Marking With Laser Bonding Technology

Laser marking is a new concept that is revolutionizing the field of marking tools and equipment. Its uses are not just restricted to flat surfaces. You can even observe alloys and stainless steel inks without jeopardizing the appearance and quality of the final mark made. However, with so many types of marking tools available today, it’s essential to know which among them can meet your specific needs.

Marking systems using laser marking technology are usually used by automotive manufacturers, distributors, and suppliers to enhance the visibility of their products and to ensure product traceability at the customer end. A laser marking spray makes it possible to create highly detailed, professional-looking finish lines on all types of substrates, including metals, polymers, plastics, and even ceramics. The spray head consists of a hand-held applicator along with an adjustable nozzle. The high contrast, high laser energy, and high repetition rate of these systems enable a wide range of high-throughput applications, including embossing, embossing, etching, stamping, hologram, and holographic applications. With the right accessories, you can achieve a highly complex and professional finish on all your products.

Marking protective coatings on metals such as stainless steel has become commonplace. However, this process is quite labor-intensive and requires lots of manual work and expertise. Moreover, the application process can be hazardous, as stainless steel is prone to corrosion. To reduce the corrosion process, industries and manufacturers have turned to high-intensity pulsed beams of laser energy (HIP), which effectively coat stainless steel. This has resulted in a dramatic reduction in the corrosion of metals, which in turn has reduced costs and added to profitability.

Other typical applications include stamping, embossing, etching, hologram, and holographic applications. In all these applications, industries require high-quality lasers that offer consistent laser markings, excellent beam control, and above all, outstanding results. To meet this need, there are a few leading providers of CRC moly lube laser marking spray.

Aerosol-spray technology: This is a high contrast coating method that uses the aerosol spray machine to apply a fine spray over the surface to be marked. An inert gas is used for this purpose. The high contrast and the low-emission properties make this system a good choice for keeping stainless steel and other metals with a high degree of wear or chromium. It also offers an economical solution for marking stainless steel, aluminum, brass, copper, and other metallic surfaces with the high-intensity lumen.

Laser bonding: The aerosol spray machines are also quite valuable for laser bonding application. Here, a thin, pre-manufactured, thermoplastically bonded polyurethane coating is applied on the substrate surface. Once this coating is cured, the laser is used to produce a uniform, high-quality mark on the substrate surface. Marking on metal pieces using laser bonding offers better results than conventional marking methods and is the most preferred option for applications where consistency is a significant factor.

Marking with laser bonding systems: Marking with aerosol spray machines is relatively easy. A plastic injection gun is used for packaging the aerosol droplets onto the substrate surface. Depending on the size of the aerosol droplets, they can be emitted from the laser source at a rate of about 0.15 inches per second. Marking on substrate surfaces using this technology is highly recommended for use on stainless steel and other high-quality metal pieces.

Another type of this technology is called the direct-illuminating (DAI) system. This uses a handpiece that is directly fitted to the laser alignment device. The handpiece is capable of projecting a high-energy beam that can illuminate the substrate material. Marking on metal with the help of this technique is ideal for precise and intricate details. Keeping with laser bonding technology has become one of the highly accepted methods today when it comes to the designing, creation, and documentation of any label or symbol on any substrate.