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Composite retarder for controlling setting time and hydration heat release characteristic of potassium magnesium phosphate cement paste and control method of composite retarder

A technology of potassium magnesium phosphate cement and composite retarder, which is applied in the field of composite retarder and its control, which can solve the problem of corrosion of steel, high calcining temperature of dead-burned magnesium oxide powder, and inability to change the hydration of magnesium phosphate cement slurry Concentrated release of heat and other issues to achieve the effect of avoiding corrosion and expanding the scope of use

Active Publication Date: 2021-06-18
JIANGSU OPEN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Reducing the activity of dead-burned magnesia powder requires a higher calcination temperature and is difficult to control. Too thick dead-burned magnesia powder will affect the fluidity and early strength of magnesium phosphate cement slurry, and the retarding effect when the ambient temperature is high not obvious
Reducing the activity and fineness of dead-burned magnesium oxide powder can not change the characteristics of concentrated release of hydration heat of magnesium phosphate cement slurry
[0007] (3) Increasing the phosphate content in the magnesium phosphate cement slurry or combining acid phosphate and basic phosphate can appropriately delay the setting time of the magnesium phosphate cement slurry, but when more phosphate is added, it will increase the magnesium phosphate The cost of cement and the reduction of the strength and water resistance of magnesium phosphate cement, the retarding effect is not good when the ambient temperature is high, and the characteristics of the concentrated release of hydration heat of magnesium phosphate cement slurry cannot be changed
Using low-temperature cooling water to mix magnesium phosphate cement slurry to delay the setting time of magnesium phosphate cement slurry, but it can only be delayed for a few minutes, and the characteristics of the concentrated release of hydration heat of magnesium phosphate cement slurry cannot be changed
[0009] (5) Adding composite retarders (borax, disodium hydrogen phosphate dodecahydrate and inorganic chloride salts) can effectively delay the setting time of potassium magnesium phosphate cement, and change the concentrated release of heat of hydration to two during the slurry hydration reaction. Phase release, although the early intensity is appropriately reduced, but the later intensity increases
The disadvantage is that the composite retarder contains inorganic chloride salts, which will corrode steel and limit the scope of long-term use.

Method used

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  • Composite retarder for controlling setting time and hydration heat release characteristic of potassium magnesium phosphate cement paste and control method of composite retarder
  • Composite retarder for controlling setting time and hydration heat release characteristic of potassium magnesium phosphate cement paste and control method of composite retarder
  • Composite retarder for controlling setting time and hydration heat release characteristic of potassium magnesium phosphate cement paste and control method of composite retarder

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] A method for controlling the coagulation time and hydration of the potassium phosphate magnesium cement slurry, the specific steps are as follows:

[0034] (1) Nitrite, zinc oxide, boroni and duodenate sodium hydrogen phosphate are mixed in a certain proportion, and form a composite loose agent (specifically shown in Table 1). In this embodiment, the composition of the three composite roller is selected, and the specific is as follows:

[0035] M0 group: The composite suspension is 1 parts by mass of boron sand and 1 parts by mass of die sodium hydrogen phosphate.

[0036] M1 group: Compound suspension is 1 parts by mass of boron sand, 1 parts by mass of sodium hydrogen sodium hydrogen phosphate, 0.36 parts by mass of nitrite and 0.04 parts by mass of zinc oxide.

[0037] M2 group: Compound suspension is 1 parts by mass of boron sand, 1 parts by mass of die sodium hydrogen sodium hydrogen phosphate, 0.76 parts by mass of nitrite and 0.04 parts by mass of zinc oxide.

[0038...

Embodiment 2

[0052] A method for controlling the coagulation time and hydration of the potassium phosphate magnesium cement slurry, the specific steps are as follows:

[0053] (1) Nitrite, zinc oxide, boron sand and dodeca sodium hydrogen phosphate are mixed in a certain proportion of mixing, and formulating a composite loose agent (specifically, as shown in Table 2). In this embodiment, the composition structure of the two composite roller is selected, and the specific is as follows:

[0054] M2 group: Compound suspension is 1 parts by mass of boron sand, 1 parts by mass of die sodium hydrogen sodium hydrogen phosphate, 0.76 parts by mass of nitrite and 0.04 parts by mass of zinc oxide.

[0055] M3 group: Compound suspension is 1 parts by mass of boroni, 1 parts by mass of die sodium hydrogen phosphate, 0.4 parts by mass of nitrite and 0.4 parts by mass of zinc oxide.

[0056] (2) Add the composite cyusion agent to quantitative water, stir well, resulting in a homogeneous mixed solution.

[0...

Embodiment 3

[0068] A method for controlling the coagulation time and hydration of the potassium phosphate magnesium cement slurry, the specific steps are as follows:

[0069] (1) Nitrite, zinc oxide, boron sand and dodecini sodium hydrogen hydrogen phosphate are mixed in a certain proportion, forming a composite loose agent (as shown in Table 3). In this embodiment, the composition structure of the two composite roller is selected, and the specific is as follows:

[0070] M3 group: Compound suspension is 1 parts by mass of boroni, 1 part of die sodium hydrogen sodium hydrogen sodium hydrogen, 0.76 parts by mass of nitrite and 0.04 parts by mass of zinc oxide.

[0071] M4 group: Compound suspension is 1 parts by mass of boroni, 1 mass of die sodium hydrogen sodium hydrogen sodium hydrogen, 0.6 parts by mass of nitrite and 0.6 parts by mass of zinc oxide.

[0072] (2) Add the composite cyusion agent to quantitative water, stir well, resulting in a homogeneous mixed solution.

[0073] M3 group: ...

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Abstract

The invention discloses a composite retarder for controlling the setting time and hydration heat release characteristic of potassium magnesium phosphate cement paste and a control method of the composite retarder. The composite retarder is powdery, the particle size ranges from 10 micrometers to 250 micrometers, and the composite retarder comprises, by mass, 15.0%-25.0% of nitrite, 1.0%-20.0% of zinc oxide, 26.0%-38.0% of borax, and 26.0%-48.0% of disodium hydrogen phosphate dodecahydrate, wherein the total percentage of the four components is 100%. The composite retarder can effectively adjust the setting time of the potassium magnesium phosphate cement paste within 20-180 min, can meet the construction operation requirements, ensures that the hydration heat is released in two stages during the hydration reaction of the potassium magnesium phosphate cement paste, and the hydration heat release amount at the initial stage of hydration is small. The composite retarder can obviously improve the strength of slurry after 1d, does not contain chloride ions, and can enlarge the application range of a potassium magnesium phosphate cement-based material.

Description

Technical field [0001] The invention belongs to the technical field of potassium magnesium phosphate cement preparation, and specifically relates to a composite retarder for controlling the setting time and hydration exothermic characteristics of potassium magnesium phosphate cement slurry and a control method thereof. Background technique [0002] Magnesium phosphate cement, or chemically bonded magnesium phosphate ceramic, is a fast-hardening and early-strength cementing material. It is prepared from dead-burned magnesium oxide powder, phosphate, admixtures, retarder, etc. It can be mixed with water to It condenses and hardens in a relatively short period of time to form a dense structure similar to sintered ceramics. Cement-based materials prepared with magnesium phosphate cement as adhesive have excellent properties such as high early strength, low shrinkage, resistance to freezing and salt freezing, and resistance to salt erosion. [0003] The hydration reaction of mag...

Claims

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Application Information

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IPC IPC(8): C04B22/16C04B12/02C04B103/22
CPCC04B40/0039C04B12/025C04B12/02C04B2103/22C04B22/085C04B22/06C04B22/0013C04B22/16
Inventor 杨斌杨建明李涛
Owner JIANGSU OPEN UNIV
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