries, the formation of a full-fledged industrial and social infrastructure, the creation of a modern agro-industrial complex, the development of the housing market, etc.

In a relatively stable economic and political environment, the implementation of such large-scale investment programs is possible only with sufficiently high average annual rates of construction development (at the level of 4-4.5 GDP.

List of used literature

1. Barinova L. Prospects for the development of the production of domestic building materials // Construction materials, equipment, technologies of the XXI century. 2002.

2. Karmanova I. Construction in developed countries: forecast for 2001-2015. // Construction and reconstruction. 2001. June 8, 2001 S. 35.

3. Voitov A. STROYMAK KNAF - an example of effective investment in the production of building materials // Budmaster. 2001, p. 34.

4. Building materials. Textbook for university students / Ed. G.I. Gorchakov. M.: Higher. School, 1982. 352 pp., ill.

5. Komar A.G., Bazhenov Yu.M., Sulimenko L.M., Technology for the production of building materials: Proc. for universities on special "Economics and org. prom. builds. materials". M.: Higher. school, 1984. 408 p. ill.

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All materials have a certain structure at the level of macro or micro structure. Macro-large, structure visible to the naked eye. Microstructure visible with an optical instrument.

There are homogeneous and heterogeneous materials according to their structure. Homogeneous materials, when a unit volume contains, on average, the same number of homogeneous structural elements.

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A) appointments:

B) for raw materials:

B) according to the working conditions;

D) by origin:

D) production method:

A) classification by purpose.

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B) Classification by raw material:

Natural stone materials - loose (sand, crushed stone, gravel ...), piece materials.

Inorganic binders are the product of burning natural raw materials or artificial mixtures with subsequent grinding (Portland cement, Portland slag cement, lime, gypsum).

Concrete and mortar based on inorganic binders

ceramic materials. Obtained from clay by molding, drying, firing. (brick, tiles, pipes).

Materials from mineral melts (glass).

Heat-insulating and acoustic materials on organic (soft fibreboard, peat slabs) and inorganic (mineral wool, glass wool) binder.

Bituminous and tar materials (roofing material, mastic, roofing felt).

Polymer building materials (fiberglass, foam plastics ...).

Paints and varnishes.

Forest materials.

metal materials.

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C) Classification according to the working condition of the material:

Structural building materials that perceive and transmit the load - natural stone, concrete and construction, ceramic, polymer, timber, metal, composite, polymer concrete.

Special purpose materials - heat-insulating (foam plastics, mineral wool), acoustic, waterproofing, roofing, sealing, refractory, for radiation protection, anti-corrosion.

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D) By production method building materials, for example from metals, are classified into those manufactured by methods:

pressing

rolling

All building materials must comply with GOST according to their properties.

From the beginning of the 20th century, construction began to rapidly gain momentum. Now not only apartment buildings are being built, but also private buildings, which are located outside the city. If earlier such houses were used mainly for recreation during the holidays, now you can live in them permanently, thanks to the developed infrastructure around the main city. Actually, in order to build a private house, it is necessary to have high-quality and reliable materials in the arsenal. Now building materials are presented in a huge assortment, so it is quite easy to get confused in them.

It is foolish to simply purchase goods on the principle of "the more expensive - the better." Building materials manufacturers are constantly offering new, more advanced materials, but reality shows that you can make a really profitable purchase only in the presence of a specialist. We also note that most good stores provide delivery of building materials to any point you need, which is very convenient.

Further in the article we will talk about the main types of materials with which structures are built. Each of the types has certain features and is intended to perform specific tasks.

Types of building materials

The most common and popular materials:

• Armature is a large set of metal parts and devices that are designed for the correct operation of a variety of equipment. Also, reinforcement is very often used to reinforce concrete, that is, to strengthen it;

• The beam is intended mainly for overlapping interfloor ceilings. It can also be used for other purposes in the construction of structures;

• Concrete is very widespread in all areas of construction. It has such positive characteristics as strength, durability and resistance to aggressive environments. With its help, concrete floors are made, the surface of the floor and roof is poured, various materials are created from it, for example, such as concrete fences. Also, most buildings simply cannot be built without the construction of a foundation made of concrete;

• OSB boards are a finishing material that consists of about 90% wood chips. Bonded together with synthetic resins. Learn more about OSB boards at the link.

• With the help of timber today, builders are building frames of light and inexpensive houses. Of the advantages of the timber, it is worth noting its environmental friendliness and ease in the construction of the building / frame;

• Drywall is a fairly light and durable material, which is mainly used to insulate houses and create interior partitions. Drywall is very easy to mechanically process;

• Brick is a classic material for the construction of private houses, stoves and fireplaces;

• Steel is an unusually strong metal material that can last for many years if properly crafted;

• Slate, roofing material and metal tiles are materials that are designed to create roofing. Each of the materials has its own advantages and service life. Buy roofing materials in Minsk on the page http://vira-tr.by/products/child/?id=2

This is not the whole list of building materials that you may need when building a private house. In conclusion, we want to say that even for the construction of the smallest building, you will need to purchase a large amount of materials, because without some, the construction will simply be impossible.

Garage doors are often used in parking lots, individual garages, as well as cottage construction. Sectional garage doors installed in a private house are becoming more and more popular due to a number of advantageous features, of which, first of all, it should be noted ease and simplicity of installation, ease of operation, as well as an attractive appearance. These gates are quiet in operation, they are reliable…

When you have a large house with several floors, you simply need forged railings. They will allow you to protect yourself and, importantly, children. Contrary to popular belief, such fences are not only highly functional, they are also quite aesthetic. If you approach the issue creatively, then you can choose a railing that will serve as a stylish addition to the interior. There are many campaigns in Kyiv,…

Currently, among the owners of country houses and cottages, modern window designs made of wood are popular. The wooden windows installed in the cottage have an aesthetic appearance, they solve the problems associated with the fact that living in it is a pleasure, it is comfortable. High-quality glazing of cottages is produced by companies specializing in the production of wooden windows. Such windows are most often made according to ...