Industry News

Cold spray coating, also known as gas dynamic cold spraying (CS), is a revolutionary coating deposition method that offers a distinct advantage over traditional thermal spray techniques. This innovative technology relies purely on kinetic energy, rather than a combination of thermal and kinetic components, to deposit coatings on various substrates.

Whether you’re in aerospace, automotive, construction, or electronics, the Electric Arc Spray System is a reliable solution for advanced surface engineering.

Plasma spraying is a versatile and advanced thermal spray technique widely used in various industry sectors for applying ceramic, cermet, and metal coatings onto various substrates. This process leverages the energy of a plasma arc to melt and propel coating materials at high speeds onto the surface of the workpiece, creating a strong, durable, and functional coating. Here's an in-depth look at the applications and benefits of plasma spraying.

Cold spray, or Cold Gas Dynamic Spray (CGDS), is an advanced surface coating technology that has gained significant attention due to its unique characteristics and diverse applications. This technology involves propelling solid particles at high speeds using compressed gas to form dense coatings upon impact with a substrate. While cold spray offers numerous advantages, it also has its share of disadvantages. This article delves into the pros and cons of cold spray technology.

Cold spray, also known as Cold Gas Dynamic Spray (CGDS), is an advanced surface coating technology based on aerodynamics. It employs high-pressure gas to propel solid particles to extremely high speeds, causing them to撞击a substrate upon impact and deposit to form a coating. This technology is not only efficient but also environmentally friendly, making it suitable for a wide range of applications. Here’s a detailed look into how cold spray works.

Thermal spraying technology is a sophisticated surface engineering process that involves heating a coating material to a molten or semi-molten state using various heat sources, such as electrical (plasma or arc) or chemical methods (combustion flame), and then depositing it onto a pretreated substrate surface at a certain velocity to form a coating. This technology essentially creates a special working surface on an ordinary material, imparting it with various functionalities such as corrosion resistance, wear resistance, high-temperature resistance, oxidation resistance, thermal insulation, electrical insulation, electrical conductivity, microwave radiation protection, and more.