Laser engraving machine provider today: What’s laser engraving and how does it work? Laser engraving is a process that vaporizes materials into fumes to engrave permanent, deep marks. The laser beam acts as a chisel, incising marks by removing layers from the surface of the material. The laser hits localized areas with massive levels of energy to generate the high heat required for vaporization. In this article, you’ll find in-depth information on how laser engraving works and how to find a laser engraving machine. See additional information on laser marking machine manufacturer.
Laser marking machines use laser beams to reveal the deep of material or cause physical changes in the object, then operational traces appear so that the material emerges with the desired graphics, images, text, and other permanent marks. Laser marking processing is divided into two types: thermal processing and cold processing. In thermal processing, a high-energy-density laser beam is irradiated on the surface of the material being processed. The absorbed laser energy causes a thermal excitation process in the irradiated area, causing the temperature of the material surface (or coating) to rise, resulting in metamorphism, melting, ablation, evaporation, and other phenomena.
Directivity is good – ordinary light source (the sun, incandescent or fluorescent lamp) to emit light in all directions, but the direction of the laser light can be limited to less than a few milliradians solid angle, which makes the illumination in the irradiation direction of 10 million times. The laser diffuses every 200 kilometres diameter less than 1 meter, if shoots to the moon which is 3.8 × 105km from the Earth, the beam diffuses less than 2 kilometres, but the ordinary searchlight diffuses several kilometres to dozens of meters. Laser collimation, guidance and ranging make use of good directivity.
The position capture fiber laser marking machine(CTM-20CM) is based on CTM-20, with a position capturing camera system. It has a positioning function that eliminates inaccurate marking due to human error. Its advantages are reflected in being able to do batch marking of multiple work pieces accurately irregardless of position within the marking area. Different work pieces can be set to mark different patterns. It can automatically retrieve the previous marking position and accurately repeat the marking. Its design is time-saving so that achieve high-precision assembly line automated production.
CPM-R8 has the same functions as the CPM-R except it has a built-in touchscreen WINDOWS OS computer. It is a plug-and-play all-in-one machine. It can be used with either a wired or wireless mouse and keyboard. It can mark the inside and outside of rings and bangles as well as flat surfaces. It produces a shiny mark with no material loss and no need for additional polishing. CDC-A3 is applicable for flat cutting of metal materials with a simple programming design, low maintenance cost, high precision. It is able to cut on materials with a minimum thickness of 0.1mm. The cutter is made of industrial-grade diamond. You can create unlimited designs by changing the position of cutters. Its fully enclosed design, keep all material lost to the minimum. Discover extra information on https://www.cosmolaser.net/.
CUV is applied to both metal and nonmetal materials. It is widely used in the jade, wood, acrylic, crystal, semi-precious stone, glass, plastic, gift, jewelry, hardware, and etc. The “cold” laser process results in very fine marking. Also capable of subsurface marking on transparent materials such as crystals. Provide fine marking on non-metal that other types of lasers cannot. CTM-20m/CTM-50m is able to do fine marking/deep engraving even thin metal cutting with fast speed on all metals. It uses a fully enclosed air-cool laser system. It is also able to do rotary 360-degree continuous marking on bangles, rings and other circular objects.