프린팅이라는 과정을 통해 다양한 소재에 다양한 색상이 적용됩니다.. 일반적으로, this involves using UV printers to directly apply the colors onto the material’s surface. Alternatively, colors can be printed onto plastic film using UV DTF machines and then transferred onto the materials. 하지만, recent technological advancements have introduced a new method known as laser color engraving. In the essay, we will provide a detailed introduction to this innovative technique.
목차
How it works?
The process involves the interaction of a laser beam with the surface of metal, resulting in the formation of a semi-transparent oxide film on the metal surface. Light penetrates the oxide film at a specific angle, with some reflecting directly at the interface between the air and the oxide layer, creating direct reflection light. Another portion of the light refracts into the semi-transparent oxide layer, then refracts again into the air, forming refracted light. These two light components interfere with each other, causing some wavelengths to reinforce while others cancel out due to the interference phenomenon, thus creating various color effects.
By precisely controlling the laser’s energy density and temperature and consequently adjusting the thickness of the oxide film on the metal surface, different color laser marking effects can be achieved.
Laser Types Used:
In the world of laser color marking, two laser types are commonly used: diode lasers and 섬유 레이저. 다이오드 레이저, known as continuous lasers, have advanced significantly in laser integration technology. With power levels now reaching up to 20W, 40승, or even 80W, they can create semi-transparent films on stainless steel surfaces. 하지만, due to the somewhat unstable nature of diode lasers, the resulting colors may vary, posing challenges for achieving precise engraving effects. Xtool is renowned for this kind of laser machines
반면에, fiber lasers operate using pulsed light. By controlling stable electrical signals, fiber lasers ensure consistent laser energy output, offering a more reliable process. Within the realm of fiber lasers, MOPA fiber lasers (마스터 발진기 전력 증폭기) machines excel. They provide precise control over pulse frequency and width, enabling adjustments to the laser’s power density and marking temperature for superior color marking effects. Commarker’s MOPA fiber laser engravers is a prime example of this technology.
ComMarker B4 JPT MOPA 파이버 레이저 마킹 머신
ComMarker B4 -MOPA JPT MOPA 섬유는 스테인레스 스틸에 생생한 컬러 마킹을 가능하게 하고 양극 산화 알루미늄에 고대비 조각을 가능하게 합니다.. 아니다
Suitable Materials
현재, laser color marking is limited to certain metal materials. The most common is stainless steel, followed by titanium steel.
Operating Procedure
Unlike engraving and color filling, where a groove is engraved into the surface of the material and then filled with color, laser color engraving directly uses a laser engraver to engrave colors into the surface of stainless steel. We use ComMarker MOPA 섬유 레이저 조각사 as a case demonstration
Step 1: Design the Engraving Pattern
The pattern can generally be downloaded from a special image library or designed using Photoshop.
메모: the image’s colors should not have gradients and should be of a single color.
Step 2: Convert the Pattern into a File Compatible with the Engraving Software
The designed pattern needs to be converted into a vector file, such as AI, before being imported into engraving software like EZCAD or 라이트번.
Step 3: Find the Engraving Parameters Corresponding to the Colors
Import a color grid template and engrave it on a same kind of material with same thickness as the one to be used for the final engraving.
메모: While conventional engraving typically uses a parameter database, color engraving parameters vary with different engraving machines. Small deviations in laser components can cause significant color changes, including the laser source, galvanometer, field lens, and their relative distances. Even the same machine can produce different results at different focal lengths, requiring users to find the correct color engraving parameters before engraving.
Step 4: Assign Corresponding Color Parameters to the Engraving Pattern
Import the designed engraving pattern and reassign parameters according to the color grid template to ensure that each part’s color matches the design as closely as possible.
Step 5: Start Engraving
You can now start the engraving process!
Advantages and Disadvantages of Laser Color Engraving
장점
●Long-lasting Colors: Compared to UV color printing, laser color engraving results in more durable colors that are not easily wiped off.
●No Consumables: Laser engraving does not require consumables, reducing daily maintenance and material costs.
Disadvantages
●High Operation Difficulty: Laser color engraving technology is more complex and requires skilled technicians to operate. Finding the correct engraving parameters can take a considerable amount of time.
●Low Color Richness: Laser engraving may sometimes lack the color richness that UV printing can achieve.
Application Fields
Laser color engraving is widely used in various industrial fields such as advertising, product color marking, 그리고 선물 맞춤화. It also offers a new business opportunity for entrepreneurs to create exquisite customized color items for customers, such as pet tags, nameplates, 보석류, 그리고 더.