Laser engraving machine supplier in China: High brightness – Lasers are the brightest light source of our time, comparable only to the intense flash of a hydrogen bomb explosion. The brightness of sunlight is about 1.865 × 109 cd / m2, and the output brightness of a high-power laser can be 7 to 14 orders of magnitude higher than that of sunlight. Although the total energy of the laser is not necessarily large, because of the high concentration of energy, it is easy to produce high pressure and tens of thousands of degrees Celsius or even millions of Celsius in a tiny spot. Practical applications such as laser drilling, cutting, welding and laser marking take advantage of this characteristic. Discover more details on cosmo laser equipment.
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.
The power applied to the ink droplet charging electrodes can be used to control the position of each ink droplet. For example, when printing a QR code, only the ink droplet vertical marker line changes, allowing the object to be printed and the nozzle relative movement to combine each black and white pixel block of the image screen, resulting in the printing mark on the product coverage. As a result of the low cost of inkjet printing mark raw materials, printing mark operation is simple to standardize and unify. While laser marking is more expensive, it can mark in a variety of ways and has a wider range of applications. In conclusion, we can select a method that is appropriate for their specific product printing labelling situation.
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.
SW-1 is a high-precision spot welding machine designed for industries that require precise welding with highly consistent laser output at high frequency and pulse rate. Because the welded area is small, there is minimal deformation and a smooth welded finish. The model HW-1 can be used with a variety of metals and alloys, including titanium, stainless steel, carbon steel, copper, aluminum, etc. It is extensively utilized in the intricate and erratic welding processes of cabinets and kitchens, stairlifts, shelves, ovens, guardrails for stainless steel doors and windows, distribution boxes, stainless steel furniture, metal sheet metal, and other industries. Discover extra info on cosmolaser.net.
Cosmo has two CO2 laser machines, the CC0-6025 and the CD-35. They use a high-accuracy galvo scanner to mark non-metals with high precision. They are the preferred marking machines for materials such as wood, plastic, PVC, leather, paperboard, sponge, and so on. The CTM-20LCM is a CTM-20L upgrade that includes a position-capturing camera system. It has a positioning feature that eliminates inaccuracies caused by human error in marking. Its design saves time by allowing for automated high-precision assembly line production. It does not have a rotary marking function due to the camera.