By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
A laser marker is a device that uses a laser beam to create permanent marks on a variety of materials. It is used in a variety of industries, including manufacturing, healthcare, and education.
Laser markers work by emitting a beam of light that is focused on a specific point on the material to be marked. The laser beam can be used to create a variety of marks, including text, images, and barcodes.
Laser markers offer a number of advantages over traditional marketing methods, such as:
Laser markers are precise, fast, versatile, and durable. They can create very fine marks, mark large quantities of material quickly, and mark a variety of materials. They are also resistant to harsh environments.
The type of laser used in a laser marker will depend on the material being marked and the desired results. Laser markers can be either handheld or stationary. They can be used to mark a variety of materials, including metal, plastic, glass, and paper.
Laser markers are often used in manufacturing to mark parts and products. They are also used in healthcare to mark medical devices and implants. They are also used in education to mark textbooks and other materials.
Laser marking works by marking the surface of a substance with a focussed beam of light. When the beam interacts with the surface of the material, it changes its characteristics and appearance.
This focused beam exclusively targets a specific region, allowing the laser marking machine to generate accurate, high-quality, high-contrast marks on nearly any surface. This property makes laser marking appropriate for applications requiring precision and permanence.
LASER is an abbreviation that stands for Light Amplification by Stimulated Emission of Radiation. A laser beam begins as an atom that is stimulated to emit light particles. This light may be focused and directed towards a laser-marked region.
The released energy is measured in wavelengths or nanometers (NM). The longer the wavelength, the stronger the laser beam.
A UV laser marker, for example, with a wavelength of roughly 355 NM, has a lower power for marking heat-sensitive materials like plastic and glass. Because UV laser markers and other cold laser equipment generate less energy, they are ideal for many organic or soft items because they are less prone to burn the substance.
A fiber laser, on the other hand, runs at 1070 NM and delivers substantially more power to mark tougher materials like metal.
Laser marking employs no consumables and requires less maintenance than other non-permanent marking procedures such as printing or labeling. group
There are several types of laser marking systems, each of which works somewhat differently. The right way to operate the machine is also determined by the material and application.
It is critical to observe all safety rules while operating any laser marking machine. Laser marking is a generally safe technique because of a range of precautionary measures, including Class I laser marking workstations.
Manufacturers may profit from the laser marking process in a variety of ways, including simple component identification and branding as well as total traceability to monitor and identify parts from cradle to grave.
Direct component marking using a laser marking machine produces long-lasting, readable markings. The following are the outcomes of these high quality marks:
Increased operational efficiency and production while reducing waste and downtime
The Global Laser Markers Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Videojet Technologies, a global leader in coding, marking, and printing solutions, has added the Videojet 3350 and Videojet 3350 Smart Focus 30-watt CO2 laser marking systems to its successful range of CO2 lasers in response to manufacturer demands for high-performance laser marking solutions.
The lasers are intended for high-speed marking of sharp, complicated codes in the food, beverage, cosmetics, pharmaceutical, packaging, and extrusion sectors. Both platforms provide nearly limitless typeface, coding, and visual choices.
Videojet created these new digital lasers with built-in networking options to provide powerful, durable, and simple-to-use marking solutions for consumer goods and industrial manufacturing lines. Flexible marking is required by manufacturers who mark on items and packaging of variable sizes and execute frequent product changes.
To keep manufacturing lines operating smoothly, marking systems are used. The flexible marking head on the new Videojet 3350 laser features 32 conventional beam delivery choices, whilst the 3350 Smart Focus laser’s marking head allows 0° to 90° rotation without the need for extra parts.
The sophisticated 3350 Smart Focus laser has cutting-edge automated focusing and dynamic marking features for simple product changes without repositioning the laser.
Smart Focus enables multi-level marking while also providing an auto-adjustable focal distance, uniform flat field correction, a pilot beam focus finder, and a variable range/size mode.
These features contribute to fewer operator touches, higher mark quality, and increased uptime that businesses are confronted with new and ever-changing production issues, necessitating the use of high-performance lasers to satisfy their growing demands.
Users may now mark different sized goods or several levels on the same product without having to change the laser thanks to the revolutionary capabilities of the new 3350 CO2 Smart Focus laser system. In today’s production scenarios, fewer human changes result in increased uptime and higher throughput.
