uv laser vs co2 laser?
Apr 18 , 2023uv laser vs co2 laser?
UV lasers work a little differently to their CO2 or Fibre based siblings as they do not damage the materials surrounding surface, using a far lower power form of marking. This makes them the best of the bunch when it comes to “marking”, suitable for anything from fruit, to glass, teflon, diamond, silicone, plastic and precious metals. You really can mark almost anything with a UV laser!
How do UV laser marking systems work?
Operating at 355nm, UV lasers have a much shorter wavelength than the other technologies here. Using a process termed “cold processing”, UV lasers shoot high-energy photons in the ultraviolet spectrum that break the chemical bonds in the material which causes the material to undergo non-thermal process damage. This process does not produce thermal deformation (heat damage) on the inner layers and nearby areas of the target area.
A UV laser’s wavelength is one-third of standard wavelength lasers, therefore often referred to as third-harmonic generation (THG) lasers. This wavelength is achieved by passing a standard wavelength laser at 1064 nm through a non-linear crystal, reducing it to 532 nm, this is then passed through another crystal, reducing its wavelength further, down to the working 355 nm.
In summary, the UV marking process is extremely fine and controlled, making it great for delicate or accurate work. However, due to the process this technology employs, a UV laser marking system is not normally suitable for engraving or cutting.
Today,we will recommend you RFH UV laser brand from China.
20watt high power uv laser source cutting ceramics
Expert III 355 series UV DPSS laser, developed and produced by RFH, covers 10w-15w in laser power with short pulse width (<20ns@40K) ,superior beam quality (M²<1.2) and perfect laser spot quality (beam circularity >90%). It is widely used in PE/PCB/FPC cutting, glass & sapphire cutting, drilling, scribing & cutting used in high precision micromaching areas.
CO2 Lasers
Fiber lasers are the go-to option for part marking, engraving and especially metal. They are very well established in many industries and are often found on manufacturing lines, workshops and more, all around the world.
With most fiber laser modules possessing more than 100,000 operating hours before any maintenance is needed, they are exceptionally reliable (however other components in a laser marking system may require regular service). Moreover, as fiber laser engraver can be easily adjusted to achieve greater depth, they are very flexible and easy-to-use.
Operating at the 1,064nm wavelength, they are very well suited to metals, but can also operate on a much wider array of materials. This is why they are the most common choice for traceability marks such as barcodes, QR codes and text. Plus, their use for other graphics on things like personalised items, switches, phones, jewellery, becomes more popular day-by-day.
How do fiber laser engravers work?
CO2 laser cutters and engravers are excellent for organic materials like rubber, wood, paper, glass and ceramic. They are also the go-to choice for cutting acrylic and other plastics.
CO2 systems are amongst the most common type of laser used for industrial engraving and cutting. Smaller, low power units are those most commonly used by hobbyists due to their low cost (but also have a far lower operating lifetime).
How do they work?
Making use of CO2 gas in a sealed tube, acting as the laser medium, they operate at the 10,600nm wavelength. Unlike other technologies here, CO2 lasers typically come in a plotter format, however they are also available in a sealed unit.
FORMATS
Plotter (Plotter Laser)
A plotter system is a motion system that usually contains several stepper or servos, rails and belts. Attached to this are a series of 3 or 4 mirrors that deliver the beam via deflection to a focus carriage that usually contains a single layer plano-convex lens.
Whilst operating, the lens moves over the work area, which is usually large and rectangular in shape, to deliver the focused laser to the work piece.
Sealed (Galvo Laser)
This is a sealed unit, typically containing 2 mirrors that are attached to galvanometers. The beam is focused through a fixed lens known as an F-Theta lens that at the 1µm wavelength. The work area is constraint by the characteristics of the lens and is usually quite small and circular in shape. Technically this is known as a beam deflection laser.
TECHNOLOGIES
DC CO2 Lasers
These are the most common type of lasers found in manufacturer systems as they are relatively inexpensive. Although effective, they are slower than RF systems. Moreover, the laser power output will gradually decline and they have a shorter working lifespan (although manufacturers may quote 10,000 hours, this is only when used at low power settings).
RF CO2 Laser Systems
RF systems may be more expensive, but the benefits often out way the cost. We opt for this technology in many of our machines so they can operate at much higher speeds, in fact, our systems are typically more than twice the speed of other manufacturers. Unlike DC, the power output of the laser will remain virtually constant over its lifespan. Moreover the quality of the beam delivery and a life expectancy can be over 20,000 hours (almost 8 years of single shift work), so it’s a “no-brainer” when looking at CO2 laser cutters.
