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| 모크: | 1 단위 |
| 가격: | Negotation |
| 표준 포장: | 목재 케이스로 포장 |
| 지불 방법: | T/T, Western Union |
| 공급 용량: | 한 달에 1000 단위 |
Description:
EMI shielding ultrasonic spraying technology is a revolutionary technique for shielding within the critical frequency range of 1-500MHz. As is well known, the frequency range of 1-500MHz covers common frequencies of many electronic devices, from daily smartphones to complex industrial control systems. EMI shielding ultrasonic spraying technology precisely deposits conductive materials to form an ultra-thin but efficient shielding layer, achieving seamless coverage and minimizing signal leakage, thereby improving shielding efficiency. This enables electronic components to operate stably and uninterrupted without electromagnetic interference.
Parameters:
| Product Type |
Intelligent Ultrasonic Precision Coating Machine desktop Type |
| Spray Nozzle Operating Frequency | 20-200KHz (Normally use 60100110120K) |
| Nozzle Power | 1-15W |
| Continuous Spraying Volume Max | 0.01-50ml/min |
| Effective Spraying Width | 2-100mm |
| Spray Uniformity | ≥95% |
| Solution Conversion Rate | ≥95% |
| Dry Film Thickness | 20nm-100μm |
| Solution Viscosity | ≤30cps |
| Temperature Range | 1-60℃ |
| Atomized Particles (Median Value) | 10-45μm (distilled water), determined by the frequency of the nozzle |
| Diversion Pressure Max | ≤0.15MPA |
| Input Voltage | 220V±10%/50-60Hz |
| Exercise Mode | XYZ three-axis, independently programmable |
| Control Mode | FUNSONIC spraying control system, PLC control, 13.3-inch full-color touch screen |
| Control Content | Ultrasonic spraying, liquid supply, heating, ultrasonic dispersion and other systems |
| Liquid Supply Method | Precision injection pump |
| Ultrasonic Dispersion System (Optional) | 20ml or 50ml, 40K, biological grade sampler |
| Rated Power of Ultrasonic Dispersion System | 100W |
Factors:
1. Material selection Conductivity: The conductivity of the chosen coating without delay impacts the protecting effect, and it is normally imperative to pick substances with excessive conductivity. Particle size: The dimension and distribution of conductive particles can have an effect on the uniformity and protective impact of the coating.
2. Spray parameters Spray pressure: Excessive or inadequate spray strain can have an effect on the thickness and uniformity of the coating. Spray speed: The spray velocity need to be appropriate. If it is too fast, it can also reason uneven coating, and if it is too slow, it can also motive fabric waste.
3. Surface treatment Substrate cleanliness: The cleanliness of the substrate floor earlier than spraying can have an effect on the adhesion of the coating. Surface roughness: A tough floor may additionally result in uneven coating and have an effect on protective performance.
4. Environmental conditions Temperature and humidity: The temperature and humidity of the spraying surroundings can have an effect on the drying velocity and adhesion of the coating. Air flow: Air float can have an effect on the atomization impact of the coating all through spraying.
5. Coating thickness Coating thickness: Appropriate coating thickness can ensure good shielding effect; Being too thin may not effectively block electromagnetic interference, while being too thick may lead to other problems.
6. Post processing technology Curing method: The curing method of the coating (such as thermal curing, UV curing) has a significant impact on the final performance. Coating testing: Corresponding shielding effect tests should be conducted to ensure compliance with design requirements.
동영상
동영상
동영상
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|
| 모크: | 1 단위 |
| 가격: | Negotation |
| 표준 포장: | 목재 케이스로 포장 |
| 지불 방법: | T/T, Western Union |
| 공급 용량: | 한 달에 1000 단위 |
Description:
EMI shielding ultrasonic spraying technology is a revolutionary technique for shielding within the critical frequency range of 1-500MHz. As is well known, the frequency range of 1-500MHz covers common frequencies of many electronic devices, from daily smartphones to complex industrial control systems. EMI shielding ultrasonic spraying technology precisely deposits conductive materials to form an ultra-thin but efficient shielding layer, achieving seamless coverage and minimizing signal leakage, thereby improving shielding efficiency. This enables electronic components to operate stably and uninterrupted without electromagnetic interference.
Parameters:
| Product Type |
Intelligent Ultrasonic Precision Coating Machine desktop Type |
| Spray Nozzle Operating Frequency | 20-200KHz (Normally use 60100110120K) |
| Nozzle Power | 1-15W |
| Continuous Spraying Volume Max | 0.01-50ml/min |
| Effective Spraying Width | 2-100mm |
| Spray Uniformity | ≥95% |
| Solution Conversion Rate | ≥95% |
| Dry Film Thickness | 20nm-100μm |
| Solution Viscosity | ≤30cps |
| Temperature Range | 1-60℃ |
| Atomized Particles (Median Value) | 10-45μm (distilled water), determined by the frequency of the nozzle |
| Diversion Pressure Max | ≤0.15MPA |
| Input Voltage | 220V±10%/50-60Hz |
| Exercise Mode | XYZ three-axis, independently programmable |
| Control Mode | FUNSONIC spraying control system, PLC control, 13.3-inch full-color touch screen |
| Control Content | Ultrasonic spraying, liquid supply, heating, ultrasonic dispersion and other systems |
| Liquid Supply Method | Precision injection pump |
| Ultrasonic Dispersion System (Optional) | 20ml or 50ml, 40K, biological grade sampler |
| Rated Power of Ultrasonic Dispersion System | 100W |
Factors:
1. Material selection Conductivity: The conductivity of the chosen coating without delay impacts the protecting effect, and it is normally imperative to pick substances with excessive conductivity. Particle size: The dimension and distribution of conductive particles can have an effect on the uniformity and protective impact of the coating.
2. Spray parameters Spray pressure: Excessive or inadequate spray strain can have an effect on the thickness and uniformity of the coating. Spray speed: The spray velocity need to be appropriate. If it is too fast, it can also reason uneven coating, and if it is too slow, it can also motive fabric waste.
3. Surface treatment Substrate cleanliness: The cleanliness of the substrate floor earlier than spraying can have an effect on the adhesion of the coating. Surface roughness: A tough floor may additionally result in uneven coating and have an effect on protective performance.
4. Environmental conditions Temperature and humidity: The temperature and humidity of the spraying surroundings can have an effect on the drying velocity and adhesion of the coating. Air flow: Air float can have an effect on the atomization impact of the coating all through spraying.
5. Coating thickness Coating thickness: Appropriate coating thickness can ensure good shielding effect; Being too thin may not effectively block electromagnetic interference, while being too thick may lead to other problems.
6. Post processing technology Curing method: The curing method of the coating (such as thermal curing, UV curing) has a significant impact on the final performance. Coating testing: Corresponding shielding effect tests should be conducted to ensure compliance with design requirements.
