CN112794683A - Waste concrete-based regenerated cementing material and preparation method thereof - Google Patents

Waste concrete-based regenerated cementing material and preparation method thereof Download PDF

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CN112794683A
CN112794683A CN202110041733.XA CN202110041733A CN112794683A CN 112794683 A CN112794683 A CN 112794683A CN 202110041733 A CN202110041733 A CN 202110041733A CN 112794683 A CN112794683 A CN 112794683A
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waste concrete
powder
waste
cement paste
coal gangue
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CN112794683B (en
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李伟峰
纪小敏
马素花
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Nanjing Tech University
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    • CCHEMISTRY; METALLURGY
    • C04CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
    • C04BLIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
    • C04B28/00Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements
    • C04B28/02Compositions of mortars, concrete or artificial stone, containing inorganic binders or the reaction product of an inorganic and an organic binder, e.g. polycarboxylate cements containing hydraulic cements other than calcium sulfates
    • CCHEMISTRY; METALLURGY
    • C04CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
    • C04BLIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
    • C04B7/00Hydraulic cements
    • C04B7/24Cements from oil shales, residues or waste other than slag
    • CCHEMISTRY; METALLURGY
    • C04CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
    • C04BLIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
    • C04B7/00Hydraulic cements
    • C04B7/24Cements from oil shales, residues or waste other than slag
    • C04B7/246Cements from oil shales, residues or waste other than slag from waste building materials, e.g. waste asbestos-cement products, demolition waste
    • CCHEMISTRY; METALLURGY
    • C04CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
    • C04BLIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
    • C04B7/00Hydraulic cements
    • C04B7/36Manufacture of hydraulic cements in general
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P40/00Technologies relating to the processing of minerals
    • Y02P40/10Production of cement, e.g. improving or optimising the production methods; Cement grinding

Abstract

The invention discloses a waste concrete-based regenerated cementing material and a preparation method thereof. Crushing hardened cement paste in the waste concrete into fine particles, and then grinding into powder; grinding coal gangue powder into powder; and uniformly mixing the water reducing agent and the retarder, calcining for 2-3 h at 700-800 ℃, taking out, rapidly cooling to room temperature, uniformly mixing with dihydrate gypsum, preparing a water solution from the water reducing agent and the retarder and uniformly stirring with the mixture to obtain the gypsum-containing water reducing agent. The invention compounds the hardened slurry separated from the waste concrete and the coal gangue, and the material has the gelling property again after the heat treatment, and the regenerated gelling material has high strength and good durability, can reduce the waste treatment cost, changes waste into valuable, can protect the environment and save natural resources.

Description

Waste concrete-based regenerated cementing material and preparation method thereof
Technical Field
The invention belongs to the field of building materials, and particularly relates to a regenerated cementing material prepared from hardened cement paste and coal gangue in waste concrete and a preparation method thereof.
Background
At present, resource utilization of waste concrete mainly focuses on two aspects: firstly, the waste concrete is broken and used as a filling material for roadbeds or low-strength products such as building blocks, paving bricks and the like, and nearly 90 percent of the waste concrete is treated in such a way. Secondly, the separated recycled aggregate is used for partially or completely replacing natural aggregate to prepare recycled aggregate concrete, and research shows that: the separated recycled aggregate has high water absorption and slightly poor physical properties due to the fact that old cement mortar is attached to the surface of the recycled aggregate, so that the prepared recycled concrete has the defects of low compressive strength, large elastic modulus, poor durability and the like, and the application range of the recycled concrete is limited. And the fine powder mainly comprising hardened cement mortar which is sieved out cannot be effectively utilized.
In recent years, the thermal regeneration of cement mortar in waste concrete is concentrated at home and abroad, hardened cement paste in the waste concrete is separated by a crushing device, and the waste concrete is calcined at a certain temperature to stimulate the hydration activity of the waste cement paste to prepare the regenerated cementing material. But due to C-S-H gel, Ca (OH)2And CaCO3f-CaO is generated in a large amount when decomposed by heat, and Ca (OH) is rapidly formed when the F-CaO contacts water2Not only a large amount of mixing water needs to be consumed. Meanwhile, the reaction of the f-CaO and the water is a rapid exothermic process, the generated heat can accelerate the hydration reaction of other components, the working performance of the regenerated gel material is poor, the strength grade of the regenerated gel material is low, and the regenerated gel material cannot be effectively utilized.
Disclosure of Invention
The purpose of the invention is as follows: the invention aims to solve the technical problem of providing a regenerated cementing material prepared by using hardened cement paste and coal gangue in waste concrete aiming at the defects of the prior art.
In order to achieve the purpose, the technical scheme adopted by the invention is as follows:
the waste concrete-based regenerated cementing material comprises the following components in parts by weight:
Figure BDA0002896152920000011
Figure BDA0002896152920000021
specifically, the waste hardened cement paste is obtained by crushing hardened cement paste in waste concrete, grinding the crushed hardened cement paste, and calcining the ground hardened cement paste at 700-800 ℃.
Specifically, the calcined coal gangue is obtained by grinding coal gangue and calcining at 700-800 ℃.
Further, the invention also provides a preparation method of the waste concrete-based regenerated cementing material, which comprises the following steps:
(1) crushing hardened cement paste in the waste concrete into fine particles, and then grinding into powder;
(2) grinding coal gangue powder into powder;
(3) uniformly mixing the waste concrete hardened slurry powder obtained in the step (1) with the coal gangue powder obtained in the step (2), calcining at 700-800 ℃ for 2-3 h, taking out, and then quenching to room temperature;
(4) uniformly mixing the calcined product in the step (3) with dihydrate gypsum;
(5) mixing a water reducing agent and a retarder in water to prepare an aqueous solution, and uniformly stirring;
(6) and (4) uniformly stirring the aqueous solution obtained in the step (5) and the mixture obtained in the step (4).
Preferably, in the step (1), the hardened cement paste in the waste concrete is firstly crushed into particles with the particle size of less than or equal to 5mm, and then the particles are ground by a ball mill to powder with the particle size of less than or equal to 100 meshes.
Preferably, in the step (2), the coal gangue is ground to powder with the granularity less than or equal to 100 meshes by a ball mill.
Preferably, in step (3), a mixer is used for mixing and homogenizing before calcination.
Preferably, in the step (4), a proper amount of dihydrate gypsum is added into the calcined product to adjust the setting speed of the regenerated cementing material, after uniform mixing, the calcined product is digested for 2-3 days under the conditions that the temperature is 20 +/-1 ℃ and the humidity is 99%, the cement slurry with a large content of CaO becomes powdered hydroxide with a small free water content after water absorption, and the water-cement ratio of a later-stage cementing system and the early-stage high heat release can be effectively reduced.
In the invention, after the hardened slurry separated from the waste concrete is subjected to heat treatment, the C-S-H gel can be decomposed to generate C with rehydration activity2S, and C-S-H gel, Ca (OH)2And CaCO3The decomposition by heat generates more f-CaO, and a large amount of Ca (OH) is rapidly formed when the F-CaO contacts water2And good excitation conditions can be provided for the calcined coal gangue with the volcanic ash activity. The hardened slurry and coal gangue composite system can reduce the waste treatment cost, change waste into valuable, protect the environment, and the regenerated cementing material has high strength and good durability.
Has the advantages that:
compared with the prior art, the invention has the following advantages: (1) compared with the existing regenerated cementing material, the raw materials of the regenerated cementing material product of the invention, except the admixture, adopt industrial wastes, the usage amount is up to more than 97%, and clinker such as cement and the like is not added, so that the resource utilization of solid wastes such as waste concrete and coal gangue can be realized, the consumption of natural resources is saved, and the environment is protected. (2) After the digestion process, a large amount of CaO absorbs water and is changed into powdered hydroxide with little free water content, thereby not only solving the problems of large early heat release and high water demand caused by high f-CaO content of hardened slurry after heat treatment, but also generating a large amount of Ca (OH) when meeting water2Can also provide good excitation condition (xCa (OH)) for coal gangue with volcanic ash activity2+SiO2+mH2O→xCaO·SiO2·mH2O,yCa(OH)2+Al2O3+mH2O→yCaO·Al2O3·mH2O), improves the hydration performance of the regenerated cementing material, improves the durability and has certain technical feasibility. (3) The method has the advantages of simple operation, low cost, obvious effect, low energy consumption and obvious work efficiencyThe industrial and practical value.
Drawings
The foregoing and/or other advantages of the invention will become further apparent from the following detailed description of the invention when taken in conjunction with the accompanying drawings.
FIG. 1 is a flow chart of the preparation of the regenerated gel material of the present invention.
Detailed Description
The invention will be better understood from the following examples.
In the following examples, the water reducing agents were all high-efficiency water reducing agents of Tanzhou Langpo company, and the retarders were all tartaric acid.
In the following examples, the cement used in the waste hardened cement paste is 52.5 cement.
Example 1:
the composition of the regenerated cementitious material of this example includes:
Figure BDA0002896152920000031
the preparation method of the regenerated gel material of the embodiment comprises the following steps: drying the waste hardened cement paste particles and the coal gangue for 24 hours at 50 ℃, then respectively grinding the waste hardened cement paste particles and the coal gangue into waste hardened cement paste powder with the granularity of less than or equal to 100 meshes and mixing and homogenizing the waste hardened cement paste powder and the coal gangue powder by a mixer; and (3) putting the mixed waste hardened cement slurry powder and coal gangue powder into a muffle furnace, heating to 750 ℃, preserving heat for 2 hours, and then quenching to room temperature by using wind power. The calcined product was mixed with dihydrate gypsum, homogenized by mixing with a blender, and digested in a curing oven at 20 + -1 deg.C and a humidity of 99% for 2 days. Mixing the high-efficiency water reducing agent and the retarder in water to prepare an aqueous solution, uniformly stirring, pouring into a stirrer to be uniformly stirred with the mixture, forming into cubic test blocks of 2cm multiplied by 2cm, and measuring the compressive strength of the regenerated hardened cement paste cementing material neat paste at each age after standard curing for 3d, 7d and 28d, wherein the results are shown in Table 1.
Example 2:
the composition of the regenerated cementitious material of this example includes:
Figure BDA0002896152920000041
the preparation method of the regenerated gel material of the embodiment comprises the following steps: drying the waste hardened cement paste particles and coal gangue at 50 ℃ for 24 hours, then grinding the waste hardened cement paste particles and coal gangue into waste hardened cement paste powder with the granularity less than or equal to 100 meshes, and mixing and homogenizing the waste hardened cement paste powder and the coal gangue powder by a mixer; and (3) putting the mixed waste hardened cement slurry powder and coal gangue powder into a muffle furnace, heating to 750 ℃, preserving heat for 2 hours, and then quenching to room temperature by using wind power. The calcined product was mixed with dihydrate gypsum, homogenized by mixing with a blender, and digested in a curing oven at 20 + -1 deg.C and a humidity of 99% for 2 days. Mixing the high-efficiency water reducing agent and the retarder in water to prepare an aqueous solution, uniformly stirring, pouring into a stirrer to be uniformly stirred with the mixture, forming into cubic test blocks of 2cm multiplied by 2cm, and measuring the compressive strength of the regenerated hardened cement paste cementing material neat paste at each age after standard curing for 3d, 7d and 28d, wherein the results are shown in Table 1.
Example 3:
the composition of the regenerated cementitious material of this example includes:
Figure BDA0002896152920000042
Figure BDA0002896152920000051
the preparation method of the regenerated gel material of the embodiment comprises the following steps: drying the waste hardened cement paste particles and coal gangue at 50 ℃ for 24 hours, then grinding the waste hardened cement paste particles and coal gangue into waste hardened cement paste powder with the granularity less than or equal to 100 meshes, and mixing and homogenizing the waste hardened cement paste powder and the coal gangue powder by a mixer; and (3) putting the mixed waste hardened cement slurry powder and coal gangue powder into a muffle furnace, heating to 750 ℃, preserving heat for 2 hours, and then quenching to room temperature by using wind power. The calcined product was mixed with dihydrate gypsum, homogenized by mixing with a blender, and digested in a curing oven at 20 + -1 deg.C and a humidity of 99% for 2 days. Mixing the high-efficiency water reducing agent and the retarder in water to prepare an aqueous solution, uniformly stirring, pouring into a stirrer to be uniformly stirred with the mixture, forming into cubic test blocks of 2cm multiplied by 2cm, and measuring the compressive strength of the regenerated hardened cement paste cementing material neat paste at each age after standard curing for 3d, 7d and 28d, wherein the results are shown in Table 1.
Comparative example 1:
the composition of the regenerated cementitious material of this example includes:
Figure BDA0002896152920000052
the preparation method of the regenerated gel material of the embodiment comprises the following steps: drying the waste hardened cement paste particles and coal gangue at 50 ℃ for 24 hours, then grinding the waste hardened cement paste particles and coal gangue into waste hardened cement paste powder with the granularity less than or equal to 100 meshes, and mixing and homogenizing the waste hardened cement paste powder and the coal gangue powder by a mixer; and (3) putting the mixed waste hardened cement slurry powder and coal gangue powder into a muffle furnace, heating to 750 ℃, preserving heat for 2 hours, and then quenching to room temperature by using wind power. The calcined product was mixed with dihydrate gypsum, homogenized by mixing with a blender, and digested in a curing oven at 20 + -1 deg.C and a humidity of 99% for 2 days. Mixing the high-efficiency water reducing agent and the retarder in water to prepare an aqueous solution, uniformly stirring, pouring into a stirrer to be uniformly stirred with the mixture, forming into cubic test blocks of 2cm multiplied by 2cm, and measuring the compressive strength of the regenerated hardened cement paste cementing material neat paste at each age after standard curing for 3d, 7d and 28d, wherein the results are shown in Table 1.
Comparative example 2:
0.2 part of water reducing agent and 0.1 part of retarder are dissolved in 40 parts of water to prepare an aqueous solution, the aqueous solution is uniformly stirred, then the aqueous solution is poured into a stirrer to be uniformly stirred with 100 parts of 42.5 parts of cement, a cubic test block with the size of 2cm multiplied by 2cm is formed, after standard curing is carried out for 3d, 7d and 28d, the compressive strength of the hardened cement paste cementing material neat paste at each age is measured, and the results are shown in Table 1.
Comparative example 3:
the composition of the regenerated cementitious material of this example includes:
Figure BDA0002896152920000061
the preparation method of the regenerated gel material of the embodiment comprises the following steps: drying the waste hardened cement paste particles and the coal gangue for 24 hours at 50 ℃, then respectively grinding the waste hardened cement paste particles and the coal gangue into waste hardened cement paste powder with the granularity of less than or equal to 100 meshes and mixing and homogenizing the waste hardened cement paste powder and the coal gangue powder by a mixer; and (3) putting the mixed waste hardened cement slurry powder and coal gangue powder into a muffle furnace, heating to 750 ℃, preserving heat for 2 hours, and then quenching to room temperature by using wind power. The calcined product was mixed with dihydrate gypsum (without digestion). Mixing the high-efficiency water reducing agent and the retarder in water to prepare an aqueous solution, uniformly stirring, pouring into a stirrer to be uniformly stirred with the mixture, forming into cubic test blocks of 2cm multiplied by 2cm, and measuring the compressive strength of the regenerated hardened cement paste cementing material neat paste at each age after standard curing for 3d, 7d and 28d, wherein the results are shown in Table 1.
Comparative example 4:
the composition of the regenerated cementitious material of this example includes:
Figure BDA0002896152920000062
Figure BDA0002896152920000071
the preparation method of the regenerated gel material of the embodiment comprises the following steps: the waste hardened cement paste is dried for 24 hours at 50 ℃, then ground into waste hardened cement paste powder with the granularity less than or equal to 100 meshes, the hardened cement paste powder is put into a muffle furnace to be heated to 750 ℃, the temperature is kept for 2 hours, and then the hardened cement paste powder is rapidly cooled to room temperature by wind power. Mixing a high-efficiency water reducing agent and a retarder in water to prepare an aqueous solution, uniformly stirring, pouring into a stirrer to be uniformly stirred with the calcined waste hardened cement paste powder, forming into cubic test blocks of 2cm multiplied by 2cm, and measuring the compressive strength of the regenerated hardened cement paste cementing material neat paste at each age after standard curing for 3d, 7d and 28d, wherein the results are shown in Table 1.
Comparative example 5:
the composition of the regenerated cementitious material of this example includes:
Figure BDA0002896152920000072
the preparation method of the regenerated gel material of the embodiment comprises the following steps: drying coal gangue at 50 deg.C for 24 hr, grinding into powder with granularity less than or equal to 100 meshes, heating to 750 deg.C in muffle furnace, holding for 2 hr, and quenching to room temperature by wind power. Mixing a high-efficiency water reducing agent and a retarder in water to prepare an aqueous solution, uniformly stirring, pouring into a stirrer to be uniformly stirred with the calcined gangue powder, forming into cubic test blocks of 2cm multiplied by 2cm, and measuring the compressive strength of the regenerated hardened cement paste cementing material neat paste at each age after standard curing for 3d, 7d and 28d, wherein the results are shown in Table 1.
Comparative example 6:
the composition of the regenerated cementitious material of this example includes:
Figure BDA0002896152920000073
Figure BDA0002896152920000081
the preparation method of the regenerated gel material of the embodiment comprises the following steps: drying the waste hardened cement paste particles for 90min at 450 ℃, and then respectively grinding to obtain the waste hardened cement paste particles with the specific surface area of 365m2Per Kg of powdery waste hardened cement paste powder; pouring the powdery waste hardened cement paste and the fly ash into a stirrer to be dry-mixed for 3min to obtain a dry mixed material; mixing and stirring sodium hydroxide, water glass and water to completely dissolve the sodium hydroxide to prepare diluted water glass; pouring the diluted water glass into a stirrer to be mixed with the dry mixture for stirring for 30s, then pouring the water reducing agent and the sodium phosphate into the stirrer to be continuously stirred uniformly, forming into cubic test blocks of 2cm multiplied by 2cm, carrying out standard curing for 3d, 7d and 28d, measuring each age period, and then carrying out measurementThe compressive strength of the green hardened cement paste neat paste is shown in Table 1.
TABLE 1
Group of 3d 7d 28d
Example 1 18.91 47.85 57.89
Example 2 15.89 44.33 52.75
Example 3 11.84 32.73 49.92
Comparative example 1 3.03 20.56 41.13
Comparative example 2 35.27 40.53 43.25
Comparative example 3 9.78 23.98 32.61
Comparative example 4 7.14 7.96 9.12
Comparative example 5 - - -
Comparative example 6 14.22 21.57 35.88
The data in the table show that the technical indexes of the regenerated cementing material prepared in each embodiment meet the design requirements and have good mechanical properties, which shows that the regenerated cementing material provided by the invention can completely replace cement or other traditional mineral admixtures, not only saves natural resources and protects the environment, but also provides a new idea for preparing mineral admixtures from waste concrete in the future, and has remarkable social and economic benefits.
Comparing examples 1-3 with comparative example 1, it can be seen that the ratio of the calcined waste hardened cement paste to the calcined coal gangue is more appropriate, and the increase of the calcined coal gangue is unfavorable for hydration and strength.
Comparing the examples with the comparative example 2, it can be seen that the early strength difference of the regenerated hardened cement paste cementing material prepared by the invention is more obvious than that of 42.5 cement, but with the prolonging of the hydration age, the pozzolanic activity in the regenerated hardened cement paste cementing material is excited, the later hydration strength is obviously improved, and the strength of 28d is obviously higher than that of 42.5 cement.
Comparing the examples with comparative example 3, the hardened slurry, which had been heat treated to have a large amount of CaO, was digested to produce powdery hydroxides (CaO + H) having a low free water content by adsorbing moisture from the moisture2O→Ca(OH)2) The problems of high water demand and high early heat release caused by high CaO content can be solved. The calcined coal gangue has a certain pozzolanic activity, amorphous or glassy SiO2And active Al2O3Can react with CaO under normal temperature and in the presence of water to generate hydrate with hydraulic gelation ability. Excitation principle: xCa (OH)2+SiO2+mH2O→xCaO·SiO2·mH2O,yCa(OH)2+Al2O3+mH2O→yCaO·Al2O3·mH2And O. The above reaction shows that CaO in the dehydrated phase of the cement paste provides good excitation conditions for the substances with pozzolanic activity. It can also be seen from table 1 that the performance of the composite system after digestion is significantly improved.
Comparing the examples with comparative examples 4 and 5, it is known that when the waste hardened cement paste is separately heat-treated to prepare the regenerated cement, the early water demand is large, the early heat release is high, the working performance is affected, and the strength is low. When the coal gangue is separately subjected to heat treatment to prepare the regenerated cementing material, the coal gangue can not be demoulded after being maintained for 1d, and the coal gangue still has no strength after a plurality of days. The two are used for preparing a composite system, and the high water demand and high early heat release are solved through the digestion process, and the strength performance of the regenerated cementing material is greatly improved.
The regenerated cement prepared in example and comparative example 6 was compared, and comparative example 6 was prepared by drying the waste hardened cement paste at 450 ℃ to change the hydration product in the hardened paste to a dehydrated product, passing through sodium hydroxide and sodium silicate water glassThe alkali activator for glass is a new gelling product formed by depolymerizing silicon-oxygen tetrahedron and aluminum-oxygen octahedron and recombining the structure. In the invention, after the waste hardened cement paste is subjected to heat treatment at 800 ℃ and 700 ℃, compared with 450 ℃ in the comparative example 6, C-S-H gel in the dehydration phase of the cement paste can be thermally decomposed to generate active C2S, when the calcium silicate hydrate is contacted with water, the calcium silicate hydrate has the ability of hydration hardening again to generate calcium silicate hydrate. And the coal gangue calcined at the temperature of 700-2Thereby exciting the volcanic ash effect of the calcined coal gangue. Excitation principle: xCa (OH)2+SiO2+mH2O→xCaO·SiO2·mH2O,yCa(OH)2+Al2O3+mH2O→yCaO·Al2O3·mH2And O, the prepared regenerated cementing material has better strength performance, and particularly has obvious later strength advantage.
The invention provides a concept and a method for preparing a waste concrete-based regenerated cementing material, and a method and a device for realizing the technical scheme, and the method and the device are more than one, and the above description is only a preferred embodiment of the invention, and it should be noted that, for a person skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the invention, and the improvements and decorations should be regarded as the protection scope of the invention. All the components not specified in the present embodiment can be realized by the prior art.

Claims (8)

1. The waste concrete-based regenerated cementing material is characterized by comprising the following components in parts by weight:
Figure FDA0002896152910000011
2. the waste concrete-based regenerated cementing material according to claim 1, wherein the waste hardened cement paste is obtained by crushing the hardened cement paste in the waste concrete, grinding the crushed hardened cement paste, and calcining the ground hardened cement paste at 700-800 ℃.
3. The waste concrete-based regenerated cementing material according to claim 1, wherein the calcined coal gangue is obtained by grinding coal gangue and then calcining at 700-800 ℃.
4. The method for preparing the waste concrete-based reclaimed cement of claim 1, which comprises the following steps:
(1) crushing hardened cement paste in the waste concrete into fine particles, and then grinding into powder;
(2) grinding coal gangue powder into powder;
(3) uniformly mixing the waste concrete hardened slurry powder obtained in the step (1) with the coal gangue powder obtained in the step (2), calcining at 700-800 ℃ for 2-3 h, taking out, and then quenching to room temperature;
(4) uniformly mixing the calcined product in the step (3) with dihydrate gypsum;
(5) mixing a water reducing agent and a retarder in water to prepare an aqueous solution, and uniformly stirring;
(6) and (4) uniformly stirring the aqueous solution obtained in the step (5) and the mixture obtained in the step (4).
5. The preparation method of the waste concrete-based regenerated cementing material according to the claim 4, characterized in that in the step (1), the hardened cement paste in the waste concrete is firstly crushed into particles with the particle size of less than or equal to 5mm, and then the particles are ground into powder with the particle size of less than or equal to 100 meshes by a ball mill.
6. The preparation method of the waste concrete-based regenerated cementing material according to the claim 4, characterized in that, in the step (2), the coal gangue is ground into powder with the granularity less than or equal to 100 meshes by a ball mill.
7. The method for preparing the waste concrete-based reclaimed cement according to claim 4, wherein in the step (3), the waste concrete-based reclaimed cement is subjected to mixing homogenization by a mixer before calcination.
8. The preparation method of the waste concrete-based regenerated cementing material according to the claim 4, characterized in that in the step (4), after the calcined product is uniformly mixed with the dihydrate gypsum, the calcined product is digested for 2-3 days under the conditions that the temperature is 20 +/-1 ℃ and the humidity is 99%.
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Cited By (3)

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CN113831083A (en) * 2021-09-30 2021-12-24 中铁桥研科技有限公司 Ecological type ultra-high performance concrete and preparation method thereof
CN114751663A (en) * 2022-04-08 2022-07-15 哈尔滨工业大学(深圳) Regenerated cementing material and preparation method thereof, concrete material and preparation method thereof
TWI773369B (en) * 2021-06-09 2022-08-01 方建弘 Regenerated concrete composition

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