What is the effect of AF plasma spraying coating equipment on the surface of glass nano coating?

Today, let's delve into the process and effectiveness of surface finishing treatment for nano coatings on glass surfaces!

On the market, AF plasma spraying coating equipment is designed for nano level processing. It gently and uniformly sprays AF anti fingerprint oil and other flow liquids onto the surface of glass. Due to its precise design, the coating thickness is uniform, without ripples or stripes, and can be customized according to customer needs. Personalized requirements can be customized according to different products,

The AG anti reflection and anti glare plasma spraying coating equipment of the seismometer is one of the indispensable technologies for deep processing of photovoltaic glass. The optical properties of the glass are significantly improved by applying a special nano AF solution on the glass surface. This coating reduces surface reflectivity, maximizes light transmittance, and improves the efficiency of solar energy conversion in photovoltaic cells.

The common cleaning technology for building glass thermal insulation coatings is used for the processing of building glass, and nano material coatings are used for glass surfaces, which are very effective in insulation and UV protection. It produces an energy-saving glass that can block UV radiation,

Zhenyi Co., Ltd. has carefully designed our AF plasma spray coating equipment to apply special glass coatings with extremely high precision. This spray coating technology ensures that the coating is uniform and thorough, without leakage, and the surface is smooth and uniform. The glass nano spray coating machine is a spraying equipment used for nano thin films on glass surfaces, widely used in fields such as construction, automotive, electronics, and optics. The following is the operation process and characteristics of AF plasma spraying coating machine in the glass field, as follows:

1、 Operation process

1. Preparation work:

Cleaning glass: Use a plasma cleaning machine to remove oil and dust from the surface of the glass. Check the equipment: Check whether the power supply, gas source, vacuum system, etc. are normal.

2. Loading glass

Fixed glass: Fix clean glass on the stage of the coating machine to ensure accurate positioning. Adjust parameters: Set the parameters of the coating machine (such as vacuum degree, temperature, coating time, etc.) according to the coating requirements.

3. Vacuum pumping

Start the vacuum pump: Start the vacuum pump to pump the coating chamber to the desired vacuum level. Monitoring vacuum degree: The vacuum degree of the coating chamber is monitored by a vacuum gauge to ensure compliance with requirements.

4. Coating

Start coating source: Start the coating source (such as sputtering target, evaporation source) to start coating. Control parameters: According to the coating requirements, control the power, airflow, temperature and other parameters of the coating source. Monitoring the coating process: Real time monitoring of the coating process through a monitoring system to ensure uniform coating.

5. End coating

Turn off coating source: After the coating is completed, turn off the coating source. Restore normal pressure: Slowly fill the gas into the coating chamber to restore normal pressure.

6. Remove the glass

Unloading glass: Remove the coated glass from the loading platform. Quality inspection: Check the coating quality to ensure compliance with requirements.

7. Cleaning equipment

Cleaning the coating room: Clean the residue inside the coating room and keep the equipment clean. Maintain equipment: Regularly maintain the equipment to ensure its normal operation.

2、 Characteristics

1. High precision coating

Features: Adopting advanced AF spray coating technology to achieve uniform coating of nanoscale films, improving the optical performance, wear resistance, and scratch resistance of glass.

2. Multifunctionality

Features: Supports multiple coating materials (such as metals, oxides, nitrides) and coating methods (such as sputtering, evaporation) to meet different application requirements and improve equipment applicability.

3. Automated control

Features: Equipped with PLC control system and touch screen human-machine interface, easy to operate, improves operational efficiency, and reduces manual operation errors.

4. Environmental and energy-saving advantages: meeting environmental requirements and reducing production costs.

Thirdly, application cases

1. Automotive Glass

Application: Windows, Windshield: Advantages: Improve the wear resistance, scratch resistance, and safety of glass.

2. Optical components

Applications: lenses, filters, reflectors, advantages: improve the transmittance, reflectivity, and wear resistance of optical devices.

4. Electronic display screen

Application: Mobile phone screen, TV screen, computer screen; Advantages: Improve the clarity, wear resistance, and scratch resistance of the display screen.

In summary, AF plasma spraying coating equipment can significantly improve the performance and quality of glass through high-precision coating, multifunctionality, automatic control, environmental protection and energy saving, high stability, and wide application. Nano coating spraying technology can achieve efficient coating production through reasonable operation procedures and equipment maintenance, meeting the needs of different industries and applications.