Anti-static floor base resin, solvent

1, the base resin

The base resin is the skeleton that forms the antistatic coating and is the carrier of the conductive material. The base resin not only determines the physical and chemical properties of the antistatic coating, but also has a great influence on the antistatic property of the coating. At present, synthetic resins suitable for floor coatings include epoxy resins, polyurethane resins, unsaturated polyester resins, and acrylate resins, since epoxy resins have good adhesion to various substrates and have chemical resistance. Mechanical properties and other comprehensive performance is good, and the resistance value is relatively small, so it is the ideal base material for anti-static floor coating. It is very important that the coating of the anti-static coating is fully cured, so an appropriate curing agent should be selected. Epoxy resins mostly use modified amine fumarate as a curing agent. When selecting a curing agent, the effects of the curing agent's toxicity, amount, and curing conditions on the anti-static properties of the coating should be taken into consideration.

2, solvent

When the solvent is used as an auxiliary component of the conductive coating, the conductive properties of the coating are also affected. Selecting a solvent capable of fully dissolving the binder results in high conductivity of the coating film, and poor conductivity of the poor solvent to form the coating. Too much or too little solvent will lead to a decrease in conductivity of the coating film. The use of low volatility solvents gives better conductivity than highly volatile solvents. Ketones, esters, and ether alcohols are chlorinated solvents of epoxy resins and have good solvency for epoxy resins. The arylhydrazines and alcohols are not solvents for epoxy resins but can be mixed as a diluent for epoxy resins. In high-solid epoxy ESD floor coatings, thinners are often used to reduce the viscosity, but it should be noted that the amount of thinner should not be too much, otherwise it will reduce the performance of the coating.

3, color, filler

Pigments in addition to coloring and hiding in anti-static floor coating, sometimes also play a role in rust, so anti-static primer can choose some rust-proof pigments, such as red iron oxide, zinc phosphate Tetrabasic zinc yellow, etc.; anti-static paint is selected titanium dioxide, carbon black, Hansha yellow, germanium series pigments, these pigments have excellent chemical resistance properties.

In addition to reducing costs, fillers (systemic pigments) are mainly used to improve the mechanical properties of coatings. Considering the anti-corrosion performance of the constitution pigment, talc powder, precipitated barium sulfate, barite powder, quartz powder and mica powder may be selected as the filler of the paint. It can be seen from the crystal structure of the filler that mica powder, talc powder and quartz powder have a certain scale structure and can improve the impermeability of the coating. However, the oil absorption of mica powder is high and it is not suitable for high proportions. It needs to be used together with other fillers with low oil absorption to ensure the self-leveling performance of the coating.

4, auxiliary system

The commonly used conductive filler such as conductive mica powder has a small particle size and a large specific surface area, resulting in thickening of the coating, and at the same time, lowering the wettability of the substrate and easily causing morbidity such as color separation, shrinkage, poor leveling, and the like. Therefore, the wetting and dispersing agent, leveling agent and defoamer should be carefully selected according to different base materials and conductive fillers. The type and amount of additives should be determined according to the experiment. Too little will affect the surface effect of the coating and the application performance of the coating. Too much will have adverse effects on the conductivity of the coating.

Crystal Wall Lamp

A crystal Wall Lamp is a type of lighting fixture that is designed to be mounted on a wall. It features a frame or base made of metal or other materials, with crystal accents or shades that enhance its aesthetic appeal.

Crystal wall lamps are often used for decorative purposes, as they can add a touch of elegance and glamour to any room. The crystals used in these lamps are typically made of glass or crystal-like materials, such as acrylic or resin, and may be clear or colored.

The light source in a crystal wall lamp is usually a bulb or LED, which is concealed behind or within the crystal accents. When the lamp is turned on, the light shines through the crystals, creating a beautiful and sparkling effect.

Crystal wall lamps come in a variety of styles and designs, ranging from traditional and classic to modern and contemporary. Some may feature intricate crystal patterns or designs, while others may have a more minimalist and streamlined look.

These lamps can be used in various rooms of the house, such as living rooms, bedrooms, dining rooms, or even hallways. They can be used as accent lighting to highlight specific areas or objects, or as ambient lighting to create a warm and inviting atmosphere.

Overall, a crystal wall lamp is a stylish and luxurious lighting option that can enhance the beauty and ambiance of any space.

Crystal Wall Lamp,Crystal Wall Light,Luxury Wall Lamp,Luxury Wall Light

Zhongshan Seekyo Lighting CO., Ltd. , https://www.seekyomodernlamp.com

Posted on