CN112062912B - Silicon-containing magnetic polycarboxylate water reducer containing isobutylether - Google Patents

Abstract

The invention belongs to the technical field of building materials, and particularly relates to a silicon-containing magnetic water reducer containing isobutylether, which is prepared by adding initiator ammonium persulfate, chain transfer agent thioglycollic acid and water into polyoxyethylene ether A, polyoxyethylene ether B, acrylic acid and silane C serving as polymerization monomers; and discloses a preparation method of the water reducer. The application of the invention can obviously improve the fluidity of the slurry, the retentivity and the compressive strength of the concrete.

Description

Silicon-containing magnetic polycarboxylate water reducer containing isobutylether

Technical Field

The invention belongs to the technical field of building materials, and particularly relates to a silicon-containing magnetic polycarboxylate water reducer containing isobutylether.

Background

The water reducing agent is an indispensable chemical additive for improving slag-based cementing materials and concrete products, and can obviously improve the comprehensive properties of workability, compactness, strength, durability and the like of the products under the condition of lower water-cement ratio.

The polycarboxylate water reducer is used as a third-generation water reducer product, has strong designability of molecular structure and great potential for high performance, and can be prepared into a multifunctional product by selecting monomers with different functions for copolymerization. However, in recent years, the quality problems of cement, mineral admixture, coarse aggregate, fine aggregate and the like are serious, and in addition, the cement variety in China is various, the engineering mix proportion is various, the polycarboxylic acid water reducer is often not suitable for concrete, and the problems of bleeding, segregation, excessively rapid slump loss and the like of fresh concrete are easy to occur. Therefore, through molecular structure design, synthesis process and action mechanism research, the functionality of the polycarboxylate water reducer is continuously perfected, so that the polycarboxylate water reducer has good adaptability to different cements, mineral admixtures, inferior sand and stone materials and the like, and the polycarboxylate water reducer has become an important point of research at home and abroad.

At present, the research on polycarboxylic acid water reducer at home and abroad mainly focuses on the following aspects: (1) research on polymer synthesis methods and processes; (2) searching the relation between the structure and the performance; (3) Designing polymer molecules based on the existing theoretical basis; (4) The action mechanism of the water reducer is presumed according to the relation between the structure and the performance; (5) Through the guidance of action mechanism and research rule, gradually explore a new process for synthesizing the water reducer with better performance. Because of the diversity of molecular structure designs of the polycarboxylic acid water reducer and the necessary connection between the structure and the performance of the polycarboxylic acid water reducer, the research in the field is very active, and the novel polycarboxylic acid water reducer with high performance is endless.

Typical polycarboxylate water reducers are surface-active graft copolymers, in comb-like structures, generally composed of two basic components, a main chain and a side chain. The main chain of the water reducer generally contains a large number of ionizable carboxyl groups, and after the carboxyl groups are ionized in water, the water reducer molecules are adsorbed and anchored on the surfaces of cement particles through the action of ions, so that electrostatic repulsive force exists among the cement particles; the side chain is usually a hydrophilic polyether long chain such as polyethylene glycol monomethyl ether or polypropylene glycol monomethyl ether with a relative molecular weight of 500-3000, and can be fully stretched in water to provide steric hindrance repulsive force for cement particles and improve the dispersibility of the cement particles. The combined action of the two repulsive forces greatly improves the dispersibility of cement particles, so that the cement product added with the polycarboxylate superplasticizer has excellent comprehensive performance.

Disclosure of Invention

The invention aims to provide a silicon-containing magnetic polycarboxylate water reducer containing isobutylethylene alcohol polyoxyethylene ether.

The second purpose of the invention is to provide a preparation method of the silicon-containing magnetic polycarboxylate water reducer containing the isobutylether.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the silicon-containing polycarboxylate water reducer is characterized in that: the catalyst is prepared by taking polyoxyethylene ether A, polyoxyethylene ether B, acrylic acid and silane C as polymerization monomers and adding an initiator ammonium persulfate, a chain transfer agent thioglycollic acid and water, wherein the components are as follows in parts by weight:

10-20 parts of polyoxyethylene ether A

10-20 parts of polyoxyethylene ether B

40-60 parts of acrylic acid

Silane C10-20 parts

Ammonium persulfate 0.3-1 part

0.15 to 0.25 part of 3-mercaptoacetic acid

100-400 parts of deionized water;

the polyoxyethylene ether A structure is as follows:

wherein n is 20-50;

the polyoxyethylene ether B is isobutylenol polyoxyethylene ether, and the polyoxyethylene repeating unit number is 150-300;

the structure of the silane C is as follows:

the silane C can be obtained by reacting silane D with ferroferric oxide, and the silane D has the structure of

Further, silane D is obtained by further adding alkoxysilane for hydrolysis after the reaction of silane monomer with amino and alkoxy and maleic anhydride.

Further, the number of polyoxyethylene repeating units in the polyoxyethylene ether B is 200-250. Researches show that the performance can be better improved by adding polyoxyethylene ether B with larger molecular weight and polyoxyethylene ether A with lower molecular weight.

Further, n=30 to 40 of polyoxyethylene ether a.

The preparation method of the water reducer is characterized by comprising the following steps: and (3) carrying out initiator polymerization reaction on each component under the action of an initiator, and carrying out post-treatment to obtain the water reducer.

Further, the preparation method comprises the following steps: adding polyoxyethylene ether A, polyoxyethylene ether B and deionized water into a reaction kettle, and heating and dissolving completely at 20-80 ℃ to obtain a solution A; respectively and simultaneously dropwise adding a deionized water solution of ammonium persulfate and a deionized water mixed solution of acrylic acid, silane C and a chain transfer agent into the solution A, dropwise adding at 60 ℃ for 3.0h, carrying out heat preservation reaction at 60 ℃ for 1.0h after the dropwise adding is finished, and cooling to room temperature after the reaction is finished to obtain a solution B; and adding 30% liquid alkali by mass percent into the solution B, and regulating the pH value to be 6-8 to obtain the polycarboxylate water reducer.

Further, the application of the water reducer is used in cement to obtain magnetic cement.

Wherein, the polyoxyethylene ether A monomer provides two polyoxyethylene ether side chains on the side chains, the polyoxyethylene ether B provides a longer polyoxyethylene ether side chain, and the hydroxysilane C contains nano ferroferric oxide surface and active hydroxyl condensation, more ferroferric oxide particles are introduced, the steric hindrance effect of inorganic particles is better exerted, the ferroferric oxide provides magnetic effect, and the performance of the water reducer is improved; especially, the fluidity, the retention and the compressive strength of concrete are effectively improved, and small molecular monomers such as acrylamide, sodium methacrylate and the like are not required to be added into the monomer.

The invention has the beneficial effects that:

(1) The invention can effectively improve the fluidity of the slurry, the retentivity and the compressive strength of the concrete.

(2) The invention has simple and feasible process, obvious product effect and good engineering application prospect.

Detailed Description

The following are specific embodiments of the present invention and technical solutions of the present invention will be further described with reference to the embodiments, but the present invention is not limited to these examples.

Example 1

Adding polyoxyethylene ether A, polyoxyethylene ether B and deionized water into a reaction kettle, and heating and dissolving completely at 20-80 ℃ to obtain a solution A; respectively and simultaneously dropwise adding a deionized water solution of ammonium persulfate and a deionized water mixed solution of acrylic acid, silane C and mercaptopropionic acid into the solution A, dropwise adding 3.0h at 60 ℃, carrying out heat preservation reaction at 60 ℃ for 1.0h after the dropwise adding is finished, and cooling to room temperature after the reaction is finished to obtain a solution B; and adding 30% liquid alkali by mass percent into the solution B, and regulating the pH value to be 6-8 to obtain the polycarboxylate water reducer.

The polyoxyethylene ether A has the structure that:

wherein n=35, polyoxyethylene ether B is isobutylether polyoxyethylene ether, and the number of repeating units is 200;

the dosage of each component is as follows:

polyoxyethylene ether A15 parts

Polyoxyethylene ether B15 parts

Acrylic acid 50 parts

Silane C15 part

Ammonium persulfate 0.5 part

3-mercaptoacetic acid 0.2 parts

300 parts of deionized water;

example 2

Except for the difference that n=20 of polyoxyethylene ether a was the same as in example 1.

Example 3

Except for the difference that n=50 of polyoxyethylene ether a was the same as in example 1.

Example 4

Except for the difference that the number of repeating units of only polyoxyethylene ether B was 100 as in example 1.

Example 5

Except for the difference that the number of repeating units of only polyoxyethylene ether B was 250, the same as in example 1.

Example 6

Otherwise, the procedure is as in example 1, except that no silane C is added.

Example 7

Except for the difference that the polyoxyethylene ether A was not added in the same manner as in example 1.

Example 8

Except for the difference that the polyoxyethylene ether B was not added in the same manner as in example 1.

The organic-inorganic hybrid polycarboxylate water reducer of the embodiments 1 to 8 of the invention is used for measuring the fluidity of the clean slurry according to GB/T8077-2012 "method for testing homogeneity of concrete admixture", cement is used as reference cement, the compressive strength of the cement is tested according to GB/T50081-2002 "standard for testing mechanical properties of ordinary concrete", and the mixing ratio of concrete is adopted in the experiment: 360Kg/m of reference cement ³ 792Kg/m of sand ³ 290Kg/m of small stone ³ (5-10 mm), marble 678Kg/m ³ (10-20 mm) and the water-gel ratio is 0.4. The experimental results are shown in the following table:

from the above table, it can be seen that the water reducer of the present invention has good effects in improving the fluidity of slurry, the retention and the compressive strength of concrete.

Claims (7)

1. The utility model provides a silicon-containing magnetism polycarboxylate water reducing agent which characterized in that: the catalyst is prepared by taking polyoxyethylene ether A, polyoxyethylene ether B, acrylic acid and silane C as polymerization monomers and adding an initiator ammonium persulfate, a chain transfer agent thioglycollic acid and water, wherein the components are as follows in parts by weight:

10-20 parts of polyoxyethylene ether A

10-20 parts of polyoxyethylene ether B

40-60 parts of acrylic acid

Silane C10-20 parts

Ammonium persulfate 0.3-1 part

0.15 to 0.25 part of thioglycollic acid

100-400 parts of deionized water;

the polyoxyethylene ether A structure is as follows:

wherein n is 20-50;

the polyoxyethylene ether B is isobutylenol polyoxyethylene ether, and the polyoxyethylene repeating unit number is 150-300;

the structure of the silane C is as follows:

；

the silane C is obtained by reacting silane D and nano ferroferric oxide, and the structure of the silane D is as follows:

2. the water reducer according to claim 1, wherein silane D is obtained by further adding alkoxysilane for hydrolysis after reacting silane monomer with amino group and alkoxy group with maleic anhydride.

3. Water reducing agent according to one of claims 1 to 2, wherein the number of polyoxyethylene repeat units in polyoxyethylene ether B is 200 to 250.

4. Water reducing agent according to one of claims 1 to 2, wherein n=30 to 40 of polyoxyethylene ether a.

5. A process for the preparation of a water reducing agent according to any one of claims 1 to 4, characterized in that: and (3) carrying out initiator polymerization reaction on each component under the action of an initiator, and carrying out post-treatment to obtain the water reducer.

6. The method of manufacturing according to claim 5, wherein: adding polyoxyethylene ether A, polyoxyethylene ether B and deionized water into a reaction kettle, and heating and dissolving completely at 20-80 ℃ to obtain a solution A; respectively and simultaneously dropwise adding a deionized water solution of ammonium persulfate and a deionized water mixed solution of acrylic acid, silane C and a chain transfer agent into the solution A, dropwise adding at 60 ℃ for 3.0h, carrying out heat preservation reaction at 60 ℃ for 1.0h after the dropwise adding is finished, and cooling to room temperature after the reaction is finished to obtain a solution B; and adding 30% liquid alkali by mass percent into the solution B, and regulating the pH value to be 6-8 to obtain the polycarboxylate water reducer.

7. Use of the water reducing agent according to one of claims 1 to 4 in cement to obtain magnetic cement.