Stone
Carving on stone, granite or marble offers incredible possibilities. Your personal message "written in stone" is a suitable gift for many occasions. Even detailed photos and graphics are possible with a oree laser. Laser engraving on stone is performed with a CO₂ laser engraver and is similar to a kind of "matting" of the material.
Would you like more information about laser marking and laser engraving metals?
Contact UsLaser engraving on stone is particularly effective with dark, polished, natural stones like granite, marble and basalt. The more homogeneous and fine-grained the stone is, the better the stone engraving results will be. White marble is also quite suitable for this application as it can produce a solid white stone engraving. It is not possible to laser cut stones.
The surface of the stone is melted during laser engraving. Here, the material is processed directly. That is why no template has to be created for this application. Furthermore, the laser beam is the universal tool for all shapes and material thicknesses. Unlike milling cutters, no separate tool head is required for different materials, shapes or material thicknesses, saving time and money in the production process.
Function of the Fiber Laser Cutting Machine
The fiber laser cutting machine can be used for both plane cutting and bevel cutting, and the edges are neat and smooth, which is suitable for high-precision cutting of metal sheets. It is an energy-saving and environmentally friendly new products with space saving and gas consumption and high photoelectric conversion rate.
Excellent beam quality and good cutting quality
Fast cutting speed and high production efficiency
No burr in the cutting, high cutting precision
Auto focus, easy to operate and maintain
Very low cost of use, cost-effective
Closed design, safe and pollution free
Fast cutting speed and high production efficiency
Function of the CO2 laser cutting machine
The CO2 laser cutting machine adopts a focusing mirror to focus the CO2 laser beam on the surface of the material to melt the material, while blowing the melted material with a compressed gas coaxial with the laser beam, and moving the laser beam and the material relative to each other along a certain trajectory to form a slit of a certain shape
The output continuous laser is to make the cutting section smoothest.
The laser cutting head does not contact with the surface of the material and no damage to the workpiece.
Can cut non-metallic materials and has a wide cutting range.
No need for molds, saving production costs.
Function of the fiber laser marking machine
Fiber laser marking machine, with the good beam quality. Its output center is 1064nm, the whole machine life is longer about 100,000 hours, compared with other types of laser markers. The electro-optical conversion efficiency is more than 28%, relative 2%-10% conversion efficiency of other types of laser marking machine. Besides that it has outstanding performance in energy saving and environmental protection.
Can process a variety of metal, non-metallic materials.
Belonging to non-contact processing, no damage to the product, no tool wear, good marking quality.
Thin laser beam is thin, small processing material consumption and the processing heat affected zone.
High processing efficiency, computer control, easy to automate
Incredible design opportunities
Productive processing
One tool for all shapes
Simple high-quality manufacturing
There are severalmethods Laser engraving on stone is particularly suitable for polished, ideally dark natural stones such as granite, marble, or basalt. The more homogeneous and fine-grained the stone, the better the results of the stone engraving will be. However, even pebbles can be processed well with the laser due to the smooth surface. Another ideal candidate: White marble – the laser engraver can produce a homogeneously white stone engraving.
There are severalmethods Laser cutting of stones is not possible.
There are severalmethods In order to achieve a stronger contrast, you can fill the engraving with synthetic resin or lacquer. Especially in the case of polished stones, the lacquer or the resin adheres particularly well to the engraved (and thus roughened) surface.
There are severalmethods As stones have an uneven surface, they are best suited for coarsely rasterized images (250–333 dpi). Very fine and detailed images may be difficult under certain circumstances, but this depends very much on the structure of the stone.