CALCA 50W Split Fiber Laser Marking Machine for Laser Engraving Tumbler, JPT Laser + Rotation Axis
Can clamp the part and support the circle surface marking, cylindrical objects with diameter of 2-10cm. such as the popular stainless steel travel cup marking.Goggles
It can protect the eye from 1064nm laser waves, making the operation safer.
Fiber Laser Marking Machine mainly consists of four parts: fiber laser, galvanometer scanning system, computer control system and the worktable.
||Long service life, high reliability, fine beam quality
||Fine marking, more quick and high reliability
||High quality optical device
||Powerful, simple and convenient operation, Auto-cad, CorelDraw, AI8.0, Photoshop software compatible form
||Optical fiber special cabinet, all the mold production, high seal
1. Adopts the high quality, high energy, high stability fiber laser source, prime precision optical galvanometer assembly and the industry’s top software.
2. Life of the laser can be up to 100000 hours.
3. Compact, lightweight, simple interface, flexible and adjustable processing direction.
4. High precision scale
5. Runs without consumable spare parts, no need maintenance, great for continuous working.
6. Computer System Requirements: Win7, Win8, Win10
7. Easy operation software, compatible with PHOTOSHOP, CORELDRAW, AUTOCAD
8.Rotary axis is included, you can mark on regular cylinder or inside / outside ring.
Jewellery, Keyboards of cell phone, Auto parts, Electronic components, Electronic appliance, Communication apparatus, sanitary wares, buckles, kitchenware, Sanitary equipment’s, Hardware tools, Knife, Glasses, Clock, Cooker, Stainless steel products etc.
|Fiber Laser Machine Applied Materials
||Black / White ABS
|Yellow Chromate Aluminum
|Nickel Plated Brass / Gold / Kovar / Steel
|Nickel Plated 1215 Mild Steel
||Glass Filled PTFE Coated Fiberglass
|Hard Coat Anodized Aluminum
|Machine Tool Steel
||Glass Filled PEEK
|Metal Plated Ceramics
|Carbon Fiber / Carbon Nano tube
||GE Plastics Polycarbonate Resin 121-R
|Clear coat anodized aluminum
|Cobalt Chrome Steel
|Compacted Powder Iron / Iron Phosphate Coating
Aluminum is one of the most commonly marked substrates, and we use it in many industries. Typically, with lighter marking intensity, aluminum will turn white. anodized aluminum looks good , but white marking is not ideal for bare and cast aluminum. More intense laser settings provide a dark grey or charcoal color. Each DLM fiber laser engraving machine is capable for aluminum marking. The ideal system for your application depends on your laser marking requirements. Ablation is the most common marking technique for anodized aluminum, but some people call for etching or engraving.
2. Brass and copper
Brass and copper have high thermal conductivity and thermal transfer properties. So we use it for wiring, printed circuit boards and pressurized flow meters. Their thermal properties are ideal for laser marking systems for metal because the heat is quickly dissipated. This reduces the impact the laser can have on the structural integrity of the material. Every DLM fiber laser engraving machine is capable of marking on brass and copper and the ideal system for your application depends on your marking requirements. The best marking technique depends on the finish of the brass or copper. Smooth surfaces can offer a soft polished marking affect, but also can do annealed, etched, or engraved. Etching or engraving is best in order to provide readability by humans and machines. In some cases a dark anneal can work, but surface irregularities can cause reduced readability.
3. Tungsten and Carbide
Tungsten and Carbide are two of the hardest metals on earth and are widely used in tooling and cutting applications. Another popular segment for these substrates is wedding bands for men. Tungsten and carbide are receptive laser marking metals and laser engraving metals. Each and every DLM Laser series is capable of marking on tungsten and carbide and the ideal system for your application depends on your marking requirements. For carbide, because of the darker color it naturally has, getting a contrasting mark is rather easy with even light laser intensity. A white color is most common when polishing or annealing carbide and the contrast is extremely good.
Chrome plating provides a stylish and sophisticated finish, and usually requires minimal laser intensity to remove or get through the plating. we need take ensure the marking happens on the surface only, with no impact to the chrome plating.