Laboratory faucets play a significant role. They can supply water for experimental operations, apparatus cleaning, and solution preparation. In case of emergency, they can also rinse those splashed with chemical reagents, providing safety protection. Their advantages are obvious. Most of them are made of materials like stainless steel and copper, which are corrosion-resistant and durable. They have diverse functions, including rotatable, inductive, and anti-splash designs, and can also control the water flow precisely to meet the water demands of different experiments.
Base material: High-quality brass is adopted, which has good corrosion resistance and processing performance, providing a solid and durable foundation for the faucet.
Seal: Nitrile rubber rings are selected. They have excellent sealing performance, effectively preventing liquid leakage and ensuring the tightness of the faucet.
Lubricant: Silicone resin is used as the lubricant. It has good lubricating properties and chemical stability, which can reduce friction between components and prolong the service life.
Flux: The Ag55:Sn alloy flux is used. This flux with such an alloy ratio has excellent welding performance, ensuring that the connection parts are firm and reliable.
Valve core: Ceramic valve cores are equipped. They have strong wear resistance and good sealing performance, enabling precise control of water flow and ensuring the precise operation of the faucet. 6. Surface treatment: The electrostatic spraying process of epoxy resin powder is adopted to form a uniform and dense protective coating on the surface of the faucet, effectively improving the corrosion resistance.
Surface coating color: It is high-gloss white, which is not only elegant and beautiful but also creates a clean and bright visual effect for the laboratory.
Maximum working pressure: It can reach 10 bar/147 psi, capable of withstanding relatively high water pressure and is suitable for various laboratory water supply systems.
