CN111848111A - Phosphoaluminate cement-based multi-component high-performance composite terrace material - Google Patents

Abstract

The invention belongs to the technical field of assembly type building application, and particularly discloses a phosphoaluminate cement-based multi-component high-performance composite floor material which comprises a cementing material, a coagulation regulating material, a mineral admixture, a graded aggregate, a water reducing agent, a functional additive, a pigment or a dye, wherein the mixture is dry powder mortar, is bagged or bulked, and is prepared by conveying the mixture to a construction site and adding water and stirring the mixture when in use. The invention has the beneficial effects that: the paint has the characteristics of rapid hardening, early strength, high later strength, high hardness, no volume micro-expansion shrinkage, high compactness, good durability, good cohesiveness, no cracking, no sand, good fluidity, good constructability, micro-expansion, no later strength shrinkage, good durability, low alkalinity, good compatibility with inorganic pigments and dyes and the like; the multi-component phosphoaluminate cement-based multi-component high-performance composite floor material with the characteristics can be directly used as a surface layer, and also can be made into a high-grade grindstone floor through polishing to replace natural marble.

Description

Phosphoaluminate cement-based multi-component high-performance composite terrace material

Technical Field

The invention belongs to the technical field of building material application, and particularly relates to a phosphoaluminate cement-based multi-component high-performance composite terrace material.

Background

Cement-based self-leveling mortar for ground was developed successively in the 80 s of the 20 th century and in germany and other countries, and was widely used. After the technology is introduced into China, local standards of Beijing city of DB11/T511-2017 self-leveling ground construction technical regulation and industry standard JC/T985 + 2017 ground cement-based self-leveling mortar are successively formulated at local and national levels in order to ensure the stability of product quality, and main performance indexes, test methods and construction quality control of the ground cement-based self-leveling mortar are specified.

Due to the performance defects of basic cementing materials such as ordinary portland cement, high-alumina cement, sulphoaluminate cement and the like, the conventional cementing material of the cement-based self-leveling mortar has multiple components, complex proportion, high material design and production difficulty, unstable performance of a finished mortar product, and great change of the performance of the mortar caused by quality fluctuation of a certain raw material. Particularly, at present, the exploitation of raw materials of various places is limited, and manufacturing enterprises face the condition of frequently replacing large amounts of basic raw materials such as sand and the like, so that the quality control difficulty of the existing cement-based self-leveling ground engineering is high, the problems of cracking, peeling, hollowing and the like are high, and most domestic brand cement self-leveling products can only be used for cushion layer leveling and cannot be used for exposed decorative surface layers, namely, the cement self-leveling ground is applied to a polished stone floor.

The Hujiashan professor and the Li Shi group professor team of the university of Jinan developed a novel phosphoaluminate cement and obtained the national invention patent in 2005: ZL 02135771.4, the cement variety having: rapid hardening, early strength, rapid strength development, high later strength, no strength shrinkage, small volume shrinkage, good compatibility with other varieties of cement, low alkalinity, little pigment erosion and the like. The inventor, as a student of the teaching of Hujiashan, has made research on related subjects following the teaching of Hujiashan, and is familiar with the characteristics of the phosphoaluminate cement. The production cost of the phosphoaluminate cement is high, and the market application range of the phosphoaluminate cement is limited, so that the matched application of the phosphoaluminate cement and other types of cement such as ordinary portland cement, high-alumina cement and the like becomes an optimization scheme; the application of the phosphoaluminate cement to the cement self-leveling formula is relatively simple, and the phosphoaluminate cement is an optimized choice for improving the quality problems of easy cracking, peeling, hollowing, sand lifting, low early strength and the like of the cement-based self-leveling mortar.

Therefore, based on the problems, the invention provides a phosphoaluminate cement-based multi-component high-performance composite floor material.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to provide a phosphoaluminate cement-based multicomponent high-performance composite terrace material which has the advantages of high hardness, early strength, high later strength, micro-expansion, no shrinkage, high hardness, good compactness, easy dyeing, firm chromaticity, good cohesiveness, no cracking, no sand generation, good fluidity, good constructability, good durability and the like, can solve the quality problems of easy cracking, peeling, hollowing, sand generation, low early strength and the like commonly existing in the current cement self-leveling, can be directly used as a surface layer, and can also be used for preparing a high-grade grindstone terrace through polishing and polishing to replace natural marble.

The technical scheme is as follows: the invention relates to a phosphoaluminate cement-based multi-component high-performance composite terrace material which is composed of a plurality of mixtures according to a certain proportion, wherein the mixtures comprise a gelled material, a coagulation regulating material, a mineral admixture, a graded aggregate, a water reducing agent, a functional additive, a pigment or a dye; the cementing material can be any combination of one or two or more than two of phosphoaluminate cement, portland cement, sulphoaluminate cement, high-alumina cement and high-belite sulphoaluminate cement, and the strength grade of the cementing material is 32.5 to 62.5; the coagulation regulating material can be any one or a combination of at least two of gypsum, boric acid, borate, lithium hydroxide, lithium chloride, lithium carbonate, lithium sulfate, lithium silicate, sodium hydroxide, potassium hydroxide, calcium oxide, sodium sulfate, potassium sulfate, aluminum sulfate, sodium carbonate, sodium bicarbonate, potassium carbonate, potassium bicarbonate, sodium chloride or sodium silicate lignin retarder, saccharide retarder, phosphate retarder, tartrate retarder, gluconate retarder, citric acid retarder and salt retarder thereof or cellulose retarder; the mineral admixture can be one or any combination of two or more of silica fume, coarse whiting, metakaolin, micro-beads, fine ground limestone powder, fine ground slag powder, ultrafine fly ash and ash calcium; the graded aggregate can be one or any combination of two or more than two of river sand, quartz sand, carborundum, machine-made sand, corundum, silicon carbide and the like; the water reducing agent can be any one or the combination of at least two of a polycarboxylic acid high-performance water reducing agent, a naphthalene high-performance water reducing agent, a melamine high-performance water reducing agent, a sulfamate high-performance water reducing agent, an aliphatic high-performance water reducing agent or a lignosulfonate water reducing agent; the functional additive is re-dispersible latex powder, a stable thickener, a defoaming agent and a superplasticizer; the pigment or dye can be any one or the combination of at least two of iron oxide red, iron oxide yellow, iron oxide black, chromium oxide green, titanium dioxide, cobalt blue, ultramarine, manganese oxide, chromium oxide, ochre, Prussian red or mica, and mortar materials with different colors can be obtained by adding different pigment components.

According to the technical scheme, the water reducing agent is preferably a polycarboxylic acid high-performance water reducing agent.

According to the technical scheme, the dry powder mortar of the multi-component phosphoaluminate cement-based multi-component high-performance composite floor material is formed by adding water and stirring the mixture according to the water-material ratio of 0.14-0.28.

According to the technical scheme, the multi-component phosphoaluminate cement-based multi-component high-performance composite floor material comprises, by weight, 25.00 parts of Portland cement, 6.00 parts of phosphoaluminate cement, 1.50 parts of ash calcium, 2.50 parts of anhydrite, 43.86 parts of quartz sand, 15.00 parts of ultrafine fly ash, 5.00 parts of silica fume, 0.01 part of plastic expanding agent, 0.20 part of water reducing agent, 0.80 part of redispersible latex powder, 0.10 part of defoaming agent and 0.03 part of stable thickening agent.

According to the technical scheme, the multi-component phosphoaluminate cement-based multi-component high-performance composite terrace material comprises 30.00 parts by weight of Portland cement, 3.00 parts by weight of phosphoaluminate cement, 5.00 parts by weight of anhydrous gypsum, 42.17 parts by weight of quartz sand, 18.00 parts by weight of mineral powder, 0.30 parts by weight of a polycarboxylic acid water reducing agent, 1.00 parts by weight of redispersible latex powder, 0.03 parts by weight of a stable thickening agent, 0.40 parts by weight of tartaric acid and 0.10 parts by weight of a defoaming agent.

According to the technical scheme, the multi-component phosphoaluminate cement-based multi-component high-performance composite floor material comprises, by weight, 25.00 parts of Portland cement, 3.00 parts of phosphoaluminate cement, 2.50 parts of high-alumina cement, 1.50 parts of ash calcium, 2.80 parts of anhydrite, 44.01 parts of quartz sand, 15.00 parts of ultrafine fly ash, 5.00 parts of silica fume, 0.01 part of plastic expanding agent, 0.20 part of water reducing agent, 0.80 part of redispersible latex powder, 0.15 part of defoaming agent and 0.03 part of stable thickening agent.

Compared with the prior art, the multicomponent phosphoaluminate cement-based multicomponent high-performance composite terrace material has the beneficial effects that: 1. the steel has the characteristics of high hardness, early strength, high later strength and high hardness; 2. the material has the characteristics of no volume micro-expansion shrinkage, high compactness and good durability; 3. the paint has the characteristics of good cohesiveness, no cracking, no sand, good fluidity and good construction property; 4. the material has the characteristics of micro-expansion, no later strength shrinkage and good durability; 5. the paint has the characteristics of low alkalinity and good compatibility with inorganic pigments and dyes; 6. the multi-component phosphoaluminate cement-based multi-component high-performance composite floor material with the characteristics can be directly used as a surface layer, and also can be made into a high-grade grindstone floor through polishing to replace natural marble.

Detailed Description

The invention will be further elucidated with reference to the following specific examples.

The invention relates to a phosphoaluminate cement-based multi-component high-performance composite terrace material which is composed of a plurality of mixtures according to a certain proportion, wherein the mixtures comprise a gelled material, a coagulation regulating material, a mineral admixture, a graded aggregate, a water reducing agent, a functional additive, a pigment or a dye; the cementing material can be any combination of one or two or more than two of phosphoaluminate cement, portland cement, sulphoaluminate cement, high-alumina cement and high-belite sulphoaluminate cement, and the strength grade of the cementing material is 32.5 to 62.5; the coagulation regulating material can be any one or a combination of at least two of gypsum, boric acid, borate, lithium hydroxide, lithium chloride, lithium carbonate, lithium sulfate, lithium silicate, sodium hydroxide, potassium hydroxide, calcium oxide, sodium sulfate, potassium sulfate, aluminum sulfate, sodium carbonate, sodium bicarbonate, potassium carbonate, potassium bicarbonate, sodium chloride or sodium silicate lignin retarder, saccharide retarder, phosphate retarder, tartrate retarder, gluconate retarder, citric acid retarder and salt retarder thereof or cellulose retarder; the mineral admixture can be one or any combination of two or more of silica fume, coarse whiting, metakaolin, micro-beads, fine ground limestone powder, fine ground slag powder, ultrafine fly ash and ash calcium; the graded aggregate can be one or any combination of two or more than two of river sand, quartz sand, carborundum, machine-made sand, corundum, silicon carbide and the like; the water reducing agent can be any one or the combination of at least two of a polycarboxylic acid high-performance water reducing agent, a naphthalene high-performance water reducing agent, a melamine high-performance water reducing agent, a sulfamate high-performance water reducing agent, an aliphatic high-performance water reducing agent or a lignosulfonate water reducing agent; the functional additive is re-dispersible latex powder, a stable thickener, a defoaming agent and a superplasticizer; the pigment or dye can be any one or the combination of at least two of iron oxide red, iron oxide yellow, iron oxide black, chromium oxide green, titanium dioxide, cobalt blue, ultramarine, manganese oxide, chromium oxide, ochre, Prussian red or mica, and mortar materials with different colors can be obtained by adding different pigment components.

More preferably, the water reducing agent is preferably a polycarboxylic acid high-performance water reducing agent; and the dry powder mortar of the multi-component phosphoaluminate cement-based multi-component high-performance composite floor material is prepared by adding water and stirring according to the water-material ratio of 0.14-0.28.

Example 1:

the invention relates to a phosphoaluminate cement-based multi-component high-performance composite floor material which is prepared by adding water into dry mortar of a factory premixed phosphoaluminate cement-based multi-component high-performance composite floor material, wherein the dry mortar contains the following components in parts by weight:

portland cement 25.00

Phosphoaluminate cement 6.00

Lime calcium 1.50

Anhydrite 2.50

Quartz sand 43.86

Ultra-fine fly ash 15.00

Silica fume 5.00

Plastic expanding agent 0.01

0.20% of water reducing agent

Redispersible latex powder 0.80

0.10% of antifoaming agent

Stable thickener 0.03

The materials are uniformly mixed to obtain the dry powder of the phosphoaluminate cement-based multi-component high-performance composite terrace material, the dry powder is mixed with water according to the water-material ratio of 0.15, and the dry powder is mixed and stirred for 3 to 5 minutes by a stirrer, so that the phosphoaluminate cement-based multi-component high-performance composite terrace material mortar is prepared.

Example 2:

the invention relates to a phosphoaluminate cement-based multi-component high-performance composite floor material which is prepared by adding water into dry mortar of a factory premixed phosphoaluminate cement-based multi-component high-performance composite floor material, wherein the dry mortar contains the following components in parts by weight:

portland cement 30.00

Phosphoaluminate cement 3.00

Anhydrous gypsum 5.00

Quartz sand 42.17

18.00% ore powder

Polycarboxylic acid water reducing agent 0.30

Redispersible latex powder 1.00

Stable thickener 0.03

Tartaric acid 0.40

0.10% of antifoaming agent

The materials are uniformly mixed to obtain the dry powder mortar of the phosphoaluminate cement-based multi-component high-performance composite floor material, the dry powder mortar is mixed with water according to the water-material ratio of 0.16, and the mixture is mixed and stirred for 3 to 5 minutes by a stirrer, so that the phosphoaluminate cement-based multi-component high-performance composite floor material mortar is prepared.

Example 3: the invention relates to a phosphoaluminate cement-based multi-component high-performance composite floor material which is prepared by adding water into dry mortar of a factory premixed phosphoaluminate cement-based multi-component high-performance composite floor material, wherein the dry mortar contains the following components in parts by weight:

portland cement 25.00

Phosphoaluminate cement 3.00

High alumina cement 2.50

Lime calcium 1.50

Anhydrite 2.80

Quartz sand 44.01

Ultra-fine fly ash 15.00

Silica fume 5.00

Plastic expanding agent 0.01

0.20% of water reducing agent

Redispersible latex powder 0.80

0.15% of antifoaming agent

Stable thickener 0.03

The materials are uniformly mixed to obtain the phosphoaluminate cement-based multi-component high-performance composite floor material dry powder, the dry powder is mixed with water according to the water-material ratio of 0.15, and a stirrer is used for mixing and stirring for 3-5 minutes, so that the phosphoaluminate cement-based multi-component high-performance composite floor material mortar is prepared.

Table 1 shows the formulation of the commonly used dry powder material for the phosphoaluminate cement-based multi-component high-performance composite terrace material,

table 2 shows the specific test data for the performance test of the phosphoaluminate cement-based multicomponent high-performance composite floor material dry powder mortar of the present invention,

the foregoing is only a preferred embodiment of this invention and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the invention and these modifications should also be considered as the protection scope of the invention.

Claims (6)

1. The utility model provides a phosphoaluminate cement base multi-component high performance composite terrace material which characterized in that: the mortar is prepared by mixing and stirring uniformly the components in a factory through a forced stirrer to prepare mixture dry powder mortar, bagging or bulk packaging, and transporting the mixture to a construction site for use and adding water for stirring;

the cementing material can be any combination of one or two or more than two of phosphoaluminate cement, portland cement, sulphoaluminate cement, high-alumina cement and high-belite sulphoaluminate cement, and the strength grade of the cementing material is 32.5 to 62.5;

the coagulation regulating material can be any one or a combination of at least two of gypsum, boric acid, borate, lithium hydroxide, lithium chloride, lithium carbonate, lithium sulfate, lithium silicate, sodium hydroxide, potassium hydroxide, calcium oxide, sodium sulfate, potassium sulfate, aluminum sulfate, sodium carbonate, sodium bicarbonate, potassium carbonate, potassium bicarbonate, sodium chloride or sodium silicate lignin retarder, saccharide retarder, phosphate retarder, tartrate retarder, gluconate retarder, citric acid retarder and salt retarder thereof or cellulose retarder;

the mineral admixture can be one or any combination of two or more of silica fume, coarse whiting, metakaolin, micro-beads, fine ground limestone powder, fine ground slag powder, ultrafine fly ash and ash calcium;

the graded aggregate can be one or any combination of two or more than two of river sand, quartz sand, carborundum, machine-made sand, corundum, silicon carbide and the like;

the water reducing agent can be any one or the combination of at least two of a polycarboxylic acid high-performance water reducing agent, a naphthalene high-performance water reducing agent, a melamine high-performance water reducing agent, a sulfamate high-performance water reducing agent, an aliphatic high-performance water reducing agent or a lignosulfonate water reducing agent;

the functional additive is re-dispersible latex powder, a stable thickener, a defoaming agent and a superplasticizer;

the pigment or dye can be any one or the combination of at least two of iron oxide red, iron oxide yellow, iron oxide black, chromium oxide green, titanium dioxide, cobalt blue, ultramarine, manganese oxide, chromium oxide, ochre, Prussian red or mica, and mortar materials with different colors can be obtained by adding different pigment components.

2. The phosphoaluminate cement-based multi-component high-performance composite floor material of claim 1, characterized in that: the water reducing agent is preferably a polycarboxylic acid high-performance water reducing agent.

3. The phosphoaluminate cement-based multi-component high-performance composite floor material of claim 1, characterized in that: the dry powder mortar of the multi-component phosphoaluminate cement-based multi-component high-performance composite floor material is prepared by adding water and stirring at a water-material ratio of 0.14-0.28.

4. The phosphoaluminate cement-based multi-component high-performance composite floor material of claim 1, characterized in that: the multi-component phosphoaluminate cement-based multi-component high-performance composite floor material comprises, by weight, 25.00 parts of Portland cement, 6.00 parts of phosphoaluminate cement, 1.50 parts of ash calcium, 2.50 parts of anhydrite, 43.86 parts of quartz sand, 15.00 parts of ultrafine fly ash, 5.00 parts of silica fume, 0.01 part of plastic expanding agent, 0.20 part of water reducing agent, 0.80 part of redispersible latex powder, 0.10 part of defoaming agent and 0.03 part of stable thickening agent.

5. The phosphoaluminate cement-based multi-component high-performance composite floor material of claim 1, characterized in that: the multi-component phosphoaluminate cement-based multi-component high-performance composite terrace material comprises 30.00 parts by weight of Portland cement, 3.00 parts by weight of phosphoaluminate cement, 5.00 parts by weight of anhydrous gypsum, 42.17 parts by weight of quartz sand, 18.00 parts by weight of mineral powder, 0.30 part by weight of a polycarboxylic acid water reducing agent, 1.00 part by weight of redispersible latex powder, 0.03 part by weight of a stable thickening agent, 0.40 part by weight of tartaric acid and 0.10 part by weight of a defoaming agent.

6. The phosphoaluminate cement-based multi-component high-performance composite floor material of claim 1, characterized in that: the multi-component phosphoaluminate cement-based multi-component high-performance composite terrace material comprises 25.00 parts by weight of Portland cement, 3.00 parts by weight of phosphoaluminate cement, 2.50 parts by weight of high-aluminum cement, 1.50 parts by weight of gray calcium, 2.80 parts by weight of anhydrite, 44.01 parts by weight of quartz sand, 15.00 parts by weight of ultrafine fly ash, 5.00 parts by weight of silica fume, 0.01 part by weight of plastic expanding agent, 0.20 part by weight of water reducing agent, 0.80 part by weight of redispersible latex powder, 0.15 part by weight of defoaming agent and 0.03 part by weight of stable thickening agent.