CN106495502A - A kind of hand-set lid electroplates anti-reflection sapphire film production technique - Google Patents

Abstract

The present invention relates to a kind of hand-set lid electroplates anti-reflection sapphire film production technique, including：Glass surface reinforcement process, ultrasonic cleaning process, vacuum plating process, vacuum gas-phase coating process, microwave hot particle gas-phase deposition.The present invention is by electroplating anti-reflection sapphire thin film on simple glass, make its sapphire glass effect that matches in excellence or beauty in hardness, and compensate for the low deficiency of sapphire itself light transmittance, compare with sapphire on yield and also have greatly improved, the technical matters of this innovation substitute simple sapphire technique, processing is convenient quick, on cost also than sapphire advantageously.

Description

A kind of hand-set lid electroplates anti-reflection sapphire film production technique

Technical field

A kind of the present invention relates to field of mobile phones, more particularly to the anti-reflection sapphire film production technique of hand-set lid plating.

Background technology

In today of mobile phone market expanding day, the competition of hand-set lid processing also grows in intensity therewith, and each big mobile phone is public Department constantly researches and develops new technique, it is desirable to reduction production cost of adopting new technology, to improve houses market competitiveness.In modern production In technique, hand-set lid can not meet technical requirements using simple glass, and more and more brands are precious using the remarkable indigo plant of performance Stone glass, but its expensive material cost price allows people to hang back.

Content of the invention

The technical problem to be solved in the present invention is：There is provided a kind of had both increased the hand-set lid glass light transmittance of itself, and energy Meet mobile phone glass and pursue the test of the reliabilities such as the anti scuffing of higher quality, abrasion-resistant at present, and do not affect product appearance handss The hand-set lid of sense electroplates anti-reflection sapphire film production technique.

The technical solution adopted for the present invention to solve the technical problems is：A kind of hand-set lid electroplates anti-reflection sapphire film system Make technique, comprise the steps：

First, glass surface reinforcement process：Ordinary plate glass surface is carried out chemical enhanced；

2nd, ultrasonic cleaning process：Glass after ultrasound wave is to reinforcing is cleaned；

3rd, vacuum plating process：(1) the anti-reflection membrane process of vacuum plating is adopted, and glass surface plating after cleaning is some Layer anti-reflection film；(2) using vacuum evaporation and microwave hot particle vapour deposition mode, by LAF3 Coating Materials molecule depositions in base material Surface forms sapphire film layer；(3) the grease proofing membrane process of vacuum plating is adopted, anti-oil film is electroplated in sapphire film surface.

Preferably, in step one, by ordinary plate glass by ion-exchange process, change glass surface composition, So that glass surface forms one is laminated stressor layers, strengthened glass.

Preferably, in step 3, anti-reflection film is 6 layers, and material is TI3O5 and SIO2, and gross thickness is 200-400nm.

Preferably, in step 3, the grease proofing membrane material is DON-6G, and anti-oil film thickness is 15-25nm.

Preferably, in step 3, the sapphire thicknesses of layers is 30-60nm.

Preferably, in step 3, vacuum plating anti-reflection film and grease proofing membrane process are to be steamed with electron gun with high temperature in a vacuum Coating Materials is sent out, is allowed to evaporate in very short time, vaporized Coating Materials molecule deposition forms nanometer film in substrate surface Layer.

Present invention additionally comprises test technology：Glass after to plating carries out hardness test, the test of water droplet angle, light transmittance respectively Test, friction testing and Raman spectrum analyses.

The invention has the beneficial effects as follows：The present invention is by electroplating anti-reflection sapphire thin film on simple glass so as to hard Match in excellence or beauty on degree sapphire glass effect, and compensate for the low deficiency of sapphire itself light transmittance, compares with sapphire on yield Also have greatly improved, the technical matters of this innovation substitute simple sapphire technique, and processing is convenient quick, also compares on cost Sapphire is advantageously.

Description of the drawings

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is the flow chart that hand-set lid of the present invention electroplates anti-reflection sapphire film production technique；

Fig. 2 is vacuum evaporation and the microwave hot particle gas phase that hand-set lid of the present invention electroplates anti-reflection sapphire film production technique The process schematic representation of deposition.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further detailed explanation.These accompanying drawings are simplified schematic diagram, only with The basic structure of the illustration explanation present invention, therefore which only shows the composition relevant with the present invention.

As shown in figure 1, a kind of hand-set lid electroplates anti-reflection sapphire film production technique, comprise the steps：

First, glass surface reinforcement process：Ordinary plate glass surface is carried out chemical enhanced, ordinary plate glass is passed through Ion-exchange process, changes glass surface composition, so that glass surface forms one is laminated stressor layers, strengthened glass. Specifically, by the silicate glass containing alkali metal ion, it is immersed in lithium (Li+) salt of molten condition, makes surface layer of glass Na+ or K+ ions are exchanged with Li+ ions, and surface forms Li+ ion exchange layers, as the coefficient of expansion of Li+ is less than Na+, K + ion, so as to cause in cooling procedure outer layer shrink less and internal layer shrink larger, after room temperature is cooled to, glass just with Sample is in internal layer tension, the pressurized state of outer layer.

2nd, ultrasonic cleaning process：Glass after ultrasound wave is to reinforcing is cleaned；

3rd, vacuum plating process：(1), after ultrasound wave cleaning, load is carried out using special parachute kit, vacuum plating is then carried out Anti-reflection membrane process, electroplates 6 layers of anti-reflection film, and material is TI3O5 and SIO2, and gross thickness is 200-400nm, hand-set lid glass after plating Glass light transmittance>94%；(2) using vacuum evaporation and microwave hot particle vapour deposition mode, by LAF3 Coating Materials molecule depositions Sapphire film layer is formed in substrate surface, thickness is 30-60nm, through accurate spectrum test and the test of various reliabilities, table Surface hardness can anti-9H；(3) using the grease proofing membrane process of vacuum plating, coating film thickness 15-25nm, after plated film, water droplet angle is more than 110 degree；

4th, test technology：After plating, using specific purpose tool bottom sheet, then to plating after glass to carry out pencil respectively hard Degree test, the test of water droplet angle, light transmittance test, impression formula friction testing and Raman spectrum analyses.

In step 3, vacuum plating anti-reflection film and grease proofing membrane process are in 3.0X10^-5With electron gun with high temperature in Torr vacuum Structural evaporation coating film material, is allowed to evaporate in very short time, and vaporized Coating Materials molecule deposition forms nanometer in substrate surface Film layer.

Vacuum evaporation as shown in Figure 2 and microwave hot particle vapour deposition mode process schematic representation, base material are put into and are taken out very In empty high temperature furnace, LAF3 Coating Materials molecules are passed through by window, LAF3 Coating Materials molecules high temperature are steamed by evaporation source Send out, vaporized Coating Materials molecule deposition forms sapphire film layer in substrate surface.Plating sapphire film its principle is to utilize Each mutually discontinuous characteristic stack combinations, obtain FINAL APPEARANCE transparent do not affect wireless communication transmission effect with sapphire performance Film layer.

Embodiment 1：

First, ordinary plate glass surface is carried out chemical enhanced；

2nd, the glass after ultrasound wave is to reinforcing is cleaned, and scavenging period is 5min；

3rd, vacuum plating process：(1), after ultrasound wave cleaning, load is carried out using special parachute kit, vacuum plating is then carried out Anti-reflection membrane process, electroplates 6 layers of anti-reflection film, and ground floor is TI3O5, and thickness is 11.41nm, and the second layer is SIO2, and thickness is 37.54nm, third layer are TI3O5, and thickness is 49.52nm, and the 4th layer is SIO2, and thickness is 10nm, and layer 5 is TI3O5, thick Spend for 42.81nm, layer 6 is SIO2, and thickness is 87.11nm；(2) using vacuum evaporation and microwave hot particle vapour deposition side LAF3 Coating Materials molecule deposition is formed sapphire film layer in substrate surface by formula, and thickness is 40nm；(3) vacuum plating is adopted Grease proofing membrane process, coating film thickness 20nm；

4th, after testing, water droplet angle is 113.2 °, and light transmittance is 94.7%, and pencil hardness reaches 9H.

Embodiment 2：

First, ordinary plate glass surface is carried out chemical enhanced；

2nd, the glass after ultrasound wave is to reinforcing is cleaned, and scavenging period is 10min；

3rd, vacuum plating process：(1), after ultrasound wave cleaning, load is carried out using special parachute kit, vacuum plating is then carried out Anti-reflection membrane process, electroplates 6 layers of anti-reflection film, and ground floor is TI3O5, and thickness is 23.54nm, and the second layer is SIO2, and thickness is 27.69nm, third layer are TI3O5, and thickness is 61.31nm, and the 4th layer is SIO2, and thickness is 29.34nm, and layer 5 is TI3O5, Thickness is 38.46nm, and layer 6 is SIO2, and thickness is 69.76nm；(2) using vacuum evaporation and microwave hot particle vapour deposition LAF3 Coating Materials molecule deposition is formed sapphire film layer in substrate surface by mode, and thickness is 35nm；(3) vacuum electric is adopted Plate grease proofing membrane process, coating film thickness 18nm；

4th, after testing, water droplet angle is 112.5 °, and light transmittance is 94.2%, and pencil hardness reaches 9H.

Embodiment 2：

First, ordinary plate glass surface is carried out chemical enhanced；

2nd, the glass after ultrasound wave is to reinforcing is cleaned, and scavenging period is 8min；

3rd, vacuum plating process：(1), after ultrasound wave cleaning, load is carried out using special parachute kit, vacuum plating is then carried out Anti-reflection membrane process, electroplates 6 layers of anti-reflection film, and ground floor is TI3O5, and thickness is 18.95nm, and the second layer is SIO2, and thickness is 30.64nm, third layer are TI3O5, and thickness is 40.91nm, and the 4th layer is SIO2, and thickness is 60.49nm, and layer 5 is TI3O5, Thickness is 70.81nm, and layer 6 is SIO2, and thickness is 106.53nm；(2) using vacuum evaporation and microwave hot particle vapour deposition LAF3 Coating Materials molecule deposition is formed sapphire film layer in substrate surface by mode, and thickness is 55nm；(3) vacuum electric is adopted Plate grease proofing membrane process, coating film thickness 25nm；

4th, after testing, water droplet angle is 119.3 °, and light transmittance is 95.8%, and pencil hardness reaches 9H.

With the above-mentioned desirable embodiment according to the present invention as enlightenment, by above-mentioned description, relevant staff is complete Various change and modification can be carried out entirely in the range of without departing from this invention technological thought.The technology of this invention Property scope is not limited to the content in description, it is necessary to determine its technical scope according to right.

Claims (7)

1. a kind of hand-set lid electroplates anti-reflection sapphire film production technique, it is characterised in that comprise the steps：

First, glass surface reinforcement process：Ordinary plate glass surface is carried out chemical enhanced；

2nd, ultrasonic cleaning process：Glass after ultrasound wave is to reinforcing is cleaned；

3rd, vacuum plating process：(1) the anti-reflection membrane process of vacuum plating is adopted, if glass surface plating dried layer after cleaning increases Permeable membrane；(2) using vacuum evaporation and microwave hot particle vapour deposition mode, by LAF3 Coating Materials molecule depositions in substrate surface Form sapphire film layer；(3) the grease proofing membrane process of vacuum plating is adopted, anti-oil film is electroplated in sapphire film surface.

2. hand-set lid as claimed in claim 1 electroplates anti-reflection sapphire film production technique, it is characterised in that in step one, By ordinary plate glass by ion-exchange process, change glass surface composition, so that glass surface forms a lamination and answers Power layer, strengthened glass.

3. hand-set lid as claimed in claim 1 electroplates anti-reflection sapphire film production technique, it is characterised in that in step 3, Anti-reflection film is 6 layers, and material is TI3O5 and SIO2, and gross thickness is 200-400nm.

4. hand-set lid as claimed in claim 1 electroplates anti-reflection sapphire film production technique, it is characterised in that in step 3, The grease proofing membrane material is DON-6G, and thickness is 15-25nm.

5. hand-set lid as claimed in claim 1 electroplates anti-reflection sapphire film production technique, it is characterised in that in step 3, The sapphire thicknesses of layers is 30-60nm.

6. hand-set lid as claimed in claim 1 electroplates anti-reflection sapphire film production technique, it is characterised in that in step 3, Vacuum plating anti-reflection film and grease proofing membrane process are in a vacuum with electron gun with high temperature structural evaporation coating film material, are allowed in very short time Evaporation, vaporized Coating Materials molecule deposition form nanometer film layer in substrate surface.

7. hand-set lid as claimed in claim 1 electroplates anti-reflection sapphire film production technique, it is characterised in that also include testing Technique：Glass after to plating carries out hardness test, the test of water droplet angle, light transmittance test, friction testing and Raman spectrum respectively Analysis.