CN104216569A - Manufacturing process of improved touch screen with GF single-layer multi-point structure - Google Patents

Abstract

The invention relates to the technical field of touch screens, in particular to a manufacturing process of an improved touch screen with a GF single-layer multi-point structure. By the mode of integrally printing conductive silver paste and performing laser etching for the conductive silver paste to form a silver paste bridging line, the problems of difficulty in processing the silver paste bridging line and easiness in breakage are effectively prevented, product yield is ensured, etching mode staging, etching liquid selection, acid-resistant ink selection and conductive silver paste selection are controlled, so that the product yield is high, and performances are greatly improved as compared with similar products.

Description

A kind of manufacture craft of touch-screen of improved GF individual layer multipoint configuration

Technical field

The present invention relates to touch screen technology field, be specifically related to a kind of manufacture craft of touch-screen of improved GF individual layer multipoint configuration.

Background technology

Touch-screen is a kind of remarkable input equipment that improves man machine operation interface, have intuitively, simply, advantage efficiently.Touch-screen obtains a wide range of applications in many electronic products, such as smart mobile phone, PDA, multimedia, public information inquiry system etc.

Tradition touch technology adopts double glazing touch-screen, and it is not only thick and heavy, and can not make the touch-screen of narrow frame.The touch-screen of GF individual layer multipoint configuration is comprised of conducting film+tempered glass cover plate; the touch-screen of GF individual layer multipoint configuration is owing to only there being one deck glass; and one deck has been selected ITO conducting film in addition; make its cost, thickness, weight all obtain significantly improving; but can not handling factor in its manufacture craft many; but can not handling factor in its manufacture craft many; in etch process link; once the improper uses such as the etching solution using or protection glue; ITO cabling will go wrong, and causes that product yield is low, poor performance.

Summary of the invention

The object of the invention is to for the deficiencies in the prior art, the manufacture craft of the touch-screen of the improved GF individual layer multipoint configuration that a kind of product yield is high, performance is good is provided.

To achieve these goals, the present invention adopts following technical scheme:

A manufacture craft for the touch-screen of improved GF individual layer multipoint configuration, it comprises following operation:

A, conductive film sensor production process, it comprises the following steps successively:

Steps A 1, by conductive film baking, this conductive film comprises substrate layer and is arranged at the ITO layer in substrate layer front;

Steps A 2, on the ITO of conductive film rim area layer, print acid-proof ink, ITO layer in conductive film viewfinder area is carried out to etching for the first time with the first etching solution, with the second etching solution, carry out etching for the second time, obtain the conductive film of ITO cabling, then remove acid-proof ink with alkali lye;

Steps A 3, in the not contaminated and scraping with protection substrate layer of conductive film substrate layer printing protection glue, then overall printing conductive silver paste on the ITO of conductive film rim area layer, carries out laser-induced thermal etching to form silver slurry bridging circuit to conductive silver paste;

Steps A 4, the conductive film of opening is greatly cut, obtain film sensor;

B, binding operation, it comprises the following steps successively:

After step B1, film sensor test passes, the side laminating optical cement that has ITO cabling at sensor, combines film sensor and glass cover-plate by optical cement, then deaeration;

Step B2, conducting resinl ACF is fitted on FPC flexible PCB; ;

Step B3, finally FPC flexible PCB to be bound to film sensor upper, the touch-screen of the GF individual layer multipoint configuration being improved.

In steps A 2, described every liter of first etching solution is comprised of following raw material:

Hydrochloric acid 180-220 mL

Sodium dihydrogen phosphate 5-20g

Hydrofluoric Acid 70-90 mL

Hydrogen peroxide 40-50mL

Chloro-hexadecane yl pyridines 0.1-1 mL

Surplus is water.

In steps A 2, described every liter of second etching solution is comprised of following raw material:

Hydrochloric acid 160-200 mL

Nitric acid 60-80 mL

Oxalic acid 180-200 mL

Iron chloride 10-20g

APES 10-20ml

Surplus is water.

The present invention is by etching for the first time and etched mode for the second time, effectively controlled etched speed, in etching solution for etching, added for the first time the compositions such as corrosion inhibiter can slow down inhibition speed, carry out preliminary etching, be etched in for the second time for the first time and carry out on etched basis, can make etching more accurate, make the etching angle forming between 40 ~ 60 degree, substantially without side etching phenomenon, so greatly improved product yield.

In steps A 2, described acid-proof ink is comprised of the raw material of following weight portion:

Epoxy modified phenolic resin 10-15 part

Ethylene glycol ether acetate 20-30 part

Methyl methacrylate 15-20 part

Melamine formaldehyde resin 10-15 part

Chlorinated polypropylene 3-6 part

NPE 3-8 part

Tetrafluoroethene powder 5-8 part.

Above-mentioned several different resins cooperatively interacts; learn from other's strong points to offset one's weaknesses, the acid-proof ink making has good toughness and acid resistance, can protect carrying out smoothly after etch process completes of etch process in touch-screen manufacturing process; easily peel off, do not have and remain in material surface or contaminated materials.

In steps A 2, alkali lye adopts the sodium hydroxide solution that mass percent concentration is 4-8%.

In steps A 2, regularly the first etching solution and the second etching solution are detected, with the NaOH solution titration of 0.5mol/L, while consuming this NaOH solution <14-17ml, must add hydrochloric acid, control pH value between 3-5.

Preferably, the conductive silver paste in steps A 3 is comprised of the raw material of following percentage by weight:

Silver powder 55-70 %

Epoxy resin 5-15%

Vibrin 5-15%

Powdered graphite 0.1-1%

SiO 2 powder 1-2%

Diethylene glycol ether acetate 5-15%

Diethylene glycol monobutyl ether acetate 5-15%,

Wherein, described epoxy resin is PU modified epoxy vinyl ester resin,

Wherein, described vibrin is acrylic type vibrin.

PU modified epoxy vinyl ester resin in conductive silver paste and acrylic type vibrin can fully be dissolved in the dicyandiamide solution of diethylene glycol monobutyl ether acetate and diethylene glycol monobutyl ether acetate, form organic carrier, the silver powder with electric conductivity, after adding, can well be disperseed powdered graphite, improve the electric conductivity of conductive silver paste, PU modified epoxy vinyl ester resin, acrylic type vibrin, the employing of SiO 2 powder also makes the pulp strength after conductive silver paste sintering high, good with the adhesion of substrate layer, can meet the more and more thinner requirement of live width of the electrocondution slurry that touch-screen circuit uses.Micro-silver powder end and Nano Silver powder that described silver powder is 1:20-1:30 by mass ratio form, and the particle diameter at described micro-silver powder end is 10-20 μ m, and the particle diameter of described Nano Silver powder is 60-90nm.Micro-silver powder end and Nano Silver powder in this particle diameter and ratio range can coordinate better, both little quality and the high surface energy of Nano Silver powder can have been utilized, make Nano Silver powder be attached to surface, micro-silver powder end, form core the composite structure of shell, make again in follow-up mixed process, Nano Silver powder is attached to the surface at micro-silver powder end along with moving together in micro-silver powder end, has effectively avoided the agglomeration of Nano Silver powder; In addition because Nano Silver powder has high surface energy, the combination of the macromolecular chain in it and epoxy resin and vibrin is tightr, therefore micro-silver powder end can be by being attached to the combination of its surperficial Nano Silver powder and the macromolecular chain in epoxy resin and vibrin, the Nano Silver powder that is not attached to surface, micro-silver powder end will be filled into the various gaps of epoxy resin and vibrin, final all micro-silver powders end and Nano Silver powder all obtain dispersed, have improved electric conductivity of the present invention.

In steps A 1, the baking temperature of conductive film is 135-145 ℃, and baking time is 55-65min, and substrate layer is PET substrate layer.

Before the conductive film of opening greatly being cut in steps A 4, be covered with one deck PE diaphragm, when step B1 combines, tear off.

The present invention compared with prior art, beneficial effect is: the present invention is adopting overall printing conductive silver paste, conductive silver paste is carried out to laser-induced thermal etching to form the mode of silver slurry bridging circuit, effectively prevent the problem of silver slurry bridging circuit difficult processing easy fracture, guaranteeing on the basis of product yield, again from etching mode stage by stage, the selection of etching solution is, the several aspects of the selection of the selection of acid-proof ink, conductive silver paste are controlled, and the high and performance of product yield of the present invention is also improved a lot compared with like product.

Embodiment

Below in conjunction with embodiment, the present invention is further illustrated.

embodiment 1.

A manufacture craft for the touch-screen of improved GF individual layer multipoint configuration, it comprises following operation:

A, conductive film sensor production process, it comprises the following steps successively:

Steps A 1, by conductive film baking, this conductive film comprises substrate layer and is arranged at the ITO layer in substrate layer front;

Steps A 2, on the ITO of conductive film rim area layer, print acid-proof ink, ITO layer in conductive film viewfinder area is carried out to etching for the first time with the first etching solution, with the second etching solution, carry out etching for the second time, obtain the conductive film of ITO cabling, then remove acid-proof ink with alkali lye;

Steps A 3, in the not contaminated and scraping with protection substrate layer of conductive film substrate layer printing protection glue, then overall printing conductive silver paste on the ITO of conductive film rim area layer, carries out laser-induced thermal etching to form silver slurry bridging circuit to conductive silver paste;

Steps A 4, the conductive film of opening is greatly cut, obtain film sensor;

B, binding operation, it comprises the following steps successively:

After step B1, film sensor test passes, the side laminating optical cement that has ITO cabling at sensor, combines film sensor and glass cover-plate by optical cement, then deaeration;

Step B2, conducting resinl ACF is fitted on FPC flexible PCB; ;

Step B3, finally FPC flexible PCB to be bound to film sensor upper, the touch-screen of the GF individual layer multipoint configuration being improved.

In steps A 2, described every liter of first etching solution is comprised of following raw material:

Hydrochloric acid 180 mL

Sodium dihydrogen phosphate 5g

Hydrofluorite 90 mL

Hydrogen peroxide 50mL

Chloro-hexadecane yl pyridines 1 mL

Surplus is water.

In steps A 2, described every liter of second etching solution is comprised of following raw material:

Hydrochloric acid 160mL

Nitric acid 60mL

Oxalic acid 180mL

Iron chloride 10g

APES 20ml

Surplus is water.

In steps A 2, described acid-proof ink is comprised of the raw material of following weight portion:

10 parts of epoxy modified phenolic resins

30 parts of ethylene glycol ether acetates

15 parts of methyl methacrylates

15 parts of melamine formaldehyde resins

3 parts of chlorinated polypropylenes

8 parts of NPEs

8 parts, tetrafluoroethene powder.

In steps A 2, alkali lye adopts the sodium hydroxide solution that mass percent concentration is 4%.

In steps A 2, regularly the first etching solution and the second etching solution are detected, with the NaOH solution titration of 0.5mol/L, while consuming this NaOH solution <14ml, must add hydrochloric acid, control pH value between 3-5.

Wherein, the conductive silver paste in steps A 3 is comprised of the raw material of following percentage by weight:

Silver powder 55%

Epoxy resin 10%

Vibrin 5%

Powdered graphite 1%

SiO 2 powder 2%

Diethylene glycol ether acetate 15%

Diethylene glycol monobutyl ether acetate 12%,

Wherein, described epoxy resin is PU modified epoxy vinyl ester resin,

Wherein, described vibrin is acrylic type vibrin,

Wherein, micro-silver powder end and Nano Silver powder that described silver powder is 1:20 by mass ratio form, and the particle diameter at described micro-silver powder end is 10 μ m, and the particle diameter of described Nano Silver powder is 60nm.

In steps A 1, the baking temperature of conductive film is 135 ℃, and baking time is 55min, and substrate layer is PET substrate layer.

Before the conductive film of opening greatly being cut in steps A 4, be covered with one deck PE diaphragm, when step B1 combines, tear off.

embodiment 2.

A manufacture craft for the touch-screen of improved GF individual layer multipoint configuration, it comprises following operation:

A, conductive film sensor production process, it comprises the following steps successively:

Steps A 1, by conductive film baking, this conductive film comprises substrate layer and is arranged at the ITO layer in substrate layer front;

Steps A 2, on the ITO of conductive film rim area layer, print acid-proof ink, ITO layer in conductive film viewfinder area is carried out to etching for the first time with the first etching solution, with the second etching solution, carry out etching for the second time, obtain the conductive film of ITO cabling, then remove acid-proof ink with alkali lye;

Steps A 3, in the not contaminated and scraping with protection substrate layer of conductive film substrate layer printing protection glue, then overall printing conductive silver paste on the ITO of conductive film rim area layer, carries out laser-induced thermal etching to form silver slurry bridging circuit to conductive silver paste;

Steps A 4, the conductive film of opening is greatly cut, obtain film sensor;

B, binding operation, it comprises the following steps successively:

After step B1, film sensor test passes, the side laminating optical cement that has ITO cabling at sensor, combines film sensor and glass cover-plate by optical cement, then deaeration;

Step B2, conducting resinl ACF is fitted on FPC flexible PCB; ;

Step B3, finally FPC flexible PCB to be bound to film sensor and glass sensor upper, the touch-screen of the GF individual layer multipoint configuration being improved.

In steps A 2, described every liter of first etching solution is comprised of following raw material:

Hydrochloric acid 200 mL

Sodium dihydrogen phosphate 10g

Hydrofluorite 80 mL

Hydrogen peroxide 45mL

Chloro-hexadecane yl pyridines 0.5mL

Surplus is water.

In steps A 2, described every liter of second etching solution is comprised of following raw material:

Hydrochloric acid 170 mL

Nitric acid 70 mL

Oxalic acid 190 mL

Iron chloride 15g

APES 15ml

Surplus is water.

In steps A 2, described acid-proof ink is comprised of the raw material of following weight portion:

13 parts of epoxy modified phenolic resins

24 parts of ethylene glycol ether acetates

18 parts of methyl methacrylates

13 parts of melamine formaldehyde resins

5 parts of chlorinated polypropylenes

4 parts of NPEs

7 parts, tetrafluoroethene powder.

In steps A 2, alkali lye adopts the sodium hydroxide solution that mass percent concentration is 6%.

In steps A 2, regularly the first etching solution and the second etching solution are detected, with the NaOH solution titration of 0.5mol/L, while consuming this NaOH solution <16ml, must add hydrochloric acid, control pH value between 3-5.

Wherein, the conductive silver paste in steps A 3 is comprised of the raw material of following percentage by weight:

Silver powder 70%

Epoxy resin 5%

Vibrin 5%

Powdered graphite 0.5%

SiO 2 powder 1.5%

Diethylene glycol ether acetate 10%

Diethylene glycol monobutyl ether acetate 8%,

Wherein, described epoxy resin is PU modified epoxy vinyl ester resin,

Wherein, described vibrin is acrylic type vibrin,

Wherein, micro-silver powder end and Nano Silver powder that described silver powder is 1:25 by mass ratio form, and the particle diameter at described micro-silver powder end is 15 μ m, and the particle diameter of described Nano Silver powder is 75nm.

In steps A 1, the baking temperature of conductive film is 135-145 ℃, and baking time is 55-65min, and substrate layer is PET substrate layer.

Before the conductive film of opening greatly being cut in steps A 4, be covered with one deck PE diaphragm, when step B1 combines, tear off.

embodiment 3.

A manufacture craft for the touch-screen of improved GF individual layer multipoint configuration, it comprises following operation:

A, conductive film sensor production process, it comprises the following steps successively:

Steps A 1, by conductive film baking, this conductive film comprises substrate layer and is arranged at the ITO layer in substrate layer front;

Steps A 2, on the ITO of conductive film rim area layer, print acid-proof ink, ITO layer in conductive film viewfinder area is carried out to etching for the first time with the first etching solution, with the second etching solution, carry out etching for the second time, obtain the conductive film of ITO cabling, then remove acid-proof ink with alkali lye;

Steps A 3, in the not contaminated and scraping with protection substrate layer of conductive film substrate layer printing protection glue, then overall printing conductive silver paste on the ITO of conductive film rim area layer, carries out laser-induced thermal etching to form silver slurry bridging circuit to conductive silver paste;

Steps A 4, the conductive film of opening is greatly cut, obtain film sensor;

B, binding operation, it comprises the following steps successively:

After step B1, film sensor test passes, the side laminating optical cement that has ITO cabling at glass sensor, combines film sensor and glass cover-plate by optical cement, then deaeration;

Step B2, conducting resinl ACF is fitted on FPC flexible PCB; ;

Step B3, finally FPC flexible PCB is bound to film sensor, the touch-screen of the GF individual layer multipoint configuration being improved.

In steps A 2, described every liter of first etching solution is comprised of following raw material:

Hydrochloric acid 210 mL

Sodium dihydrogen phosphate 13g

Hydrofluorite 85 mL

Hydrogen peroxide 48mL

Chloro-hexadecane yl pyridines 0.8mL

Surplus is water.

In steps A 2, described every liter of second etching solution is comprised of following raw material:

Hydrochloric acid 190 mL

Nitric acid 75mL

Oxalic acid 190 mL

Iron chloride 12g

APES 13ml

Surplus is water.

In steps A 2, described acid-proof ink is comprised of the raw material of following weight portion:

13 parts of epoxy modified phenolic resins

28 parts of ethylene glycol ether acetates

17 parts of methyl methacrylates

13 parts of melamine formaldehyde resins

5 parts of chlorinated polypropylenes

6 parts of NPEs

6 parts, tetrafluoroethene powder.

In steps A 2, alkali lye adopts the sodium hydroxide solution that mass percent concentration is 7%.

In steps A 2, regularly the first etching solution and the second etching solution are detected, with the NaOH solution titration of 0.5mol/L, while consuming this NaOH solution <15ml, must add hydrochloric acid, control pH value between 3-5.

Conductive silver paste in steps A 3 is comprised of the raw material of following percentage by weight:

Silver powder 60%

Epoxy resin 8%

Vibrin 8%

Powdered graphite 0.1%

SiO 2 powder 1.9%

Diethylene glycol ether acetate 11%

Diethylene glycol monobutyl ether acetate 11%,

Wherein, described epoxy resin is PU modified epoxy vinyl ester resin,

Wherein, described vibrin is acrylic type vibrin,

Wherein, micro-silver powder end and Nano Silver powder that described silver powder is 1:27 by mass ratio form, and the particle diameter at described micro-silver powder end is 16 μ m, and the particle diameter of described Nano Silver powder is 75nm.

In steps A 1, the baking temperature of conductive film is 142 ℃, and baking time is 58min, and substrate layer is PET substrate layer.

Before the conductive film of opening greatly being cut in steps A 4, be covered with one deck PE diaphragm, when step B1 combines, tear off.

embodiment 4.

A manufacture craft for the touch-screen of improved GF individual layer multipoint configuration, it comprises following operation:

A, conductive film sensor production process, it comprises the following steps successively:

Steps A 1, by conductive film baking, this conductive film comprises substrate layer and is arranged at the ITO layer in substrate layer front;

Steps A 2, on the ITO of conductive film rim area layer, print acid-proof ink, ITO layer in conductive film viewfinder area is carried out to etching for the first time with the first etching solution, with the second etching solution, carry out etching for the second time, obtain the conductive film of ITO cabling, then remove acid-proof ink with alkali lye;

Steps A 3, in the not contaminated and scraping with protection substrate layer of conductive film substrate layer printing protection glue, then overall printing conductive silver paste on the ITO of conductive film rim area layer, carries out laser-induced thermal etching to form silver slurry bridging circuit to conductive silver paste;

Steps A 4, the conductive film of opening is greatly cut, obtain film sensor;

B, binding operation, it comprises the following steps successively:

After step B1, film sensor test passes, the side laminating optical cement that has ITO cabling at sensor, combines film sensor and glass cover-plate by optical cement, then deaeration;

Step B2, conducting resinl ACF is fitted on FPC flexible PCB; ;

Step B3, finally FPC flexible PCB to be bound to film sensor upper, the touch-screen of the GF individual layer multipoint configuration being improved.

In steps A 2, described every liter of first etching solution is comprised of following raw material:

Hydrochloric acid 220 mL

Sodium dihydrogen phosphate 20g

Hydrofluoric Acid 70 mL

Hydrogen peroxide 40mL

Chloro-hexadecane yl pyridines 0.1mL

Surplus is water.

In steps A 2, described every liter of second etching solution is comprised of following raw material:

Hydrochloric acid 200 mL

Nitric acid 80 mL

Oxalic acid 180 mL

Iron chloride 10g

APES 20ml

Surplus is water.

In steps A 2, described acid-proof ink is comprised of the raw material of following weight portion:

15 parts of epoxy modified phenolic resins

30 parts of ethylene glycol ether acetates

20 parts of methyl methacrylates

15 parts of melamine formaldehyde resins

3 parts of chlorinated polypropylenes

8 parts of NPEs

8 parts, tetrafluoroethene powder.

In steps A 2, alkali lye adopts the sodium hydroxide solution that mass percent concentration is 8%.

In steps A 2, regularly the first etching solution and the second etching solution are detected, with the NaOH solution titration of 0.5mol/L, while consuming this NaOH solution <17ml, must add hydrochloric acid, control pH value between 3-5.

Wherein, the conductive silver paste in steps A 3 is comprised of the raw material of following percentage by weight:

Silver powder 70%

Epoxy resin 5%

Vibrin 5%

Powdered graphite 1%

SiO 2 powder 2%

Diethylene glycol ether acetate 7%

Diethylene glycol monobutyl ether acetate 10%,

Wherein, described epoxy resin is PU modified epoxy vinyl ester resin,

Wherein, described vibrin is acrylic type vibrin,

Wherein, micro-silver powder end and Nano Silver powder that described silver powder is 1:30 by mass ratio form, and the particle diameter at described micro-silver powder end is 20 μ m, and the particle diameter of described Nano Silver powder is 90nm.

In steps A 1, the baking temperature of conductive film is 145 ℃, and baking time is 65min, and substrate layer is PET substrate layer.

Before the conductive film of opening greatly being cut in steps A 4, be covered with one deck PE diaphragm, when step B1 combines, tear off.

When above-described embodiment is used with touch-screen, the back side and the front of indication are as the criterion.

The touch-screen of the improved GF individual layer multipoint configuration that embodiment 1-4 is made carries out following test, refers to table 1.

。

By table 1 can find out that the touch-screen product yield of the improved GF individual layer multipoint configuration that the present invention makes is high, transmittance, thermal shock, hot and humid, high-temperature storage performance is good, b value, haze value are low.

Finally should be noted that; above embodiment is only in order to illustrate technical scheme of the present invention; but not limiting the scope of the invention; although the present invention has been done to explain with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can modify or be equal to replacement technical scheme of the present invention, and not depart from essence and the scope of technical solution of the present invention.

Claims (9)

1. a manufacture craft for the touch-screen of improved GF individual layer multipoint configuration, is characterized in that: it comprises following operation:

A, conductive film sensor production process, it comprises the following steps successively:

Steps A 1, by conductive film baking, this conductive film comprises substrate layer and is arranged at the ITO layer in substrate layer front;

Steps A 2, on the ITO of conductive film rim area layer, print acid-proof ink, ITO layer in conductive film viewfinder area is carried out to etching for the first time with the first etching solution, with the second etching solution, carry out etching for the second time, obtain the conductive film of ITO cabling, then remove acid-proof ink with alkali lye;

Steps A 3, in the not contaminated and scraping with protection substrate layer of conductive film substrate layer printing protection glue, then overall printing conductive silver paste on the ITO of conductive film rim area layer, carries out laser-induced thermal etching to form silver slurry bridging circuit to conductive silver paste;

Steps A 4, the conductive film of opening is greatly cut, obtain film sensor;

B, binding operation, it comprises the following steps successively:

After step B1, film sensor test passes, the side laminating optical cement OCA that has ITO cabling at film sensor, combines film sensor and glass cover-plate by optical cement, then deaeration;

Step B2, conducting resinl ACF is fitted on FPC flexible PCB;

Step B3, finally FPC flexible PCB to be bound to film sensor upper, the touch-screen of the GF individual layer multipoint configuration being improved.

2. the manufacture craft of the touch-screen of a kind of improved GF individual layer multipoint configuration claimed in claim 1, is characterized in that: in steps A 2, described every liter of first etching solution is comprised of following raw material:

Hydrochloric acid 180-220 mL

Sodium dihydrogen phosphate 5-20g

Hydrofluoric Acid 70-90 mL

Hydrogen peroxide 40-50mL

Chloro-hexadecane yl pyridines 0.1-1 mL

Surplus is water.

3. the manufacture craft of the touch-screen of a kind of improved GF individual layer multipoint configuration claimed in claim 1, is characterized in that: in steps A 2, described every liter of second etching solution is comprised of following raw material:

Hydrochloric acid 160-200 mL

Nitric acid 60-80 mL

Oxalic acid 180-200 mL

Iron chloride 1.10-20g

APES 10-20ml

Surplus is water.

4. the manufacture craft of the touch-screen of a kind of improved GF individual layer multipoint configuration according to claim 1, is characterized in that: in steps A 2, described acid-proof ink is comprised of the raw material of following weight portion:

Epoxy modified phenolic resin 10-15 part

Ethylene glycol ether acetate 20-30 part

Methyl methacrylate 15-20 part

Melamine formaldehyde resin 10-15 part

Chlorinated polypropylene 3-6 part

NPE 3-8 part

Tetrafluoroethene powder 5-8 part.

5. the manufacture craft of the touch-screen of a kind of improved GF individual layer multipoint configuration according to claim 1, is characterized in that: in steps A 2, alkali lye adopts the sodium hydroxide solution that mass percent concentration is 4-8%.

6. the manufacture craft of the touch-screen of a kind of improved GF individual layer multipoint configuration according to claim 1, it is characterized in that: in steps A 2, regularly the first etching solution and the second etching solution are detected, NaOH solution titration with 0.5mol/L, while consuming this NaOH solution <14-17ml, must add hydrochloric acid, control pH value between 3-5.

7. the manufacture craft of the touch-screen of a kind of improved GF individual layer multipoint configuration according to claim 1, is characterized in that: the conductive silver paste in steps A 3 is comprised of the raw material of following percentage by weight:

Silver powder 55-70 %

Epoxy resin 5-15%

Vibrin 5-15%

Powdered graphite 0.1-1%

SiO 2 powder 1-2%

Diethylene glycol ether acetate 5-15%

Diethylene glycol monobutyl ether acetate 5-15%,

Wherein, described epoxy resin is PU modified epoxy vinyl ester resin,

Wherein, described vibrin is acrylic type vibrin,

Wherein, micro-silver powder end and Nano Silver powder that described silver powder is 1:20-1:30 by mass ratio form, and the particle diameter at described micro-silver powder end is 10-20 μ m, and the particle diameter of described Nano Silver powder is 60-90nm.

8. the manufacture craft of the touch-screen of a kind of improved GF individual layer multipoint configuration according to claim 1, is characterized in that: in steps A 1, the baking temperature of conductive film is 135-145 ℃, and baking time is 55-65min, and substrate layer is PET substrate layer.

9. the manufacture craft of the touch-screen of a kind of improved GF individual layer multipoint configuration according to claim 1, is characterized in that: before in steps A 4, the conductive film of opening greatly being cut, be covered with one deck PE diaphragm, when step B1 combines, tear off.