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Have you ever noticed the beautiful artwork in the gift shop at your favorite travel destination? They are truly stunning. But have you ever wondered about the process behind creating these exquisite pieces?
Amazingly, these are made with lasers.
Laser engraving is an innovative technology that harnesses the power of lasers to produce stunning 3D images. This cutting-edge process involves the use of intersecting laser beams that, when combined, surpass the material's critical threshold, causing structural changes within its crystals and forming tiny white dots. The precise arrangement of these dots results in a striking 3D image. This technology not only showcases the remarkable precision of lasers but also represents the application of material science at the microscopic level. With laser engraving, we have the ability to create exceptional and intricate artworks and functional products.
What is the 3D crystal inner machine be like?
https://www.youtube.com/watch?v=1rFqzLSbpHY
Why laser inner engraving is more and more popular?
1. Energy Saving:
The laser power used in laser engraving technology is typically low, ranging from 2 watts to 5 watts. It only consumes 2-5 kWh of electricity for one thousand hours of work. The overall energy consumption is relatively low, even with the transmission parts. This is significantly lower compared to traditional processes, such as sandblasting engraving and screen printing, which often require more than ten thirty or forty kilowatts of electricity.
2. Environmental Protection:
Laser engraving technology directly engraves inside the glass without the use of any chemical reagents or consumables. Therefore, it does not produce harmful substances, dust, or emissions, and it does not pollute the external environment. This is in sharp contrast to traditional processes, such as sandblasting engraving and screen printing, which often produce a lot of waste and pollution.
3. Automation:
Laser engraving technology is precisely controlled by computers to achieve highly automated production. After the processing object is placed in position, the entire production process is fully controlled by computers, ensuring a high degree of automation.
4. High Precision:
Laser engraving technology is precisely controlled by computers, ensuring highly automated production. After the processing object is placed in position, the entire production process is fully controlled by computers, resulting in high precision.
5. Low Production Environment Requirements:
Due to the non-contact processing characteristics and low energy consumption of laser engraving technology, it has relatively low requirements for the production environment. This means that it can be carried out in a variety of environments without the need to set up a special production workshop, providing enterprises with greater flexibility and convenience.