CN114163167A - Super-strong high-toughness polyester concrete for rapid structural restoration, and preparation method and application thereof - Google Patents

Abstract

The application discloses super-strong high-toughness polyester concrete for rapid structural restoration, a preparation method and application. The super-strong high-toughness polyester concrete for quickly repairing the structure comprises raw materials of a component A, a component B and a component C; the component A is diphenylmethane diisocyanate MDI; the component B is polyester polyol; the component C is graded broken stone. The mass ratio of the component A to the component B to the component C is 2-6:2-6: 88-96. The mass ratio of the component A to the component B to the component C is 4:6: 90. The component C comprises graded broken stones which are required to be dried after being washed, besides meeting various technical requirements specified by national asphalt concrete pavement design standards. The invention has the characteristics of simple and convenient construction process, short construction period and low construction cost.

Description

Super-strong high-toughness polyester concrete for rapid structural restoration, and preparation method and application thereof

Technical Field

The application relates to concrete, in particular to super-strong high-toughness polyester concrete for quickly repairing a structure, a preparation method and application.

Background

With the increase of heavy traffic volume and the improvement of vehicle load grade, concrete cracks, corner damages, exposed stones, sand and other diseases commonly exist on concrete roads, concrete bridges and airport concrete pavements used under the harsh natural conditions, and extremely serious traffic safety hidden dangers exist.

At present, the conventional concrete pavement reinforcing method comprises replacement and modified asphalt concrete overlay. The replacement of damaged concrete needs to close traffic, and the replacement time is long, and a series of technical problems of rutting, asphalt concrete bud jamming, cracking and the like exist around a runway rising and falling belt and a taxiway stop waiting area by adopting a modified asphalt concrete cover.

Disclosure of Invention

It is an object of the present application to overcome the above problems or to at least partially solve or mitigate the above problems. Provides the super-strong high-toughness polyester concrete suitable for repairing the local section of a pavement structure and quickly repairing a super-early-strong super-strong high-toughness structure of a super-thin layer overlay.

In order to solve the technical problems, the invention provides super-strong high-toughness polyester concrete for quickly repairing a structure, which comprises raw materials of a component A, a component B and a component C;

the component A is diphenylmethane diisocyanate MDI;

the component B is polyester polyol;

the component C is graded broken stone.

The mass ratio of the component A to the component B to the component C is 2-6:2-6: 88-96.

The mass ratio of the component A to the component B to the component C is 4:6: 90.

The polyester polyol is based on adipic acid, and the preparation method of the polyester polyol comprises the following steps:

(1) putting 1, 4-butanediol, ethylene glycol and trimethylolpropane into a reaction kettle according to a certain molar ratio, and uniformly stirring;

(2) then putting adipic acid and dodecanedioic acid into the reaction kettle according to a certain molar ratio;

(3) stirring, heating the reaction system to 120-150 ℃, keeping the temperature of the reaction system at a clear and transparent liquid, and discharging water;

(4) stirring and heating, controlling the water yield, and controlling the water outlet temperature at the top of the kettle not to exceed the distillation temperature of 100 ℃; after the temperature of the reaction kettle reaches 225-255 ℃, keeping the temperature constant, vacuumizing to-0.8-0.9 MPa, detecting the hydroxyl value of the material in the reaction kettle during vacuumizing, and stopping vacuumizing when the hydroxyl value is 200-800 mgkoh/g;

(5) cooling the system to 50-60 ℃, adding a modifier, and uniformly stirring to obtain polyester polyol based on adipic acid;

the modifier comprises an amine or organic metal catalyst, a phosphate flame retardant and an organic silicon defoaming agent;

the addition amount of the amine or organic metal catalyst is 0.03-0.05% of the weight of the polyester polyol;

the addition amount of the phosphate flame retardant is 0.2-0.7% of the weight of the polyester polyol;

the addition amount of the organic silicon defoaming agent is 0.2-0.5% of the weight of the polyester polyol.

Among them, the organic metal catalyst is preferably dibutyltin dilaurate.

The catalyst is added to accelerate the setting time of the polyester concrete, so that the polyester concrete can be used for a site needing quick repair; the fire resistance of the polyester concrete is improved by adding the combustion improver; the addition of the defoaming agent improves the compactness of the polyester concrete.

The molar ratio of the adipic acid to the dodecanedioic acid to the 1, 4-butanediol to the ethylene glycol to the trimethylolpropane is 5.816: 1.086: 4.439: 6.659: 0.745;

or the molar ratio of the adipic acid, the dodecanedioic acid, the 1, 4-butanediol, the ethylene glycol and the trimethylolpropane is 5.679: 0.800: 3.884: 8.657: 0.745;

or the molar ratio of the adipic acid to the dodecanedioic acid to the 1, 4-butanediol to the ethylene glycol to the trimethylolpropane is 6.022: 0.434: 2.441: 11.653: 0.745;

or the molar ratio of the adipic acid to the dodecanedioic acid to the 1, 4-butanediol to the ethylene glycol to the trimethylolpropane is 6.022: 0.217: 2.441: 11.653: 0.745.

and when vacuumizing, introducing nitrogen into the bottom of the reaction kettle, controlling the pressure of an input pipe for conveying the nitrogen to be 0.15-0.25MPa, and stopping introducing the nitrogen until the hydroxyl value of the material in the reaction kettle is detected to be 200-800 mgkoh/g.

The acid value of the polyester polyol is less than 1.50mgkoh/g, and the average molecular weight is 140-560.

The maximum grain size of the graded broken stone is not more than 1/5-1/3 of the paving thickness, and the grading curve of the graded broken stone and the physical and chemical indexes of aggregate meet the national asphalt concrete.

The invention also provides a preparation method of the super-strong high-toughness polyester concrete for rapid structure restoration, which comprises the following steps:

(1) weighing the component A, the component B and the component C according to the amount;

(2) adding the component A into the component B, and pre-stirring for 3-5 minutes by adopting a drilling machine with the rotating speed not less than 1440r/m to form an organic cementing agent material;

(3) washing the component C, drying, adding the component C into the organic cementing agent material prepared in the step 2), stirring again for 5-10 minutes by adopting a forced concrete stirrer, and fully mixing to obtain the super-strong high-toughness concrete for quickly repairing the structure;

(4) the cast-in-place structure can be quickly repaired by using the super-strong high-toughness concrete, and the concrete is vibrated or rolled to be compact and naturally cured for 0.5 to 1.0 hour.

The invention also provides the application of the super-strong high-toughness polyester concrete for the rapid structural repair in the repair of asphalt concrete road surfaces of expressways, continuous systems of bridge deck structures, the local repair of concrete road surfaces of military and civil airports and ultrathin layer covers.

The invention overcomes the key technical problems of cracks, hollowing, falling off, ruts, pits, bracts and the like in the conventional maintenance reinforcing material, takes isocyanate, polyester polyol and various modifiers as cementing agents, takes fine aggregates such as graded broken stones and the like as reinforcing fillers, and the super-strong high-toughness composite material for the rapid structural repair manufactured under normal temperature and normal pressure not only has the characteristics of high strength, strong adhesion with the original structural interface, toughness, corrosion resistance, water resistance, permeability resistance, freezing resistance, impact resistance and aging resistance, but also has the characteristics of simple construction process, short construction period and low construction cost. Is particularly suitable for the ultrathin layer cover of the concrete road surface and the rapid maintenance and reinforcement under the condition of no navigation.

Detailed Description

The present application is further illustrated by the following specific examples:

example 1

Preparing raw materials according to the following weight percentage:

the component A is diphenylmethane diisocyanate MDI;

the component B is polyester polyol;

the component C is continuous graded broken stone; the maximum grain size is not more than 1/5-1/3 of the paving thickness, and the grading curve and the physical and chemical indexes of the aggregate meet the requirements of national asphalt concrete, and must be washed and dried.

The mass ratio of the component A to the component B to the component C is 4:6: 90.

The preparation method of the polyester polyol comprises the following steps:

according to the molar ratio of adipic acid, dodecanedioic acid, 1, 4-butanediol, diethylene glycol and trimethylolpropane being 5.816: 1.086: 4.439: 6.659: 0.745 preparing raw materials;

(1) putting 1, 4-butanediol, diethylene glycol and trimethylolpropane into a reaction kettle according to a certain molar ratio, and uniformly stirring;

(2) then putting adipic acid and dodecanedioic acid into the reaction kettle according to a certain molar ratio;

(3) stirring to heat the reaction system to 145 ℃, wherein the heating speed is 20-25 ℃ per hour, the reaction system is a clear transparent liquid and then is kept at a constant temperature until water is discharged, and the top temperature of the reaction kettle is raised from 30 ℃ to 65 ℃;

(4) stirring and heating, controlling the water yield, and controlling the water outlet temperature at the top of the kettle to be 85-98 ℃; after the temperature of the kettle reaches 245 ℃, vacuumizing to-0.9 MPa in a constant temperature state, sampling every 1.5 hours to detect the hydroxyl value of the material in the reaction kettle, and stopping vacuumizing when the hydroxyl value of the polyester polyol is measured to be 271 mgkoh/g; finally, the polyester polyol was found to have a hydroxyl value of 271mgkoh/g, an acid value of 0.960mgkoh/g and an average molecular weight of 412.1.

(5) Reducing the kettle top water temperature of the reaction system from 98 ℃ to 55 ℃, adding an organic metal catalyst, a phosphate flame retardant and an organic silicon defoamer, and uniformly stirring to obtain polyester polyol based on adipic acid; the addition amount of the organic metal catalyst is 0.04 percent of the weight of the polyester polyol; the addition amount of the phosphate flame retardant is 0.5 percent of the weight of the polyester polyol; the addition amount of the organic silicon defoamer is 0.3 percent of the weight of the polyester polyol.

Wherein the catalyst is an organotin catalyst with model number CAT-TK 65 provided by Nantong Haokai chemical product Co.Ltd; the organosilicon antifoaming agent is an antifoaming agent provided by Shanghai Chengzi International trade company, Inc. and having a model number of GS-5411; the phosphate flame retardant is a flame retardant with the model of RF-107 provided by Qingdao union beauty chemical Co.

Wherein the graded broken stones are made of sand by a water washing and drying machine provided by a crutch stone field in Kogyo city of Liaoning province. When the thickness of the spread concrete is 4-5cm, the grain diameter of the graded broken stone is 10-13 mm.

The preparation method of the super-strong high-toughness polyester concrete for the rapid structural restoration comprises the following steps:

(1) weighing the component A, the component B and the component C according to the amount;

(2) adding the component A into the component B, and pre-stirring for 4 minutes by adopting a drilling machine with the rotating speed of 1440 revolutions per minute to form an organic cementing agent material;

(3) adding the component C into the organic cementing agent material prepared in the step 2), stirring again for 8 minutes by adopting a forced concrete stirrer, and fully mixing to obtain concrete slurry;

(4) and (3) pouring concrete slurry on site, paving 4 cm on a runway to be repaired of the airport, rolling and compacting, and naturally curing for 1 hour to open traffic.

Example 2

Preparing raw materials according to the following weight percentage:

the component A is diphenylmethane diisocyanate MDI;

the component B is polyester polyol;

the component C is continuous graded broken stone; the maximum grain size is not more than 1/3 of the paving thickness, and the grading curve and the physical and chemical indexes of the aggregate meet the requirements of national asphalt concrete, and must be washed and dried.

The mass ratio of the component A to the component B to the component C is 2:2: 88.

The preparation method of the polyester polyol comprises the following steps:

according to the molar ratio of adipic acid, dodecanedioic acid, 1, 4-butanediol, diethylene glycol and trimethylolpropane of 5.679: 0.800: 3.884: 8.657: 0.745 preparing raw materials;

(1) putting 1, 4-butanediol, diethylene glycol and trimethylolpropane into a reaction kettle according to a certain molar ratio, and uniformly stirring;

(2) then putting adipic acid and dodecanedioic acid into the reaction kettle according to a certain molar ratio;

(3) stirring to heat the reaction system to 120 ℃, wherein the heating speed is 20-25 ℃ per hour, and the reaction system is in a clear transparent liquid state and then is kept at a constant temperature until water is discharged;

(4) stirring and heating, controlling the water yield, and controlling the water outlet temperature at the top of the kettle to be 85-98 ℃; after the temperature of the kettle reaches 225 ℃, vacuumizing to-0.8 MPa in a constant temperature state; sampling every 1 hour to detect the hydroxyl value of the material in the reaction kettle, and stopping vacuumizing when the hydroxyl value of the polyester polyol is 431 mgkoh/g; finally, it was found that the acid value of the polyester polyol was 0.850mgkoh/g and the average molecular weight was 259.6.

(5) Reducing the kettle top water temperature of a reaction system from 98 ℃ to 50 ℃, adding a catalyst, a phosphate flame retardant and an organic silicon defoamer, and uniformly stirring to obtain polyester polyol based on adipic acid; wherein the addition amount of the catalyst is 0.03 percent of the weight of the polyester polyol; the addition amount of the phosphate flame retardant is 0.2 percent of the weight of the polyester polyol; the addition amount of the organic silicon defoamer is 0.5 percent of the weight of the polyester polyol.

The catalyst is dibutyltin dilaurate catalyst provided by Nantong Haoyita chemical products Co.Ltd and having model number of CAT-TK 65; the organosilicon antifoaming agent is an antifoaming agent provided by Shanghai Chengzi International trade company, Inc. and having a model number of GS-5411; the phosphate flame retardant is a flame retardant with the model of RF-107 provided by Qingdao union beauty chemical Co.

Wherein the graded broken stones are made of sand by a water washing and drying machine provided by a crutch stone field in Kogyo city of Liaoning province.

The preparation method of the super-strong high-toughness polyester concrete for the rapid structural restoration comprises the following steps:

(1) weighing the component A, the component B and the component C according to the amount;

(2) adding the component A into the component B, and pre-stirring for 5 minutes by adopting a drilling machine with the rotating speed of 1440 revolutions per minute to form an organic cementing agent material;

(3) adding the component C into the organic cementing agent material prepared in the step 2), stirring again for 5 minutes by adopting a forced concrete stirrer, and fully mixing to obtain concrete slurry;

(4) and (3) pouring concrete grout on site onto the to-be-repaired road surface of the asphalt concrete of the highway, and naturally curing for 0.5 hour.

Example 3

Preparing raw materials according to the following weight percentage:

the component A is diphenylmethane diisocyanate MDI;

the component B is polyester polyol;

the component C is continuous graded broken stone; the maximum grain size is not more than 1/5 of the paving thickness, and the grading curve and the physical and chemical indexes of the aggregate meet the requirements of national asphalt concrete, and must be washed and dried.

The mass ratio of the component A to the component B to the component C is 6:5: 96.

The preparation method of the polyester polyol comprises the following steps:

according to the molar ratio of adipic acid, dodecanedioic acid, 1, 4-butanediol, diethylene glycol and trimethylolpropane of 6.022: 0.434: 2.441: 11.653: 0.745 preparing raw materials;

(1) putting 1, 4-butanediol, diethylene glycol and trimethylolpropane into a reaction kettle according to a certain molar ratio, and uniformly stirring;

(2) then putting adipic acid and dodecanedioic acid into the reaction kettle according to a certain molar ratio;

(3) stirring to heat the reaction system to 150 ℃, wherein the heating speed is 20-25 ℃ per hour, and the system is a clear transparent liquid and then is kept at a constant temperature until water is discharged;

(4) stirring and heating, controlling the water yield, and controlling the water outlet temperature at the top of the kettle to be 85-98 ℃; after the temperature of the reaction kettle reaches 255 ℃, vacuumizing to-0.8 MPa in a constant temperature state, introducing nitrogen into the bottom of the reaction kettle, controlling the pressure of an input pipe for conveying the nitrogen to be 0.2MPa, sampling every 2 hours to detect the hydroxyl value of the material in the reaction kettle, and stopping vacuumizing when the hydroxyl value of the polyester polyol is measured to be 532 mgkoh/g; finally, it was found that the acid value of the polyester polyol was 0.650mgkoh/g and the average molecular weight was 210.8.

(5) Reducing the temperature of kettle top water of a reaction system from 98 ℃ to 60 ℃, adding an amine catalyst, a phosphate flame retardant and an organic silicon defoamer, and uniformly stirring to obtain polyester polyol based on adipic acid; wherein the addition amount of the catalyst is 0.05 percent of the weight of the polyester polyol; the addition amount of the phosphate flame retardant is 0.7 percent of the weight of the polyester polyol; the addition amount of the organic silicon defoamer is 0.2 percent of the weight of the polyester polyol. The organosilicon antifoaming agent is an antifoaming agent provided by Shanghai Chengzi International trade company, Inc. and having a model number of GS-5411; the phosphate flame retardant is a flame retardant with the model of RF-107 provided by Qingdao union beauty chemical Co.

Wherein the graded broken stones are made of sand by a water washing and drying machine provided by a crutch stone field in Kogyo city of Liaoning province.

The preparation method of the super-strong high-toughness polyester concrete for the rapid structural restoration comprises the following steps:

(1) weighing the component A, the component B and the component C according to the amount;

(2) adding the component A into the component B, and pre-stirring for 4 minutes by adopting a drilling machine with the rotating speed of 1440 revolutions per minute to form an organic cementing agent material;

(3) adding the component C into the organic cementing agent material prepared in the step 2), stirring again for 9 minutes by adopting a forced concrete stirrer, and fully mixing to obtain concrete slurry;

(4) and (3) pouring concrete slurry on site onto the bridge deck to-be-repaired structure, and naturally curing for 0.5 hour.

Example 4

Preparing raw materials according to the following weight percentage:

the component A is diphenylmethane diisocyanate MDI;

the component B is polyester polyol;

the component C is continuous graded broken stone; the maximum grain size is not more than 4/15 of the paving thickness, and the grading curve and the physical and chemical indexes of the aggregate meet the requirements of national asphalt concrete, and must be washed and dried.

The mass ratio of the component A to the component B to the component C is 5:3: 92.

The preparation method of the polyester polyol comprises the following steps:

according to the molar ratio of adipic acid, dodecanedioic acid, 1, 4-butanediol, diethylene glycol and trimethylolpropane of 6.022: 0.217: 2.441: 11.653: 0.745 preparing raw materials;

(1) putting 1, 4-butanediol, diethylene glycol and trimethylolpropane into a reaction kettle according to a certain molar ratio, and uniformly stirring;

(2) then putting adipic acid and dodecanedioic acid into the reaction kettle according to a certain molar ratio;

(3) stirring to heat the reaction system to 130 ℃, wherein the heating speed is 20-25 ℃ per hour, and the system is in a clear transparent liquid state and then is kept at a constant temperature until water is discharged;

(4) stirring and heating, controlling the water yield, and controlling the water outlet temperature at the top of the kettle not to exceed the distillation temperature of 100 ℃; after the temperature of the kettle reaches 235 ℃, vacuumizing to-0.8 MPa in a constant temperature state, sampling every 1 hour to detect the hydroxyl value of the material in the reaction kettle, and stopping vacuumizing when the hydroxyl value of the polyester polyol is 721 mgkoh/g; finally, it was found that the acid value of the polyester polyol was 0.500mgkoh/g and the average molecular weight was 155.5.

(5) Reducing the kettle top water temperature of a reaction system from 98 ℃ to 55 ℃, adding a catalyst, a phosphate flame retardant and an organic silicon defoamer, and uniformly stirring to obtain polyester polyol based on adipic acid; wherein the addition amount of the catalyst is 0.03 percent of the weight of the polyester polyol; the addition amount of the phosphate flame retardant is 0.6 percent of the weight of the polyester polyol; the addition amount of the organic silicon defoamer is 0.4 percent of the weight of the polyester polyol. Wherein the catalyst is dibutyltin dilaurate catalyst provided by Nantong Haokai chemical product Co.Ltd and having model number of CAT-TK 65; the organosilicon antifoaming agent is an antifoaming agent provided by Shanghai Chengzi International trade company, Inc. and having a model number of GS-5411; the phosphate flame retardant is a flame retardant with the model of RF-107 provided by Qingdao union beauty chemical Co.

Wherein the graded broken stones are made of sand by a water washing and drying machine provided by a crutch stone field in Kogyo city of Liaoning province.

The preparation method of the super-strong high-toughness polyester concrete for the rapid structural restoration comprises the following steps: (1) weighing the component A, the component B and the component C according to the amount;

(2) adding the component A into the component B, and pre-stirring for 3 minutes by adopting a drilling machine with the rotating speed of 1440 revolutions per minute to form an organic cementing agent material;

(3) adding the component C into the organic cementing agent material prepared in the step 2), stirring again for 10 minutes by adopting a forced concrete stirrer, and fully mixing to obtain concrete slurry;

(4) and (3) pouring concrete grout on site onto the local section of the airport concrete pavement, and naturally curing for 1.5 hours.

The mechanical properties of the polyester concrete for rapid structural repair of the present invention are shown in Table 1

As can be seen from table 1 test data of the present invention, the present invention has the following advantages:

(1) the flexural strength of the airport concrete pavement is about 5.5MPa, and the concrete of the invention is more than ten times of the flexural strength, which shows that the airport concrete pavement has high strength;

(2) the ultimate tensile strain and the ultimate compressive strain of the airport pavement concrete are respectively about 125 mu epsilon and 1500 mu epsilon, and the concrete of the invention is respectively more than 8 times and about 3 times of the ultimate tensile strain and the ultimate compressive strain, which shows that the invention has good toughness;

(3) the bonding strength between the novel high-strength concrete and concrete is 3.9MPa, which is far greater than the technical requirement of not less than 2.5MPa specified by national concrete structure reinforcement design specifications, and the novel high-strength concrete can ensure that the interfaces of new and old materials are not damaged. Indicating good bonding characteristics between the patented product and the concrete.

(4) The technical indexes of the invention for resisting seepage, freezing and chloride ion permeation all reach the upper limit value specified by the national design specification of reinforcing steel bars and prestressed concrete bridges, and the invention has good durability.

The high-strength elastic concrete is used for carrying out thin-layer cover covering on concrete pavement of super-large urban expressways and military and civil airports, so that the bearing capacity of the active concrete pavement is practically improved, the service technical index of the active airport pavement can be effectively improved, the service life of an original structure is prolonged, and good social and economic benefits are achieved.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which this application belongs.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present application should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. The super-strong high-toughness polyester concrete for rapid structural restoration is characterized by comprising raw materials of a component A, a component B and a component C;

the component A is diphenylmethane diisocyanate MDI;

the component B is polyester polyol;

the component C is graded broken stone.

2. Superstrong high tenacity polyester concrete for rapid structural restoration according to claim 1, wherein the mass ratio of the component a, the component B and the component C is 2-6:2-6: 88-96.

3. The super high toughness polyester concrete for rapid structural restoration according to claim 2, wherein the mass ratio of the component A, the component B and the component C is 4:6: 90.

4. Superstrong high tenacity polyester concrete for rapid structural repair according to any of claims 1 to 3, wherein said polyester polyol is an adipic acid based polyester polyol, and said polyester polyol is prepared by a method comprising the steps of:

(1) putting 1, 4-butanediol, ethylene glycol and trimethylolpropane into a reaction kettle according to a certain molar ratio, and uniformly stirring;

(2) then putting adipic acid and dodecanedioic acid into the reaction kettle according to a certain molar ratio;

(3) stirring, heating the reaction system to 120-150 ℃, keeping the temperature of the reaction system at a clear and transparent liquid, and discharging water;

(4) stirring and heating, controlling the water yield, and controlling the water outlet temperature at the top of the kettle not to exceed the distillation temperature of 100 ℃; after the temperature of the reaction kettle reaches 225-255 ℃, keeping the temperature constant, vacuumizing to-0.8-0.9 MPa, detecting the hydroxyl value of the material in the reaction kettle during vacuumizing, and stopping vacuumizing when the hydroxyl value is 200-800 mgkoh/g;

(5) cooling the system to 50-60 ℃, adding a modifier, and uniformly stirring to obtain polyester polyol based on adipic acid;

the modifier comprises an amine or organic metal catalyst, a phosphate flame retardant and an organic silicon defoaming agent;

the addition amount of the amine or organic metal catalyst is 0.03-0.05% of the weight of the polyester polyol;

the addition amount of the phosphate flame retardant is 0.2-0.7% of the weight of the polyester polyol;

the addition amount of the organic silicon defoaming agent is 0.2-0.5% of the weight of the polyester polyol.

5. Superstrong high tenacity polyester concrete for the rapid structural repair according to claim 4, characterized in that the molar ratio of adipic acid, dodecanedioic acid, 1, 4-butanediol, ethylene glycol, trimethylolpropane is 5.816: 1.086: 4.439: 6.659: 0.745;

or the molar ratio of the adipic acid, the dodecanedioic acid, the 1, 4-butanediol, the ethylene glycol and the trimethylolpropane is 5.679: 0.800: 3.884: 8.657: 0.745;

or the molar ratio of the adipic acid to the dodecanedioic acid to the 1, 4-butanediol to the ethylene glycol to the trimethylolpropane is 6.022: 0.434: 2.441: 11.653: 0.745;

or the molar ratio of the adipic acid to the dodecanedioic acid to the 1, 4-butanediol to the ethylene glycol to the trimethylolpropane is 6.022: 0.217: 2.441: 11.653: 0.745.

6. the super-strong high-toughness polyester concrete for the rapid repair of structures as claimed in claim 4 or 5, wherein nitrogen is introduced to the bottom of the reaction kettle during vacuum pumping, the pressure of an input pipe for conveying nitrogen is controlled to be 0.15-0.25MPa, and the introduction of nitrogen is stopped until the hydroxyl value of the material in the reaction kettle is detected to be 200-800 mgkoh/g.

7. Superstrong high tenacity polyester concrete for quick structure repair according to claim 6, wherein the polyester polyol acid value is less than 1.50mgkoh/g, and the average molecular weight is 140-560.

8. Super high tenacity polyester concrete for rapid structural restoration according to claim 1, wherein the maximum particle size of said graded broken stone is not more than 1/5-1/3 of the paving thickness, the grading curve of said graded broken stone and the physicochemical index of aggregate meet national asphalt concrete.

9. The method for preparing super high toughness polyester concrete for rapid structural repair according to any one of claims 1 to 8, comprising the steps of:

(1) weighing the component A, the component B and the component C according to the amount;

(2) adding the component A into the component B, and pre-stirring for 3-5 minutes by adopting a drilling machine with the rotating speed not less than 1440r/m to form an organic cementing agent material;

(3) washing the component C, drying, adding the component C into the organic cementing agent material prepared in the step 2), stirring again for 5-10 minutes by adopting a forced concrete stirrer, and fully mixing to obtain the super-strong high-toughness concrete for quickly repairing the structure;

(4) the cast-in-place structure can be quickly repaired by using the super-strong high-toughness concrete, and the concrete is vibrated or rolled to be compact and naturally cured for 0.5 to 1.0 hour.

10. The application of super-strong high-toughness polyester concrete for quick structure repair in repairing asphalt concrete pavement of expressway, continuous bridge deck structure system, local repair of concrete pavement of civil and military airport and super-thin layer cover is disclosed.