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| MOQ: | 1 หน่วย |
| ราคา: | Negotation |
| บรรจุภัณฑ์มาตรฐาน: | บรรจุด้วยกล่องไม้ |
| วิธีการชำระเงิน: | T/T, Western Union |
| กำลังการผลิต: | 1,000 หน่วยต่อเดือน |
Description:
The ultrasonic nano level conductive glass film spraying process is an efficient thin film preparation technology. It uses high-frequency ultrasonic waves to atomize conductive materials (such as silver, indium tin oxide, etc.) and evenly spray them onto the surface of the glass substrate, forming nano level conductive thin films and manufacturing glass thin films with good conductivity and transparency.
The ultrasonic nanoscale conductive glass film spraying process is mainly used to manufacture touch screens with transparent conductive layers; Solar cells with transparent electrode materials; Electronic components used for various conductive connections.
Parameters:
| Product Type |
Ultrasonic Precision Spray Coating Machine Laboratory desktop Type FS310 |
Intelligent Ultrasonic Precision Coating Machine desktop Type FS620 |
Benchtop Ultrasonic Spray Coating Machine FS650 |
| Spray Nozzle Operating Frequency | 20-200KHz | 20-200KHz (Normally use 60100110120K) | 20-200KHz (Normally use 60100K) |
| Nozzle Power | 1-15W | 1-15W | 1-15W |
| Continuous Spraying Volume Max | 0.01-50ml/min | 0.01-50ml/min | Determine based on the type and quantity of nozzles configured (Max 5 Nozzles) |
| Effective Spraying Width | 2-100mm | 2-100mm | Determine based on the type and quantity of nozzles configured |
| Spray Uniformity | ≥95% | ≥95% | ≥95% |
| Solution Conversion Rate | ≥95% | ≥95% | ≥95% |
| Dry Film Thickness | 20nm-100μm | 20nm-100μm | 20nm-100μm |
| Solution Viscosity | ≤30cps | ≤30cps | ≤30cps |
| Temperature Range | 1-60℃ | 1-60℃ | 1-60℃ |
| Atomized Particles (Median Value) | 10-45μm (distilled water), determined by the frequency of the nozzle | 10-45μm (distilled water), determined by the frequency of the nozzle | 10-45μm (distilled water), determined by the frequency of the nozzle |
| Diversion Pressure Max | ≤0.10MPA | ≤0.15MPA | ≤0.15MPA |
| Input Voltage | 220V±10%/50-60Hz | 220V±10%/50-60Hz | 220V±10%/50-60Hz |
| Exercise Mode | X+Y two axis fully automatic, Z-axis manual adjustment | XYZ three-axis, independently programmable | A spraying control system independently developed by FUNSONIC based on the Windows system, with PLC control, 15.6-inch full-color touch screen, XYZ three-axis imported servo motor, R-axis start rotation, and fully enclosed precision screw module |
| Control Mode | Micro computer card, 7-inch touch screen+buttons | FUNSONIC spraying control system, PLC control, 13.3-inch full-color touch screen | PLC control, operation control system developed based on Windows system, supporting remote operation, upgrading, etc |
| Control Content | Ultrasonic spraying, liquid supply, heating, ultrasonic dispersion and other systems | Ultrasonic spraying, liquid supply, heating, ultrasonic dispersion and other systems | The touch screen integrates ultrasonic nozzle, liquid supply, heating, adsorption, ultrasonic dispersion and other controls, and also has system monitoring, alarm and other functions |
| Liquid Supply Method | Precision injection pump | Precision injection pump | Precision injection pump |
| Ultrasonic Dispersion System (Optional) | 50ml, 40K, biological grade sampler | 20ml or 50ml, 40K, biological grade sampler | 20ml or 50ml, 40K, biological grade sampler |
Process Elements:
1. Material selection: Conductive materials: Common conductive substances encompass indium tin oxide (ITO), zinc oxide (ZnO) doped with indium, silver nanowires, etc; Solvent: Choose a appropriatesolvent to make certain uniform dispersion of conductive materials.
2. Equipment configuration: Ultrasonic spraying equipment: inclusive of ultrasonic generator, nozzle, and liquid provide system; Substrate fixing device: Ensure the steadiness of the glass substrate at some point of the spraying process.
3. Spray parameters: Ultrasonic frequency: High frequency ultrasonic waves are normally chosen to acquire higher atomization effect; Spray pressure: Adjust the spray stress correctly to manipulate the spray fee and coating uniformity; Spray distance: The distance between the nozzle and the substrate have to be reasonable to make sure uniform deposition of the coating.
4. Spraying process: substrate preparation: smooth the glass surface, get rid of dirt and oil stains; Material configuration: dissolve conductive substances in fabulous solvents, and alter the attention to meet the spraying requirements; Ultrasonic spraying: Start the tools and evenly spray conductive substances to shape a nanoscale coating; Coating curing: Curing the coating via heating or ultraviolet irradiation to enhance its adhesion and conductivity.
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| MOQ: | 1 หน่วย |
| ราคา: | Negotation |
| บรรจุภัณฑ์มาตรฐาน: | บรรจุด้วยกล่องไม้ |
| วิธีการชำระเงิน: | T/T, Western Union |
| กำลังการผลิต: | 1,000 หน่วยต่อเดือน |
Description:
The ultrasonic nano level conductive glass film spraying process is an efficient thin film preparation technology. It uses high-frequency ultrasonic waves to atomize conductive materials (such as silver, indium tin oxide, etc.) and evenly spray them onto the surface of the glass substrate, forming nano level conductive thin films and manufacturing glass thin films with good conductivity and transparency.
The ultrasonic nanoscale conductive glass film spraying process is mainly used to manufacture touch screens with transparent conductive layers; Solar cells with transparent electrode materials; Electronic components used for various conductive connections.
Parameters:
| Product Type |
Ultrasonic Precision Spray Coating Machine Laboratory desktop Type FS310 |
Intelligent Ultrasonic Precision Coating Machine desktop Type FS620 |
Benchtop Ultrasonic Spray Coating Machine FS650 |
| Spray Nozzle Operating Frequency | 20-200KHz | 20-200KHz (Normally use 60100110120K) | 20-200KHz (Normally use 60100K) |
| Nozzle Power | 1-15W | 1-15W | 1-15W |
| Continuous Spraying Volume Max | 0.01-50ml/min | 0.01-50ml/min | Determine based on the type and quantity of nozzles configured (Max 5 Nozzles) |
| Effective Spraying Width | 2-100mm | 2-100mm | Determine based on the type and quantity of nozzles configured |
| Spray Uniformity | ≥95% | ≥95% | ≥95% |
| Solution Conversion Rate | ≥95% | ≥95% | ≥95% |
| Dry Film Thickness | 20nm-100μm | 20nm-100μm | 20nm-100μm |
| Solution Viscosity | ≤30cps | ≤30cps | ≤30cps |
| Temperature Range | 1-60℃ | 1-60℃ | 1-60℃ |
| Atomized Particles (Median Value) | 10-45μm (distilled water), determined by the frequency of the nozzle | 10-45μm (distilled water), determined by the frequency of the nozzle | 10-45μm (distilled water), determined by the frequency of the nozzle |
| Diversion Pressure Max | ≤0.10MPA | ≤0.15MPA | ≤0.15MPA |
| Input Voltage | 220V±10%/50-60Hz | 220V±10%/50-60Hz | 220V±10%/50-60Hz |
| Exercise Mode | X+Y two axis fully automatic, Z-axis manual adjustment | XYZ three-axis, independently programmable | A spraying control system independently developed by FUNSONIC based on the Windows system, with PLC control, 15.6-inch full-color touch screen, XYZ three-axis imported servo motor, R-axis start rotation, and fully enclosed precision screw module |
| Control Mode | Micro computer card, 7-inch touch screen+buttons | FUNSONIC spraying control system, PLC control, 13.3-inch full-color touch screen | PLC control, operation control system developed based on Windows system, supporting remote operation, upgrading, etc |
| Control Content | Ultrasonic spraying, liquid supply, heating, ultrasonic dispersion and other systems | Ultrasonic spraying, liquid supply, heating, ultrasonic dispersion and other systems | The touch screen integrates ultrasonic nozzle, liquid supply, heating, adsorption, ultrasonic dispersion and other controls, and also has system monitoring, alarm and other functions |
| Liquid Supply Method | Precision injection pump | Precision injection pump | Precision injection pump |
| Ultrasonic Dispersion System (Optional) | 50ml, 40K, biological grade sampler | 20ml or 50ml, 40K, biological grade sampler | 20ml or 50ml, 40K, biological grade sampler |
Process Elements:
1. Material selection: Conductive materials: Common conductive substances encompass indium tin oxide (ITO), zinc oxide (ZnO) doped with indium, silver nanowires, etc; Solvent: Choose a appropriatesolvent to make certain uniform dispersion of conductive materials.
2. Equipment configuration: Ultrasonic spraying equipment: inclusive of ultrasonic generator, nozzle, and liquid provide system; Substrate fixing device: Ensure the steadiness of the glass substrate at some point of the spraying process.
3. Spray parameters: Ultrasonic frequency: High frequency ultrasonic waves are normally chosen to acquire higher atomization effect; Spray pressure: Adjust the spray stress correctly to manipulate the spray fee and coating uniformity; Spray distance: The distance between the nozzle and the substrate have to be reasonable to make sure uniform deposition of the coating.
4. Spraying process: substrate preparation: smooth the glass surface, get rid of dirt and oil stains; Material configuration: dissolve conductive substances in fabulous solvents, and alter the attention to meet the spraying requirements; Ultrasonic spraying: Start the tools and evenly spray conductive substances to shape a nanoscale coating; Coating curing: Curing the coating via heating or ultraviolet irradiation to enhance its adhesion and conductivity.
