CN107459265A - A kind of reflective surface treatment method and application with glass microballoon - Google Patents

Abstract

The present invention relates to technical field of surface, to solve the problems, such as the rolling during pearl is planted due to pearl and the easy generation electrostatic of high polymer original film friction, the present invention proposes a kind of reflective surface treatment method with glass microballoon, using cationic surface active agent as antistatic additive, add the free-flowing that nano silica fume improves powder, it is surface-treated mixed surfactant and nano silica fume by dispersion solvent simultaneously after, glass microballoon after processing has good antistatic behaviour and mobility, suitable for silver lustre reflective fabric and reflective membrane.

Description

A kind of reflective surface treatment method and application with glass microballoon

Technical field

The present invention relates to technical field of surface, and in particular to a kind of reflective surface treatment method with glass microballoon with Using.

Background technology

Reflective fabric is exactly that the glass microballoon of high index of refraction is made in into cloth primary surface with the technique of coating or overlay film so that common Cloth can reflection light under the irradiation of light.Reflective fabric can be divided into according to the difference of glistening intensity：General bright reflective fabric, highlight Reflective fabric, silver lustre reflective fabric, metal light reflective fabric etc..

At present, the glass microballoon of reflective fabric is all first handled surface through coupling agent, to reach certain mobility And washing fastness, but for silver lustre reflective fabric, the rolling and the friction of high polymer original film during pearl is planted due to pearl are easy Generation electrostatic, and the surface treatment of traditional glass microballoon, do not reach good antistatic and free mobility, easily exist Occur the quality problems for being unfavorable for product with pearl, folded pearl, floating pearl etc. during plant pearl.

The content of the invention

To solve the problems, such as the rolling during pearl is planted due to pearl and the easy generation electrostatic of high polymer original film friction, this Invention proposes a kind of reflective surface treatment method and application with glass microballoon, and the glass microballoon after processing has good resist Static behaviour and mobility, suitable for silver lustre reflective fabric and reflective membrane.

The present invention is achieved by the following technical solutions：A kind of reflective surface treatment method with glass microballoon is following Step：First glass microballoon is put into agitator, cationic surface active agent, nano silica fume, dispersion solvent is then added and exists Mixed treatment fluid at 25-100 DEG C, speed of agitator 600-1000rps, mixing time 0.5-5min, carry out fully mixed Close and reach uniformly, then bakee, temperature is 50-200 DEG C, time 10-90min, is a kind of reflective micro- with glass after cooling Pearl.

Preferably, treatment fluid in mixed process by water-bath realize temperature at 25-100 DEG C to ensure to be uniformly dispersed, Mixed in homogenizer, baked and banked up with earth by baking oven.

Described cationic surface active agent is selected from alkyl quaternary ammonium salts, preferably, selected from dodecyl quaternary ammonium salt, ten It is one or more of in eight alkyl quaternary ammonium salts.Its molecule of alkyl quaternary ammonium salts is dissolved in after water ionizes, and structural formula is such as shown in (I), just Ionic adsorption is in glass microballoon surface, one adsorbed film oriented of formation on glass microballoon surface, in plant production process Central Plains The high polymers such as film easily produce negative electrical charge by friction, and the adsorbed film on the glass microballoon surface has been neutralized because of negative electricity caused by friction Lotus, so as to reach antistatic property.

Described dispersion solvent is the mixed liquor of deionized water and isopropanol.

Nano silica fume is selected from aerosil, and nano silica fume has purity high, and particle diameter is small, the features such as being evenly distributed.Than Surface area is big, and high surface, apparent density is low, and nano silica fume prevents from, because luming in surface treatment process, increasing after adding Add the mobility of powder.

Above-mentioned treatment fluid cationic surfactant, nano silica fume, the parts by weight of solvent are respectively cationic table Face activating agent 1-100 parts, nano silica fume 1-100 parts, deionized water 1-200 parts, isopropanol 0-100 parts.

Preferably, the mass ratio of glass microballoon and treatment fluid is 50-500: 1.

Present specification adds cationic surface active agent and improves oneself of powder as antistatic additive, addition nano silica fume By flowing, while it is surface-treated after being mixed surfactant and nano silica fume by solvent, the glass after processing is micro- Pearl is applied on silver lustre reflective fabric and reflective membrane.

Compared with prior art, the beneficial effects of the invention are as follows：Reflective after processing has good anti-with glass microballoon Static behaviour and mobility.

Embodiment

The present invention is described in further detail below by embodiment, raw materials used commercially available in embodiment or use Conventional method is prepared, and weight is represented with parts by weight in embodiment.

Wherein, a kind of nano silica fume specific surface area purchased in market is 200m²/ g, primary particle diameter 12nm hydrophily gas phase titanium dioxide Silicon.

Embodiment 1

By 100 parts of OTAC, 100 parts of aerosil, 200 parts of deionized water, isopropanol 100 Stirred after part mixing with electric blender and treatment fluid is made, the temperature for the treatment of fluid is 100 DEG C under water bath processing, by treatment fluid Pour into homogenizer in 50000 parts of glass microballoons, be uniformly mixed, speed of agitator 1000rps, mixing time is 5min, be sufficiently mixed arrival uniformly, then bakee in an oven, temperature is 200 DEG C, time 90min, is after cooling A kind of reflective glass microballoon 1.

Embodiment 2

By 100 parts of DTAC, 50 parts of aerosil, 100 parts of deionized water, 50 parts of isopropanol Stirred after mixing with electric blender and treatment fluid is made, the temperature for the treatment of fluid is 60 DEG C under water bath processing, and treatment fluid is fallen Enter in homogenizer in 30000 parts of glass microballoons, be uniformly mixed, speed of agitator 800rps, mixing time 3min, Be sufficiently mixed arrival uniformly, then bakee in an oven, temperature is 150 DEG C, time 50min, is one kind after cooling Reflective glass microballoon 2.

Embodiment 3

By N, N, 100 parts of N- trimethyl -1- Tetra-n-decylammonium bromides, 1 part of aerosil, 1 part of deionized water, mixing Stirred afterwards with electric blender and treatment fluid is made, the temperature for the treatment of fluid is 25 DEG C under water bath processing, and treatment fluid is poured into height In fast mixer in 10000 parts of glass microballoons, it is uniformly mixed, speed of agitator 600rps, mixing time 1min, carries out It is uniform to be sufficiently mixed arrival, then bakees in an oven, temperature is 50 DEG C, time 10min, is a kind of reflective use after cooling Glass microballoon 3.

After tested, the glass microballoon that embodiment 1~3 obtains and the glass purchased in market being surface-treated using conventional method Microballon performance comparision is as shown in table 1, and sheet resistance value is measured by surface resistivity tester, from BENETECH instruments, Model GM3110.

Table 1：

Claims (7)

1. a kind of reflective surface treatment method with glass microballoon, it is characterised in that shown processing method is following steps：First Glass microballoon is put into agitator, then adds cationic surface active agent, nano silica fume, dispersion solvent at 25-100 DEG C Under mixed treatment fluid, speed of agitator 600-1000rps, mixing time 0.5-5min, then bakee, temperature 50- 200 DEG C, time 10-90min, which are that one kind is reflective after cooling, uses glass microballoon.

A kind of 2. reflective surface treatment method with glass microballoon according to claim 1, it is characterised in that described sun Ionic surfactant is selected from alkyl quaternary ammonium salts.

A kind of 3. reflective surface treatment method with glass microballoon according to claim 1, it is characterised in that described point Dissipate the mixed liquor that solvent is deionized water and isopropanol.

A kind of 4. reflective surface treatment method with glass microballoon according to claim 1, it is characterised in that nano silica fume Selected from aerosil.

5. the reflective surface treatment method with glass microballoon according to any one of claim 1-4, it is characterised in that sun Ionic surfactant, nano silica fume, the parts by weight of dispersion solvent are respectively cationic surface active agent 1-100 parts, are received Rice silica flour 1-100 parts, deionized water 1-200 parts, isopropanol 0-100 parts.

A kind of 6. reflective surface treatment method with glass microballoon according to claim 1, it is characterised in that glass microballoon Mass ratio with treatment fluid is 50-500：1.

7. a kind of reflective glass microballoon obtained with the surface treatment method of glass microballoon using described in claim 1 is in silver lustre Application on reflective fabric, reflective membrane.