CN109535792A - A kind of green inner wall paint and preparation method thereof - Google Patents

Abstract

The invention belongs to paint field, in particular to a kind of green inner wall paint and preparation method thereof.Green inner wall paint of the present invention, by calgon, talcum powder, inorganic thickening agent, calcium oxide powder, feldspar in powder, defoaming powder, filler, inorganic pigment, ρ-Al₂O₃Powder, sodium ethylsiliconate powder, waterglass, latex powder composition, the invention product are easy to disperse in water, are easy to construct, and flawless after product construction, non-scale does not lose powder, and beauty meets people for the ecological requirements of fitment material for family.

Description

A kind of green inner wall paint and preparation method thereof

Technical field

The invention belongs to paint field, in particular to a kind of green inner wall paint and preparation method thereof.

Background technique

Now coating producer in industry, coating produced can be summarized within common coating substantially, be referred to as Organic coating.Its good decorative, diversity of kind of organic coating and cheap price are achieved and are widely applied, but are had Machine coating is a kind of non-renewable resources, and the main raw material(s) of organic building coating is from the money such as coal, petroleum, natural gas Source, when processing, can generate a large amount of by-product, volatile solvent and residual monomer, have not only caused environmental pollution but also have wasted a large amount of Resource and the energy, have volatile material (VOC), the substance of such as formaldehyde etc causes the health of people in VOC Harm.Presently, there are part inorganic coating use largely containing organic matters as film forming matter, one side organic matter forms a film weather-proof Property it is not strong, coating life can be shortened, another aspect partial organic substances contain formaldehyde, and the formaldehyde for failing reaction will be slow and release Come, is detrimental to health.Existing part inorganic coating is there is also difficulty of construction is poor, easy picking, easy to crack, poor water resistance etc. Problem, there are also the part inorganic coatings of liquid condition to be difficult to store in the case of a high temperature.It is right with the raising of people's income level There are increasingly higher demands in the environmental protection of fitment material for family.

Summary of the invention

In place of solving above-mentioned the deficiencies in the prior art, it is an object of the present invention to developing a kind of function admirable, With easily stored, transport, water-fast, good weatherability, anti-mildew be antibacterial, A grades of fire prevention, formaldehydeless, Diamond Search green inner wall paints, The second object of the present invention is to provide the preparation method of green inner wall paint, and the preparation method is simple for process, conveniently pushes away It is wide to use.

The purpose of the present invention is achieved through the following technical solutions:

A kind of green inner wall paint is made of following parts by weight component:

1~3 part of calgon, 3~5 parts of talcum powder, 3~5 parts of inorganic thickening agent, 3~5 parts of calcium oxide powder, potassium feldspar 5~6 parts of powder, 0.3~0.5 part of defoaming powder, 40~50 parts of filler, 3~5 parts of inorganic pigment, ρ-Al₂O₃15~20 parts of powder, ethyl 0.05~0.2 part of sodium metasilicate powder, 35~40 parts of waterglass, 0.2~0.5 part of latex powder.

Preferably, the green inner wall paint is made of following parts by weight component:

2 parts of calgon, 4 parts of talcum powder, 4 parts of inorganic thickening agent, 4 parts of calcium oxide powder, 5.5 parts of feldspar in powder, defoaming 0.4 part of powder, 45 parts of filler, 4 parts of inorganic pigment, ρ-Al₂O₃18 parts of powder, 0.1 part of sodium ethylsiliconate powder, 37 parts of waterglass, cream 0.3 part of rubber powder.

Preferably, the ρ-Al₂O₃Fineness of powder is 1500~3000 mesh.

Preferably, the waterglass is potassium silicate, and dry powder modulus is 3.0.

Preferably, the inorganic thickening agent is sodium bentonite.

Preferably, the filler is the powdered whiting of 1000~2000 mesh.

Preferably, the talcum powder fineness is 1000~2000 mesh, and the calcium oxide powder fineness is 800~1250 mesh, The feldspar in powder fineness is 1000~2000 mesh.

Preferably, the latex powder is redispersable latex powder.

Preferably, the inorganic pigment is TiO₂。

Another purpose according to the present invention, the present invention also provides a kind of preparation method of green inner wall paint, the side Method includes the following steps:

Step A: ratio weighs calgon, ρ-Al by weight₂O₃Powder, waterglass, inorganic thickening agent are mixed 10~20min；

Step B: by step A products therefrom and calcium oxide powder, defoaming powder, talcum powder, inorganic pigment, filler, feldspar in powder 10~20min is mixed；

Step C: step B obtained solid powder is crossed into 200 mesh vibrating screens, obtains semi-finished product；

Step D: step C products therefrom is mixed into 20~40min with latex powder, sodium ethylsiliconate powder to get finished product.

Aluminium oxide due to the difference of crystalline structure etc., may be present more than 10 kinds of α, β, γ, δ, ε, ζ, η, θ, κ, χ, ρ etc. it is low Warm metasable state Al₂O₃.The Al of above-mentioned crystalline structure₂O₃When being heated beyond 1200 DEG C, α-Al can be transformed into₂O₃.Different crystal forms Aluminium oxide is very different because of it in aspect of performance such as granularity, purity, shape and specific surface areas.In the aluminium oxide of different crystal forms Only ρ-Al₂O₃Hydration reaction can be carried out with water at normal temperature, and its hydrated product has gelling.ρ-Al₂O₃Aquation produce Object is cooperateed with potassium silicate colloidal sol as inorganic gel materials, one side ρ-Al₂O₃Itself is because of meeting after aquation gelling under normal temperature conditions Solidification, another aspect ρ-Al₂O₃It can promote the solidification of potassium silicate.And remove ρ-Al₂O₃Other crystal forms Al₂O₃Without this effect. The Al of other crystal forms₂O₃Mostly as the packing material of polymer, the intensity, whiteness, covering power of polymer, the high ratio in part are improved Table crystal form is used for adsorbent material, and certain applications could embody its gelation activity under ceramic industry, hot conditions.The present invention uses Calgon be not limited only to the peptizaiton of coating powder itself, additionally it is possible to slow down ρ-Al₂O₃Hydration time extends ρ- Al₂O₃With both potassium silicates gel mixed curing time, its workability is improved.

Added ρ-Al in green inner wall paint of the present invention₂O₃It is excellent inorganic coagulation material with waterglass, the present invention ρ-Al in raw material₂O₃Have with potassium silicate and cooperate with filming function, the two can be combined to preparation Novel interior wall environmental protection coating material.This hair The environment-friendly interior wall coating main film forming substance of bright preparation is ρ-Al₂O₃With waterglass, used in redispersable latex powder it is main Supplemented by help filming function, dosage is few, to the fire resisting of product, weather-proof does not generate adverse effect.When the product site operation, it is added Water can construct after being dispersed with stirring as solvent, which is easy to disperse in water, be easy to construct, flawless after product construction, Non-scale does not lose powder, and beauty meets people for the ecological requirements of fitment material for family.

Specific embodiment

Combined with specific embodiments below, further details of elaboration is made to the present invention, but embodiments of the present invention are not It is confined to the range of embodiment expression.These embodiments are merely to illustrate the present invention, range and is not intended to limit the present invention.This Outside, after reading the contents of the present invention, those skilled in the art can various modifications may be made to the present invention, these equivalent variations are same Sample falls within the appended claims limited range of the present invention.

Embodiment 1

Required raw material: calgon 1kg, talcum powder 3kg, inorganic thickening agent 3kg, calcium oxide powder will be taken by following weight 3kg, feldspar in powder 5kg, defoaming powder 0.3kg, filler 40kg, inorganic pigment 3kg, ρ-Al₂O₃Powder 15kg, sodium ethylsiliconate powder Last 0.05kg, waterglass 35kg, latex powder 0.2kg；ρ-the Al₂O₃Fineness of powder is 1500 mesh；The waterglass is silicic acid Potassium, dry powder modulus are 3.0；The inorganic thickening agent is sodium bentonite；The filler is the powdered whiting of 1000 mesh； The talcum powder fineness is 1000 mesh, and the calcium oxide powder fineness is 800 mesh, and the feldspar in powder fineness is 1000 mesh；It is described Latex is redispersable latex powder, and the inorganic pigment is TiO₂, the defoaming powder is produced in the bright icepro chemical groups of Germany, quotient The name of an article is known as AGITANR P803, model: P803, contained by active principle content: 99%.

Step A: by calgon, ρ-Al in above-mentioned raw materials₂O₃Mixed at high speed is added in powder, waterglass, inorganic thickening agent 10min is mixed in machine；

Step B: calcium oxide powder is added in mixing and blending machine in step, defoaming powder, talcum powder, inorganic pigment, fills out 10min is mixed in material, feldspar in powder；

Step C: the solid powder of step B is crossed into 200 mesh vibrating screens, obtains semi-finished product；

Step D: the semi-finished product in step C are delivered to another high-speed mixer, add redispersable latex powder, second Base sodium metasilicate powder carries out mixed at high speed 20min, gets product after packaging.

Embodiment 2

Required raw material: calgon 2kg, talcum powder 4kg, inorganic thickening agent 4kg, oxygen will be weighed by following parts by weight Change calcium powder 4kg, feldspar in powder 5.5kg, defoaming powder 0.4kg, filler 45kg, inorganic pigment 4kg, ρ-Al₂O₃Powder 18kg, ethyl Sodium metasilicate powder 0.1kg, waterglass 37kg, latex powder 0.3kg；

ρ-the Al₂O₃Fineness of powder is 2000 mesh；The waterglass is potassium silicate, and dry powder modulus is 3.0；Described Inorganic thickening agent is sodium bentonite；The filler is the powdered whiting of 1250 mesh；The talcum powder fineness is 1250 mesh, The calcium oxide powder fineness is 1000 mesh, and the feldspar in powder fineness is 1250 mesh；The latex is redispersable latex powder, institute Stating inorganic pigment is TiO₂, the defoaming powder is produced in the bright icepro chemical groups of Germany, and product name is AGITANR P803, type Number: P803, contained by active principle content: 99%.

Step A: by calgon, ρ-Al in above-mentioned raw materials₂O₃Mixed at high speed is added in powder, waterglass, inorganic thickening agent 15min is mixed in machine；

Step B: calcium oxide powder is added in mixing and blending machine in step, defoaming powder, talcum powder, inorganic pigment, fills out 15min is mixed in material, feldspar in powder；

Step C: the solid powder of step B is crossed into 200 mesh vibrating screens, obtains semi-finished product；

Step D: the semi-finished product in step C are delivered to another high-speed mixer, add redispersable latex powder, second Base sodium metasilicate powder carries out mixed at high speed 30min, gets product after packaging.

Embodiment 3

Required raw material: calgon 3kg, talcum powder 5kg, inorganic thickening agent 5kg, calcium oxide will be weighed by following weight Powder 5kg, feldspar in powder 6kg, defoaming powder 0.5kg, filler 50kg, inorganic pigment 5kg, ρ-Al₂O₃Powder 20kg, sodium ethylsiliconate Powder 0.2kg, waterglass 40kg, latex powder 0.5kg；

ρ-the Al₂O₃Fineness of powder is 3000 mesh；The waterglass is potassium silicate, and dry powder modulus is 3.0；Described Inorganic thickening agent is sodium bentonite；The filler is the powdered whiting of 2000 mesh；The talcum powder fineness is 2000 mesh, The calcium oxide powder fineness is 2000 mesh, and the feldspar in powder fineness is 2000 mesh；The latex is redispersable latex powder, institute Stating inorganic pigment is TiO₂, the defoaming powder is produced in the bright icepro chemical groups of Germany, and product name is AGITANR P803, type Number: P803, contained by active principle content: 99%.

Step A: by calgon, ρ-Al in above-mentioned raw materials₂O₃Mixed at high speed is added in powder, waterglass, inorganic thickening agent 20min is mixed in machine；

Step B: calcium oxide powder is added in mixing and blending machine in step, defoaming powder, talcum powder, inorganic pigment, fills out 20min is mixed in material, feldspar in powder；

Step C: the solid powder of step B is crossed into 200 mesh vibrating screens, obtains semi-finished product；

Step D: the semi-finished product in step C are delivered to another high-speed mixer, add redispersable latex powder, second Base sodium metasilicate powder carries out mixed at high speed 40min, gets product after packaging.

Comparative example 1

On the basis of embodiment 1, with the α-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 1₂O₃, formula In remaining ingredient and dosage remain unchanged, the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 2

On the basis of embodiment 1, with the β-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 1₂O₃, formula In remaining ingredient and dosage remain unchanged, the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 3

On the basis of embodiment 1, with the γ-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 1₂O₃, match Remaining ingredient and dosage in side remain unchanged, and the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 4

On the basis of embodiment 1, with the δ-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 1₂O₃, formula In remaining ingredient and dosage remain unchanged, the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 5

Embodiment 2 and on basis, with the ε-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 2₂O₃, match Remaining ingredient and dosage in side remain unchanged, and the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 6

On the basis of embodiment 2, with the ζ-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 2₂O₃, formula In remaining ingredient and dosage remain unchanged, the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 7

On the basis of embodiment 2, with the η-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 2₂O₃, formula In remaining ingredient and dosage remain unchanged, the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 8

On the basis of embodiment 3, with the θ-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 3₂O₃, formula In remaining ingredient and dosage remain unchanged, the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 9

On the basis of embodiment 3, with the κ-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 3₂O₃, formula In remaining ingredient and dosage remain unchanged, the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 10

On the basis of embodiment 3, with the χ-Al of identical weight₂O₃Instead of the ρ-Al in the formula of embodiment 3₂O₃, formula In remaining ingredient and dosage remain unchanged, the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 11

On the basis of embodiment 1, the potassium silicate in the formula of embodiment 1 is replaced with the sodium metasilicate of identical weight, and Potassium silicate is identical with the dry powder modulus of sodium metasilicate, remaining ingredient and dosage in formula remain unchanged, the system being in addition newly formulated Preparation Method and technological parameter remain unchanged.

Comparative example 12

On the basis of embodiment 2, the hexa metaphosphoric acid in the formula of embodiment 2 is replaced with the sodium orthophosphate of identical weight Sodium, remaining ingredient and dosage in formula remain unchanged, and the preparation method and technology parameter being in addition newly formulated remains unchanged.

Comparative example 13

Take 0.5kg ρ-Al₂O₃0.5L water is added under room temperature for powder, and quickly stirring 30-50 seconds, pass through viscosmeter (NDJ-8S) Slurry viscosity variation is detected, it is m- when being drawn according to the data obtained until 100 minutes every the k value of one minute detection slurry Viscosity changing value the corresponding time and is calculated as h1 when recording viscosity maximum value (55Pas), h1=42min；

Take 0.5kg ρ-Al₂O₃0.5L water is added under powder, 0.05kg calgon, room temperature, quickly stirring 30-50 seconds, Slurry viscosity variation is detected by viscosmeter (NDJ-8S), every the k value of one minute detection slurry, until 100 minutes, root M- viscosity changing value when drawing according to the data obtained the corresponding time and is calculated as h2 when recording viscosity maximum value (62Pas), H2=81min；

ρ-Al₂O₃When hydration reaction, resulting product has gelation, can be anti-with side by detecting the k value of slurry Reflect ρ-Al₂O₃Degree of hydration, when the k value of slurry reaches maximum value, ρ-Al₂O₃Hydration reaction is completed, slurry starts It loses flowability, starts to solidify, it was found that, calgon can slow down ρ-Al in the present invention by above-mentioned₂O₃When aquation Between, to further extend its construction time.

Comparative example 14

Take 0.5kg ρ-Al₂O₃Powder 0.35kg water is added under room temperature, after stirring using electric blender, under room temperature It constructs in putty metope, cement wall surface, detects ρ-Al₂O₃The powder curing time is simultaneously denoted as H1；

0.5kg potassium silicate powder is taken, 0.35kg water is added under room temperature, after stirring using electric blender, under room temperature It constructs in putty metope, cement wall surface, detect the potassium silicate powder curing time and is denoted as H2；

Take 0.5kg ρ-Al₂O₃0.7kg water is added under room temperature, is stirred using electric blender for powder and 0.5kg potassium silicate powder It after mixing, constructs under room temperature in putty metope, cement wall surface, detect the mixture curing time and is denoted as H3；

Take 0.5kg ρ-Al₂O₃Powder, 0.5kg potassium silicate powder and 0.05kg calgon are added under room temperature 1.05kg water after being stirred using electric blender, is constructed in putty metope, cement wall surface, described in detection under room temperature Mixture curing time is simultaneously denoted as H4, and acquired results are as shown in table 3 below.

It prepared by 1-3 of the embodiment of the present invention is watered under the environment-friendly interior wall coating room temperature of gained and comparative example 1-12, water Amount is the 70% of formulation for coating material weight, after being stirred using electric blender, is carried out under room temperature in putty metope, cement wall surface Construction, wall technology performance indicator is as shown in the following table 1 and table 2:

1 wall technology performance of table

Table 1 shows that products obtained therefrom of the present invention is easy to construct, and flawless after product construction, non-scale does not lose powder, meets resistance to The demands such as water, fungus resistance, adhesion strength.

2 paint adhesion intensity of table

Table 2 is shown, in numerous aluminium oxide crystal form products, contains ρ-Al₂O₃Coating its adhesion strength it is higher, after construction Metope do not lose powder, while showing that potassium silicate powder, calgon can further enhance the adhesion strength of coating, improve it and apply Work performance.

In comparative example 14, ρ-Al₂O₃Powder, potassium silicate powder curing time required when being used alone and being used in mixed way are such as Shown in the following table 3:

The curing time of ingredient in 3 coating of table

	H1	H2	H4	H5
					Curing time (surface drying)/min	15	480	30	97

Table 3 shows that potassium silicate is to ρ-Al₂O₃There is synergism in the powder curing time, and calgon is to ρ-Al₂O₃Powder, The curing time of potassium silicate powder equally has synergism.

1-3 of the embodiment of the present invention prepares resulting green inner wall paint and is detected according to national standard method, and institute is not detected The poisonous and harmful substance that need to be controlled, concrete outcome are as shown in table 4 below:

4 poisonous and harmful substance testing result of table

Table 4 shows that coating ingredient of the present invention is formaldehydeless, Diamond Search, meets ecological requirements.

Claims (10)

1. a kind of green inner wall paint, which is characterized in that the coating is made of following parts by weight component:

1~3 part of calgon, 3~5 parts of talcum powder, 3~5 parts of inorganic thickening agent, 3~5 parts of calcium oxide powder, feldspar in powder 5~ 6 parts, 0.3~0.5 part of defoaming powder, 40~50 parts of filler, 3~5 parts of inorganic pigment, ρ-Al₂O₃15~20 parts of powder, ethyl silicic acid 0.05~0.2 part of sodium powder end, 35~40 parts of waterglass, 0.2~0.5 part of latex powder.

2. green inner wall paint according to claim 1, which is characterized in that the green inner wall paint, by weighing as follows Amount number component is made:

2 parts of calgon, 4 parts of talcum powder, 4 parts of inorganic thickening agent, 4 parts of calcium oxide powder, 5.5 parts of feldspar in powder, defoaming powder 0.4 Part, 45 parts of filler, 4 parts of inorganic pigment, ρ-Al₂O₃18 parts of powder, 0.1 part of sodium ethylsiliconate powder, 37 parts of waterglass, latex powder 0.3 part.

3. green inner wall paint according to claim 1 or 2, which is characterized in that the ρ-Al₂O₃Fineness of powder is 1500~3000 mesh.

4. green inner wall paint according to claim 1 or 2, which is characterized in that the waterglass is potassium silicate, dry powder mould Number is 3.0.

5. green inner wall paint according to claim 1 or 2, which is characterized in that the inorganic thickening agent is that sodium base is swollen Profit soil.

6. green inner wall paint according to claim 1 or 2, which is characterized in that the filler is 1000~2000 mesh Powdered whiting.

7. green inner wall paint according to claim 1 or 2, which is characterized in that the talcum powder fineness be 1000~ 2000 mesh, the calcium oxide powder fineness are 800~1250 mesh, and the feldspar in powder fineness is 1000~2000 mesh.

8. green inner wall paint according to claim 1 or 2, which is characterized in that the latex powder is Redispersable latex Powder.

9. green inner wall paint according to claim 1 or 2, which is characterized in that the inorganic pigment is TiO₂。

10. the preparation method of any green inner wall paint of claim 1-9, which is characterized in that the method includes as follows Step:

Step A: ratio weighs calgon, ρ-Al by weight₂O₃Powder, waterglass, inorganic thickening agent, mixing 10~ 20min；

Step B: step A products therefrom is mixed with calcium oxide powder, defoaming powder, talcum powder, inorganic pigment, filler, feldspar in powder Stir 10~20min；

Step C: step B obtained solid powder is crossed into 200 mesh vibrating screens, obtains semi-finished product；

Step D: step C products therefrom is mixed into 20~40min with latex powder, sodium ethylsiliconate powder to get finished product.