RU2010020C1 - Process for preparation and proportion of concrete mix, process for prefabrication of concrete and reinforced concrete members, method for erection, restoration or renewal of buildings and engineering constructions - Google Patents

Abstract

FIELD: concrete production process. SUBSTANCE: provided is the method for preparation optimal concrete mix based on the ratio of fine aggregate to the total bulk weight of fine and coarse aggregates, and using the estimated ratios the amount of cement, hardening water, fine and coarse aggregates to be required is determined. The resulting optimal concrete mix is used for manufacture of monolithic and prefabricated concrete members. EFFECT: improved quality. 4 cl

Description

 The invention relates to the construction of: the selection of concrete, the manufacture of concrete, concrete and reinforced concrete structures, the construction, restoration and reconstruction of buildings and structures.

 A known method of manufacturing concrete by collecting components, including binder, fine and coarse aggregates, determining the initial properties of the components: bulk and true density, determining the flow rate of the components of the concrete mixture, dosing and mixing the mixture with the introduction of mixing water [1].

 A known method of manufacturing structures of concrete and reinforced concrete by preparing a concrete mixture with a preliminary selection of components, determining their initial properties: bulk and true density of fine and coarse aggregates, true density of the binder and determining the consumption of components, dosing, mixing binder, fine aggregate, mixing water and coarse aggregate, feeding the prepared mixture into a mold or formwork, in which form-forming inserts and / or reinforcement are previously placed, followed by densification of the mixture and its curing [2].

 A known method of construction of buildings, structures by extracting pits and / or trenches, preparing the foundation, building foundations, and / or elevated structures of nodes and / or structural systems with the manufacture and use of prefabricated and / or monolithic structures made of concrete and / or reinforced concrete [3 ].

 There is a method of technical restoration or modification of buildings of buildings by performing repair, and / or restoration, and / or reconstruction of construction objects with an engineering assessment of the condition of structures, the necessary amount of repair and restoration work, strengthening, and / or restoration, and / or removal and replacement of at least part of the supporting and / or enclosing structures, and / or engineering systems, and / or extensions, and / or superstructures of the object using monolithic and / or precast concrete, for which concrete mix they are based on preliminary selection of components and determination of their initial properties [4].

A known method of selecting the composition of concrete by determining the properties of the starting components: bulk and true density of fine aggregate - sand, respectively, λ _m. = Λ _n and ρ _MZ = ρ _p , coarse aggregate - crushed stone, respectively λ _short = λ _u and ρ _{short circuit} = ρ _u , the true density of the binder - cement ρ _wl = ρ _c , determining the consumption of components of the concrete mixture [5].

 The disadvantages of the known methods is the increased consumption of materials, including cement, due to insufficiently dense packing of inert aggregate with sub-optimal selection of fractions and the quantitative ratio of coarse and fine aggregates and, as a consequence, the increased cost of concrete, structures and construction objects constructed on their basis.

 The purpose of the invention is to reduce the material, energy and cost of concrete, structures and construction objects.

1+

- 1

, где r_к - отношение объема мелкого заполнителя к общему объему мелкого и крупного заполнителя;
ρ_м.з . - истинная плотность мелкого заполнителя, кг/м³;
λ_м.з. - насыпная плотность мелкого заполнителя, кг/м³;
ρ_к.з. - истинная плотность крупного заполнителя, кг/м³;
λ_к.з. - насыпная плотность крупного заполнителя, кг/м³ и минимальный объем теста из вяжущего, необходимый для приготовления бетонной смеси, по формуле:
V_м.т.в.=

1 -

1 -

· V_const ,
V_м.т.в - минимальный объем теста из вяжущего, л;
V_const - объемная постоянная, равная 1000 л, после чего определяют фактическое количество воды, поглощаемой мелким заполнителем, по формуле:
B_ф.м.з =

+

1 -

r_к·

где В_ф.м.з - поглощаемая мелким заполнителем вода, л/м³;
W _м.з. - водопоглощение мелкого заполнителя, % , и определяют фактическое количество воды, поглощаемой крупным заполнителем по формуле:
B_ф.к.з =

+

1 -

(1-r_к)·

, где В_ф.к.з - поглощаемая крупным заполнителем вода, л/м³;
W_к.з - водопоглощение крупного заполнителя в % . затем определяют расход воды, необходимой для гидратации вяжущего, по формуле:
В_г.в - Ц_м ˙ К_н.г где В_г.в - расход воды на гидратацию вяжущего, л/м³;
Цм - расход вяжущего на 1 м³ бетонной смеси. кг;
К_н.г - коэффициент нормальной густоты теста из вяжущего, при этом расход вяжущего определяют по формуле:
Ц_м =

где ρ_вж - истинная плотность вяжущего, кг/м³ после чего определяют минимальный расход воды затворения по формуле:
В_м.з = В_ф.м.з + В_ф.к.з + В_г.в где В_м.з - минимальный расход воды затворения, л/м³. затем определяют расход мелкого и крупного заполнителя на 1 м³ бетонной смеси по формулам:
М3 = (1000 - V_м.т.в) ˙r_к ˙ ρ_м.з
К3 = (1000 - V _м.т.в) ˙(1-r_к) ˙ ρ_к.з, где М3 - расход мелкого заполнителя, кг;
К3 - расход крупного заполнителя, кг.This is achieved by the fact that in the method of manufacturing concrete, including the operation of selecting components, including binder, fine and coarse aggregates, determining the initial properties of the components: bulk and true density of fine and coarse aggregates, true density of the binder, determining the flow rate of the concrete mix components, dosing and mixing the mixture with the introduction of mixing water, after determining the properties of the starting components, establish the ratio of fine aggregate to the total volume of fine and coarse aggregate in concrete mix, according to the formula:
r _to =

1+

- 1

where r _to - the ratio of the volume of fine aggregate to the total volume of fine and coarse aggregate;
ρ _m . - the true density of the fine aggregate, kg / m ³ ;
λ _m . - bulk density of fine aggregate, kg / m ³ ;
ρ _{short circuit} - true density of coarse aggregate, kg / m ³ ;
λ _short - bulk density of coarse aggregate, kg / m ³ and the minimum amount of dough from a binder, necessary for the preparation of concrete mix, according to the formula:
V _m.t. =

1 -

1 -

V _const
V _m.t.v - the minimum amount of dough from a binder, l;
V _const is the volume constant equal to 1000 l, after which the actual amount of water absorbed by the fine aggregate is determined by the formula:
B _fm.s. =

+

1 -

r _to

where V _fm.s - water absorbed by a fine aggregate, l / m ³ ;
W _M.Z. - water absorption of fine aggregate,%, and determine the actual amount of water absorbed by the large aggregate according to the formula:
B _f.c.s =

+

1 -

(1-r _k )

where B _fc3 - water absorbed by a large aggregate, l / m ³ ;
W _KZ - water absorption of large aggregate in%. then determine the flow rate of water necessary for hydration of the binder, according to the formula:
The _GV - _m ˙ K D where B _{NG GV} - water flow for the hydration of the binder, l / m ^3;
Tsm - binder consumption per 1 m ^{3 of} concrete mixture. kg;
To _ng - the coefficient of normal density of the test from the binder, while the consumption of binder is determined by the formula:
C _m =

where ρ _vzh - the true density of the binder, kg / m ³ then determine the minimum flow rate of mixing water by the formula:
The _MZ B = _{f.m.z f.k.z} + B + B where B _{GV MZ} - minimum water flow gauging, l / m ^3. then determine the flow rate of fine and coarse aggregate per 1 m ³ concrete mix according to the formulas:
M3 = (1000 - V _m.t.v ) ˙r _to ˙ ρ _m.z
K3 = (1000 - V _m.t.v ) ˙ (1-r _to ) ˙ ρ _short , where M3 is the consumption of fine aggregate, kg;
K3 - consumption of coarse aggregate, kg.

 In the method of manufacturing concrete, cement and its modifications can be used as a binder: pozzolanic cement, or Portland cement, or slag Portland cement, or quick-setting cement, or expanding, or combinations thereof.

 In addition, lime or a combination of lime and cement can be used as a binder.

As a fine aggregate, you can use sand, or expanded clay sand, or their combination with a bulk density of λ _m.s. = λ _p and a true density of ρ _m.s. = ρ _p . In addition, steel and / or cast iron sawdust, or crushed barite, and / or metal-containing ores, or their combination with quartz sand with a particle size modulus Mk = 1.7-3, can be used as a fine aggregate. As a coarse aggregate may be used crushed stone fractions 10-20 mm with a bulk density _KZ λ = λ _u and the true density ρ _KZ = ρ _u. Crushed stone from igneous or metamorphic or sedimentary rocks, or combinations thereof, can also be used as a large aggregate. In addition, expanded clay or shungizite, or a combination of one and / or the other with crushed stone of light or heavy rocks, can be used as a large aggregate; crushed stone with a crushability of 8-12 can also be used.

1+

- 1

, где r_к - отношение объема мелкого заполнителя к общему объему мелкого и крупного заполнителя;
ρ_м.з - истинная плотность мелкого заполнителя, кг/м³;
λ_м.з - насыпная плотность мелкого заполнителя, кг/м³;
ρ_к.з - насыпная плотность крупного заполнителя, кг/м³;
λ_к.з- насыпная плотность крупного заполнителя, кг/м³ и минимальный объем теста из вяжущего, необходимый для приготовления бетонной смеси по формуле:
V_м.т.в.=

1 -

1 -

V_const , где V_м.т.в - минимальный объем теста из вяжущего, л;
V_const - объемная постоянная, равная 1000 л; после чего определяют фактическое количество воды, поглощаемой мелким заполнителем, по формуле
B_фмз =

+

1 -

r_к·

где В_ф,м,з - поглощаемая мелким заполнителем вода, л/м³;
W_м.з - водопоглощение мелкого заполнителя, % и определяют фактическое количество воды, поглощаемой крупным заполнителем, по формуле
B_фкз =

+

1 -

(1-r_к)·

где В_ф.к.з - поглощаемая крупным заполнителем вода, л/м³;
W_к.з - водопоглощение крупного заполнителя, % ; затем определяют расход воды, необходимый для гидратации вяжущего, по формуле:
В_г.в = Ц_м ˙К_н.г где В _г.в - расход воды на гидратацию вяжущего, л/м³;
Ц_м - расход вяжущего на 1 м³ бетонной смеси, кг;
К_н.г. - коэффициент нормальной густоты теста из вяжущего, при этом расход вяжущего определяют по формуле:
Ц_м =

где ρ_вж - истинная плотность вяжущего, кг/м³; после чего определяют минимальный расход воды затворения по формуле:
В_м.з = В _ф.м.з + В_ф.к.з + В_г.в где В_м.з - минимальный расход воды затворения, л/м³, затем определяют расход мелкого и крупного заполнителя на 1 м³ бетонной смеси по формулам:
МЗ = (1000 - V_м.т.в) ˙r_к ˙ ρ_м.з,
КЗ = (1000 - V_м.т.в)˙(1-r_к) ˙ ρ_к.з где МЗ - расход мелкого заполнителя, кг;
КЗ - расход крупного заполнителя, кг;
При изготовлении монолитных и/или сборномонолитных, и/или сборных конструкций можно использовать съемную или несъемную опалубку.The goal is achieved by the fact that in the method of manufacturing structures made of concrete or reinforced concrete, including the preparation of concrete mix with preliminary selection of components, determining their initial properties: bulk and true density of fine and coarse aggregates, true density of the binder and determination of the consumption of components, dosing, mixing of the binder, fine aggregate, mixing water and large aggregate, feeding the prepared mixture into a mold or formwork, in which form-forming inserts and / and whether the reinforcement followed by compaction of the mixture and its curing, after determining the properties of the starting components, the ratio of fine aggregate to the total volume of fine and coarse aggregate in the concrete mixture is established by the formula
r _to =

1+

- 1

where r _to - the ratio of the volume of fine aggregate to the total volume of fine and coarse aggregate;
ρ _m.z - the true density of the fine aggregate, kg / m ³ ;
λ _m.z - bulk density of fine aggregate, kg / m ³ ;
ρ _KZ - bulk density of coarse aggregate, kg / m ³ ;
λ _KZ - bulk density of coarse aggregate, kg / m ³ and the minimum amount of binder dough required to prepare the concrete mix according to the formula:
V _m.t. =

1 -

1 -

V _const , where V _m.t.v is the minimum amount of dough from a binder, l;
V _const - volume constant equal to 1000 l; then determine the actual amount of water absorbed by the fine aggregate, according to the formula
B _fmz =

+

1 -

r _to

where V _{f, m, s} - water absorbed by a fine aggregate, l / m ³ ;
W _mz - water absorption of fine aggregate,% and determine the actual amount of water absorbed by a large aggregate, according to the formula
B _fkz =

+

1 -

(1-r _k )

where In _f.k.z - water absorbed by a large aggregate, l / m ³ ;
W _KZ - water absorption of large aggregate,%; then determine the water flow necessary for hydration of the binder, according to the formula:
The _GV = D _m where B _NG ˙K _GV - water flow for the hydration of the binder, l / m ^3;
C _m - binder consumption per 1 m ³ concrete mix, kg;
To _ng - the coefficient of normal density of the test from the binder, while the consumption of binder is determined by the formula:
C _m =

where ρ _vzh - the true density of the binder, kg / m ³ ; then determine the minimum mixing water consumption by the formula:
The _MZ B = _{f.m.z f.k.z} + B + B where B _{GV MZ} - mixing minimum water flow in l / m ^3, then determines the flow rate of fine and coarse aggregate at 1 m ³ concrete mix according to the formulas:
MZ = (1000 - V _m.t. ) ˙r _to ˙ ρ _m.z ,
KZ = (1000 - V _m.t.v ) ˙ (1-r _к ) ˙ ρ _кЗ where МЗ - fine aggregate consumption, kg;
KZ - consumption of large aggregate, kg;
In the manufacture of monolithic and / or precast, and / or precast structures, removable or fixed formwork may be used.

 The concrete mixture can be densified by vibrating or vibrating, and curing by holding the structures under normal conditions until the formwork or grade strength is set, or at least partially cured by heat and / or heat and moisture treatment.

 In addition, curing can be carried out during heat treatment through the use of solar energy.

1+

- 1

, и минимальный объем теста из вяжущего, необходимый для приготовления бетонной смеси по формуле:
V_м.т.в.=

1 -

1 -

V_const , где V_м.т.в - минимальный объем теста из вяжущего (цементного теста), л;
V_const - объемная постоянная, равная 1000 л; после чего определяют фактическое количество воды, поглощаемой мелким заполнителем по формуле:
B_фмз =

+

1 -

r_к·

,
В_ф.м.з - поглощаемая мелким заполнителем вода, л/м³;
W_м.з - водопоглощение мелкого заполнителя, % и определяют фактическое количество воды, поглощаемой крупным заполнителем, по формуле
B_фкз =

+

1 -

(1-r_к)·

, где В_ф.к.з - поглощаемая крупным заполнителем вода, л/м³;
W_к.з - водопоглощение крупного заполнителя в % , затем определяют расход воды, необходимый для гидратации вяжущего по формуле
В_г.в = Ц_м ˙К_н.г
В_г.в - расход воды на гидратацию вяжущего, л/м³;
Ц_п - расход вяжущего на 1 м³ бетонной смеси. кг;
К_н.г - коэффициент нормальной густоты теста из вяжущего. при этом расход вяжущего определяют по формуле

₌

где ρ_вж - истинная плотность вяжущего, кг/м³; после чего определяют минимальный расход воды затворения по формуле
В_м.з = В_ф.м.з + В_ф.к.з + В_г.в. где В_м.з - минимальный расход воды затворения, л/м³; затем определяют расход мелкого и крупного заполнителя на 1 м³ бетонной смеси по формулам:
МЗ = (1000 - V_м.т.в) ˙r_к ˙ ρ_м.з .The goal is also achieved by the fact that in the method of construction of buildings, structures, including a fragment of foundation pits and / or trenches, preparation of the foundation, construction of foundations and / or elevated structures, units, and / or structural systems with the manufacture and use of prefabricated and / or monolithic structures made of concrete and / or reinforced concrete, the concrete mixture for which is based on preliminary selection of components and determining their initial properties, after determining the initial properties of the components, the ratio of fine aggregate to the total volume of fine and coarse aggregate in the concrete mix according to the formula:
r _to =

1+

- 1

, and the minimum amount of binder dough needed to prepare the concrete mix according to the formula:
V _m.t. =

1 -

1 -

V _const , where V _m.t.v is the minimum amount of dough from a binder (cement paste), l;
V _const - volume constant equal to 1000 l; then determine the actual amount of water absorbed by the fine aggregate according to the formula:
B _fmz =

+

1 -

r _to

,
In _fm.s - water absorbed by a fine aggregate, l / m ³ ;
W _mz - water absorption of fine aggregate,% and determine the actual amount of water absorbed by a large aggregate, according to the formula
B _fkz =

+

1 -

(1-r _k )

where B _fc3 - water absorbed by a large aggregate, l / m ³ ;
W _KZ - water absorption of coarse aggregate in%, then determine the water consumption necessary for hydration of the binder according to the formula
In _city = Ts _m ˙K _ng
In _GV - water consumption for binder hydration, l / m ³ ;
C _p - binder consumption per 1 m ³ concrete mix. kg;
To _ng - the coefficient of normal density of the test from the binder. while the binder consumption is determined by the formula

₌

where ρ _vzh - the true density of the binder, kg / m ³ ; then determine the minimum flow rate of mixing water according to the formula
The _MZ = _f.m.z B + B + B _{f.k.z GV.} where In _m.z - the minimum flow rate of mixing water, l / m ³ ; then determine the flow rate of fine and coarse aggregate per 1 m ³ concrete mix according to the formulas:
MZ = (1000 - V _m.t.v ) ˙r _to ˙ ρ _m.z.

KZ = (1000 - V _m.t.v ) ˙ (1-r _to ) ρ _KZ where МЗ - fine aggregate consumption, kg;
KZ - consumption of large aggregate, kg.

, и минимальный объем теста из вяжущего, необходимый для приготовления бетонной смеси по формуле:
V_мцт =

1 -

1 -

V_const , где V_м.т.в - минимальный объем теста из вяжущего, л;
V_const - объемная постоянная, равная 1000 л; после чего определяют фактическое количество воды, поглощаемой мелким заполнителем по формуле:
B_фмз =

+

1 -

r_к·

где В_ф.м.з - поглощаемая мелким заполнителем вода, л/м³;
W_м.з - водопоглощение мелкого заполнителя, % ; и определяют фактическое количество воды, поглощаемой крупным заполнителем, по формуле:
B_фкз =

+

1 -

(1-r_к)·

, где В_ф.к.з - поглощаемая крупным заполнителем вода, л/м³;
W_к.з - водопоглощение крупного заполнителя в % , затем определяют расход воды, необходимый для гидратации цемента, по формуле:
В_г.в = Ц_м˙ К_н.г где В_г.в - расход воды на гидратацию вяжущего, л/м³;
Ц_м - расход вяжущего на 1 м³ бетонной смеси, кг;
К_н.г - коэффициент нормальной густоты теста из вяжущего, при этом расход вяжущего определяют по формуле
Ц_м =

где ρ_вж - истинная плотность вяжущего, кг/м³; после чего определяют минимальный расход воды затворения по формуле
В_м.з = В _ф.м.з + В _ф.к.з + В_г.в где В _м.з - минимальный расход воды затворения, л/м³; и затем определяют расход мелкого и крупного заполнителя на 1 м³ бетонной смеси по формулам
МЗ = (1000 - V_м.т.в) r_к ˙ ρ_м.з
КЗ = (1000 - V_м.т.в) (1-r_к) ˙ ρ_к.з где МЗ - расход мелкого заполнителя, кг;
МЗ - расход крупного заполнителя, кг.This goal is achieved by the fact that in the method of technical restoration or modification of buildings of structures, including the repair, and / or restoration, and / or reconstruction of construction objects with an engineering assessment of the condition of structures, the required amount of repair and restoration work, strengthening and / or restoration and / or removal and replacement of at least part of the supporting and / or enclosing structures and / or engineering systems, and / or extension and / or superstructure of the object using monolithic and / or prefabricated iron concrete, the concrete mixture for which is prepared on the basis of preliminary selection of components and determination of their initial properties, after determining the initial properties of the components: bulk and true density of fine and coarse aggregate, true density of binder, establish the ratio of fine aggregate to the total volume of fine and coarse aggregate in concrete mixtures according to the formula:
^r to ⁼

, and the minimum amount of binder dough needed to prepare the concrete mix according to the formula:
V _mtt =

1 -

1 -

V _const , where V _m.t.v is the minimum amount of dough from a binder, l;
V _const - volume constant equal to 1000 l; then determine the actual amount of water absorbed by the fine aggregate according to the formula:
B _fmz =

+

1 -

r _to

where V _fm.s - water absorbed by a fine aggregate, l / m ³ ;
W _mz - water absorption of fine aggregate,%; and determine the actual amount of water absorbed by the coarse aggregate, according to the formula:
B _fkz =

+

1 -

(1-r _k )

where B _fc3 - water absorbed by a large aggregate, l / m ³ ;
W _KZ - water absorption of coarse aggregate in%, then determine the water flow required for hydration of cement, according to the formula:
The _GV = _m ˙ K D where B _{NG GV} - water flow for the hydration of the binder, l / m ^3;
C _m - binder consumption per 1 m ³ concrete mix, kg;
To _ng - the coefficient of normal density of the test from the binder, while the consumption of binder is determined by the formula
C _m =

where ρ _vzh - the true density of the binder, kg / m ³ ; then determine the minimum flow rate of mixing water according to the formula
The _MZ B = _{f.m.z f.k.z} + B + B where B _{GV MZ} - minimum water flow gauging, l / m ^3; and then determine the consumption of fine and coarse aggregate per 1 m ³ concrete mix according to the formulas
MZ = (1000 - V _m.t.v ) r _to ˙ ρ _m.z
КЗ = (1000 - V _m.t.v ) (1-r _к ) ˙ ρ _к.з where МЗ - consumption of fine aggregate, kg;
MZ - consumption of large aggregate, kg

1+

- 1

, и минимальный объем цементного теста V_м.ц.т, необходимый для приготовления бетонной смеси, по формуле
V_мцт =

1 -

1 -

1000 л , после чего определяют фактическое количество воды В_ф.п (л/м³), поглощаемой песком, по формуле
B_ф.п =

+ λ_п

1 -

r_к·

, где W_п - водопоглощение песка, % и фактическое количество воды В_ф.щ (л/м³), поглощаемой щебнем по формуле:
B_ф.щ =

+

1 -

(1-r_к)·

, где W_щ - водопоглощение щебня, % ; затем определяют расход воды В_гц (л/м³), необходимый для гидратации цемента, по формуле:
В_г.ц = Ц_м ˙ К_н.г где Ц_м - расход цемента на 1 м³ бетонной смеси, кг;
К_н.г - коэффициент нормальной густоты цементного теста, при этом расход цемента определяют по формуле:
Ц_м =

затем определяют минимальный расход воды затворения В_м.з (л/м³) по формуле:
В_м.з = В_ф.п + В_ф.щ + В_г.ц, расход песка П и щебня Щ кг на 1 м³ бетонной смеси по формулам:
П = (1000 - V_м.ц.т)˙ r_к ˙ ρ_п
Щ = (1000 - V_м,ц,т) ˙ (1-r_к) ˙ ρ_щ
П р и м е р. Определяют стандартными методами свойства исходных компонентов: насыпную плотность λ и истинную плотность ρ мелкого и крупного заполнителей (λ_м.з = λ_п и ρ_м.з = ρ_п) и соответственно щебня ( λ_к.з = λ_щ и ρ_к.з = ρ_щ ).The goal is also achieved by the fact that in the method of selecting the composition of concrete, which includes determining the properties of the starting components: bulk and true density of the fine aggregate - sand, respectively, λ _m.s. = λ _p and ρ _m.s. = ρ _p , coarse aggregate - crushed stone, respectively λ _KZ = λ _^ and ρ _sc = Ρ _u. the true density of the binder - cement ρ _vzh = ρ _c , the determination of the consumption of components of the concrete mixture after determining the properties of the initial components, establish the ratio of sand to the total volume of aggregates (sand + crushed stone) in the concrete mixture r _to by the formula
r _to =

1+

- 1

, and the minimum volume of cement paste V _mts.t , necessary for the preparation of concrete mix, according to the formula
V _mtt =

1 -

1 -

1000 l, after which the actual amount of water is determined In _fp (l / m ³ ) absorbed by the sand, according to the formula
B _f.p =

+ λ _p

1 -

r _to

where W _p - water absorption of sand,% and the actual amount of water In _f.sch (l / m ³ ) absorbed by crushed stone according to the formula:
B _f .

+

1 -

(1-r _k )

where W _Щ - water absorption of crushed stone,%; then determine the flow rate of water in _Hz (l / m ³ ), necessary for hydration of cement, according to the formula:
In _city = Ts _m ˙ K _ng where Ts _m - cement consumption per 1 m ^{3 of} concrete mixture, kg;
To _ng - the coefficient of normal density of the cement paste, while cement consumption is determined by the formula:
C _m =

then determine the minimum flow rate of mixing water In _m (l / m ³ ) by the formula:
In _mz = V _fp + V _fp + V _gc , the consumption of sand P and crushed stone Щ kg per 1 m ^{3 of} concrete mixture according to the formulas:
P = (1000 - V _m.ts.t ) ˙ r _to ˙ ρ _p
Щ = (1000 - V _{m, q, t} ) ˙ (1-r _к ) ˙ ρ _щ
PRI me R. The properties of the starting components are determined by standard methods: bulk density λ and true density ρ of fine and coarse aggregates (λ _m.s. = λ _p and ρ _m.s. = ρ _p ) and, accordingly, crushed stone (λ _c.s. = λ _щ and ρ _{к. s} = ρ _u ).

The results of determining the properties of the components of the concrete mixture:
λ _p = 1450 kg / m ³ ,
λ _u = 1380 kg / m ³ ,
ρ _c = 3100 kg / m ³
ρ _p = 2620 kg / m ³ ;
ρ _u = 2730 kg / m ³ .

 In the concrete mix, gravel of a fraction of 5-20 mm is used, sand with a particle size modulus of 2.55, Portland cement of grade 400.

Determine the water absorption of sand W _p and crushed stone W _Щ by standard methods. Water absorption of sand W _p = 11%, gravel W _sh = = 3.5%. The coefficient of normal density of the cement paste K _ng = 0.275.

1+

·

- 1

= 0.351
После чего определяют минимальный объем цементного теста V_м.т.ц, необходимый для приготовления бетонной смеси по формуле:
V_м.т.ц =

1 -

1 -

1000 = 220.5 л Устанавливают минимальное количество воды затворения
B_м.з = 1380 ·

+ 1450

1 -

0.351 ·0.11 + 1450 ×
×

+ 1380

1 -

(1 - 0.351) · 0.035 +
+

= 171 л/м³. Затем определяют расход песка
П = (1000 л - 220,5 л) ˙0,35 ˙ ρ_п = 717 кг, определяют расход щебня
Щ = (1000 л - 220,5 л) ˙(1 - 0,351) ˙ ρ_щ= 1380 кг, и расход цемента
Ц =

= 154 кг - на 1 м³ бетонной смеси.Then determine the ratio of sand to the total volume of aggregates (sand + crushed stone) in the concrete mixture:
r _to =

1+

·

- 1

= 0.351
After that, the minimum volume of cement paste V _m.t.c necessary for the preparation of concrete mix is determined by the formula:
V _m.t.c =

1 -

1 -

1000 = 220.5 l Set the minimum amount of mixing water
B _m.z. = 1380

+ 1450

1 -

0.351.10.11 + 1450 ×
×

+ 1380

1 -

(1 - 0.351) 0.035 +
+

= 171 l / m ³ . Then determine the consumption of sand
P = (1000 l - 220.5 l) ˙0.35 ˙ ρ _p = 717 kg, determine the consumption of crushed stone
Ut = (1000 L - 220.5 L) ˙ (1 - 0,351) ˙ ρ _w = 1380 kg, and the consumption of cement
C =

= 154 kg - per 1 m ^{3 of} concrete mix.

 When calculating for a specific brand of concrete, the consumption of components is adjusted. (56) 1. SNIP 3.09.01 - 8. Production of prefabricated reinforced concrete structures and products. Delivery, dosing of materials and preparation of mixtures. P. 4.11, p. 8.

 2. Gershberg D. A. Technology of concrete and reinforced concrete products, M., Stroyizdat, 1965, p. 134-146, 161,198-259.

3. Ganichev I. A. Technology of construction of production, M., Stroyizdat, 1972, p. 292-294, 266, 344-352,
4. Indicated on the technology of repair and construction production and technological maps for work during the overhaul of residential buildings, book 1. General construction works, L., Stroyizdat, 1977, p. 192-223.

 5. Recommendations on the selection of compositions of heavy and fine-grained concrete, M., TsITP, 1990, p. 14-20, 36.

Claims (12)

METHOD FOR PREPARING CONCRETE, METHOD FOR PRODUCING CONSTRUCTIONS FROM CONCRETE OR REINFORCED CONCRETE, METHOD OF CONSTRUCTION, RESTORATION OR RECONSTRUCTION OF BUILDINGS, CONSTRUCTIONS, METHOD OF SELECTION OF CONCRETE COMPOSITION
1. The method of preparing concrete, including determining the bulk and true density of fine and large aggregates, the true density of the binder, establishing their consumption and consumption of mixing water, dosing and mixing the listed components, characterized in that after determining the properties of these components to establish the ratio of fine aggregate the volume of small and large aggregate in the concrete mixture according to the formula
r _to =

1+

- 1

,
where ρ _MZ - the true density of the fine aggregate, kg / m ³ ;
λ _m.s. - bulk density of fine aggregate, kg / m ³ ;
ρ _{short circuit} - true density of coarse aggregate, kg / m ³ ;
λ _short - bulk density of coarse aggregate, kg / m ³ ,
and the minimum volume of cement paste in l, required for the preparation of concrete mix, according to the formula
V _m.t. =

1 -

1 -

1000
where V _m.t. - the minimum amount of dough from a binder, l,
after which the actual amount of water in l / m ³ absorbed by the fine aggregate is determined by the formula
B _fmz =

+

1 -

r _to

,
where W _m. - standard water absorption of fine aggregate,%,
and determine the actual amount of water in l / m ³ absorbed by the core aggregate, according to the formula
B _fkz =

+

1 -

(1-r _k )

,
where W _{k. 3.} - standard water absorption of coarse aggregate,%,
then determine the flow rate of water l / m ³ necessary for hydration of the binder, according to the formula
In _g.v = Ts _m · K _ng ,
where C _m - binder consumption per 1 m ³ concrete mix, kg;
K _ng - the coefficient of normal density of the test from the binder, while the consumption of binder is determined by the formula
C _m =

where ρ _vzh - the true density of the binder kg / m ³ ,
then determine the minimum flow rate of water l / m ³ mixing according to the formula
B _mz = B _fmz + B _fkz + B _m.v. ,
then determine the consumption of small (MS) and large (KZ) aggregate for 1 m ³ concrete mix according to the formula
mz = (1000-V _mtv ) ˙r _to ˙ρ _mz ;
kz = (1000-V _mtv ) ˙ (1-r _k ) ˙ρ _kz .  2. The method according to p. 1, characterized in that pozzolanic cement, or Portland cement, or slag Portland cement, or quick-setting cement, or expanding, or combinations thereof are used as a binder.  3. The method according to PP. 1 and 2, characterized in that as a fine aggregate use sand with a module modality Mk 1.7 - 3.  4. The method according to PP. 1 - 3, characterized in that as a large aggregate use crushed stone fractions of 10 - 20 mm.  5. The method according to PP. 1 - 4, characterized in that as a large aggregate use crushed stone from igneous, or metamorphic, or sedimentary rocks, or from combinations thereof.  6. The method according to PP. 1 - 5, characterized in that as a large aggregate use crushed stone with a crushability of Dr 8 - 12. 7. A method of manufacturing structures of concrete or reinforced concrete, including determining the bulk and true density of fine and large aggregates, the true density of the binder, establishing their consumption and consumption of mixing water, dosing, mixing the components, feeding the resulting mixture into the mold or formwork, forming inserts and / or fittings with subsequent compaction of the mixture and its curing, characterized in that after determining these properties, the ratio of fine aggregate to total the volume of fine and large aggregate in the concrete mixture according to the formula
r _to =

1+

- 1

,
where ρ _mz - the true density of the fine aggregate, kg / m ³ ;
λ _mz - bulk density of fine aggregate, kg / m ³ ;
ρ _KZ - the true density of the coarse aggregate, kg / m ³ ;
λ _KZ - bulk density of coarse aggregate, kg / m ³ ,
and the minimum amount of cement binder from binder in l, necessary for the preparation of concrete mix, according to the formula
V _m.t. =

1 -

1 -

1000
after which the actual amount of water in l / m ³ absorbed by the fine aggregate is determined by the formula
B _fmz =

+

1 -

r _to

,
where W _MS - water absorption of fine aggregate,%
and determine the actual amount of water, l / m ³ absorbed by the core aggregate, according to the formula
B _fkz =

+

1 -

(1-r _k )

,
where W _KZ - water absorption of coarse aggregate,%,
then determine the water consumption necessary for hydration of the binder according to the formula
B _guards = Ts _m ˙K _ng ,
where C _m - binder consumption per 1 m ³ concrete mix, kg,
To _ng - coefficient of normal density of the binder test,
in this case, the binder consumption is determined by the formula
C _m =

,
where ρ _vzh - the true density of the binder, kg / m ³ ,
then determine the minimum flow rate of water in l / m ³ mixing according to the formula
B _ms = B _fms + B _fks + B _guards ,
then determine the flow rate of small MW and large short aggregate in kg per 1 m ^{3 of} concrete mix according to the formulas
mz = (1000-M _mtv ) r _to ˙ρ _mz ;
kz = (1000-V _mtv ) (1-r _k ) ρ _kz .  8. The method according to p. 7, characterized in that in the manufacture of monolithic, and / or prefabricated-monolithic, and / or prefabricated structures using removable or non-removable formwork.  9. The method according to PP. 7 and 8, characterized in that the concrete mixture is compacted by vibrating or vibrating, and curing is carried out by exposing the structures under normal conditions to a set of formwork or grade strength, or curing, at least partially / thermally, is heat-tested.  10. The method according to PP. 7 and 9, characterized in that the curing is carried out during heat treatment through the use of solar energy. 11. The method of construction, restoration or reconstruction of buildings, structures, including the tearing of pits and / or trenches, preparation of the foundation, construction of foundations and / or elevated structures made of prefabricated and / or monolithic concrete and / or reinforced concrete, selection of the concrete mix for which carried out by determining the initial properties of cement, large and small aggregate, establishing their consumption and consumption of mixing water, characterized in that they determine the bulk and true density of small and large aggregates, true binder density, after which, at least for some structures, the ratio of fine aggregate to the total volume of fine and large aggregate in the concrete mix is determined by the formula
r _to =

1+

- 1

,
where ρ _mz - the true density of the fine aggregate, kg / m ³ ;
λ _mz - bulk density of fine aggregate, kg / m ³ ;
ρ _KZ - the true density of the coarse aggregate, kg / m ³ ;
λ _KZ - bulk density of coarse aggregate, kg / m ³ ,
and the minimum volume of cement paste in l, required for the preparation of concrete mix, according to the formula
V _m.t. =

1 -

1 -

1000
after which the actual amount of water in l / m ³ absorbed by the fine aggregate is determined by the formula
B _fmz =

+

1 -

r _to

,
where W _MS - standard water absorption of fine aggregate,%,
and determine the actual amount of water l / m ³ absorbed by the core aggregate, according to the formula
B _fkz =

+

1 -

(1-r _k )

,
where W _KZ - standard water absorption of coarse aggregate,%,
then determine the water consumption l / m ³ necessary for the hydration of the binder, according to the formula
B _GV = C _m ˙K _ng ,
where C _m - binder consumption per 1 m ³ concrete mix, kg;
To _ng - coefficient of normal density of the binder test,
in this case, the binder consumption is determined by the formula

₌

,
where ρ _vzh - the true density of the binder kg / m ³ ;
then determine the minimum consumption of mixing water in l / m ³ according to the formula
B _ms = B _fms + B _fks + B _guards ,
then determine the consumption of small MW and large short aggregate in kg / m ³ concrete mix according to the formulas
mz = (1000-V _mtv ) r _to ρ _mz ; ;
kz = (1000-V _mtv ) (1-r _k ) ρ _kz . . 12. A method for selecting the composition of concrete, including determining the bulk and true density of fine aggregate and large aggregate, the true density of cement, establishing their consumption and consumption of mixing water, characterized in that after determining the properties of the starting components, the ratio of fine aggregate to the total volume of fine and medium is established aggregate in concrete mix according to the formula
^r to ⁼

and the minimum volume of cement paste in l, required for the preparation of concrete mix, according to the formula
V _mtt =

1 -

1 -

1000
then determine the actual amount of water l / m ³ absorbed by the fine aggregate, according to the formula
B _fmz =

+

1 -

r _to

,
where W _MS - standard water absorption of fine aggregate,%,
and the actual amount of water l / m ³ absorbed by the large aggregate, according to the formula
B _fkz =

+

1 -

(1-r _k )

,
where W _KZ - standard water absorption of coarse aggregate,%
then determine the water consumption l / m ³ necessary for hydration of cement according to the formula
B _Hz = C _m ˙K _ng ,
where C _m - cement consumption per 1 m ³ concrete mix, kg;
To _ng - coefficient of normal density of the cement paste,
in this case, the cement consumption is determined by the formula
C _m =

,
then determine the minimum consumption of mixing water, l / m ³ according to the formula
B _ms = B _fms + B _fks + B _Hz ,
consumption of fine aggregate mz and large aggregate KZ in kg per 1 m ^{3 of} concrete mix according to the formulas
mz = (1000-V _mtt ) r _to ρ _mz ;