Improper heating will result in the substrate metal melting during the cleaning process, which is not acceptable especially in the module cleaning industry. With top quality laser beam adopted, the machine is able to ablates rust and dust from tough spots and achieves high cleaning precision in variousoccasions including metal surface dust removal, oil removal, stone cleaning, etc. Mactron Laser surface cleaning machine uses high-energy pulse laser beam to work on the work piece surface. The high energy will help to remove the surface rust layer and coating oil. Adopting optical fiber laser, full enclosed stable light path, lifelong free maintenance, air cooling, the hand held laser cleaner machine is compact and environmentally friendly. Besides, the hand held laser cleaner machine can be used not only for mental pollutants, but also non-metallic work piece.
The damage brought by MOPA fiber laser cleaning is very small, and the roughness value is close or even lower than the original surface . While cleaned by CW lasers, the roughness value will be 1.5X more than the original surface. For pulsed fiber lasers, a laser with lower frequency is more likely to hurt the substrate during the cleaning process, and a laser with a narrow pulse width could clean the paint more easily. It’s essential to balance the heat between cleaning the paint and melting the substrate . A pulsed fiber laser with a master oscillator power amplifier structure offers the advantage of precise heat control, which is a critical point during the cleaning process.
Conserving energy, the electron transitions to a lower energy level which is not occupied, with transitions to different levels having different time constants. Spontaneous emission is a quantum-mechanical effect and a direct physical manifestation of the Heisenberg uncertainty principle. The emitted photon has random direction, but its wavelength matches the absorption wavelength of the transition. An electron in an atom can absorb energy from light or heat only if there is a transition between energy levels that matches the energy carried by the photon or phonon.
In the case of extremely short pulses, that implies lasing over a considerable bandwidth, quite contrary to the very narrow bandwidths typical of CW lasers. The lasing medium in some dye lasers and vibronic solid-state lasers produces optical gain over a wide bandwidth, making a laser possible which can thus generate pulses of light as short as a few femtoseconds (10−15 s). Other applications rely on the peak pulse power , especially in order to obtain nonlinear optical effects.
This handheld laser cleaning machine comes with a power rating of 50W, 100W or 200W. The 50W auto laser cleaning variant is fully capable of removing tough rust stains from most surfaces. It requires a single-phase 220V±10%, 50/60 Hz AC power supply, which is readily available from most power outlets in homes and industries. Its power consumption clocks at 800W, which is fairer than most other laser cleaning machines that the market has to offer. Ideally, the DIHORSE 50W hand-held laser cleaning machine will be friendly to your pocket as far as energy bills go. The DIHORSE 50W hand-held laser cleaning machine, otherwise known as the Raycus 50W, is an industrial leading rust ablator for both domestic and industrial use.
Every store and seller is rated for customer service, price and quality by real customers. Plus you can find out the store or individual seller ratings, as well as compare prices, shipping and discount offers on the same product by reading comments and reviews left by users. Every purchase is star-rated and often has comments left by previous customers describing their transaction experience so you can buy with confidence every time. In short, you don’t have to take our word for it – just listen to our millions of happy customers.
In most lasers this medium consists of a population of atoms which have been excited into such a state by means of an outside light source, or an electrical field which supplies energy for atoms to absorb and be transformed into their excited states. Most practical lasers contain additional elements that affect properties of the emitted light, such as the polarization, wavelength, and shape of the beam. The most common type of laser uses feedback from an optical cavity—a pair of mirrors on either end of the gain medium. Light bounces back and forth between the mirrors, passing through the gain medium and being amplified each time.
It can remove a wider range of materials, including metals and the temperature of the part remains lower, with less chance of cracking or distortion. Laser cleaning is more energy efficient, and parts are immediately available. With no chemicals to degrade, quality is consistent, and there are no chemical solvent disposal issues.