Best rated laser engraving machine provider: Why are lasers dangerous? The wavelengths of laser light can be focused on a single point, and if enough energy is added, they can burn almost any material. The intensity of the light can also damage your eyes if you look directly into it, so using protective glasses is often a must when handling high-powered lasers. One last safety consideration is the sound made when a laser beam hits an object. Powerful laser beams often emit a high pitched sounds when coming in contact it particularly hard materials such as chrome. Take precautious to wear protective ear coverings when using a laser in this way. Read extra information on laser marking machine manufacturer.

Many industrial marking applications use inkjet markers or laser marking systems. Let’s try to understand how both systems work in order to select the best option for your application. Then we’ll list their benefits and drawbacks, and you’ll be better equipped to choose the best solution for your application. Although both laser marking machines and inkjet printers are used to do marking on products, people are often perplexed as to which to use. In fact, the purpose of laser marking and inkjet coding is the same, both for the marking products, but their respective operating principles are very different.

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.

It uses a fully enclosed air-cool laser system with a marking depth of up to 1.0 mm. Able to do fine marking/deep engraving even simple cutting with fast speed, simple operation, and long laser lifespan. Able to do rotary 360-degree continuous marking on bangles, rings and other circular objects. Its built-in computer system and compact design make it become the most suitable in retail shops to offer instant customization for customers.

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. Read even more info at 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. CPC-500(Excel) is the predecessor of the CPC-500G3(Excel), and the computer system is self-contained. The CPC-500 is able to produce intricate designs in a fast, precise way that traditional methods unable to achieve. It is commonly used in gold and silver jewellery, glasses and watches, hardware products, tool accessories, etc.