|Place of Origin:||Sichuan, China|
|Certification:||CE, FDA, ISO9001|
|Minimum Order Quantity:||1 unit|
|Packaging Details:||Wooden boxes or flight cases with wheels, which are safe and suitable for international transportation.|
|Payment Terms:||T/T, Alipay|
|Supply Ability:||100 unit per month|
|Alternative Name:||Portable 80W Fiber Laser Cleaning Machine||Laser Type:||Fiber Laser|
|Warranty:||2 Years||After-sales Service Provided:||7*24 Hours After-sales Response|
|After Warranty Service:||By Air, By Sea, By Railway Etc||Trade Terms:||FOB, CIF, DDP, DFR Or Any Other Term As You Request|
80w handheld laser cleaner,
MOPA handheld laser rust remover
1mm to 100mm
Depends on material
Drift for a long time
The maximum scan angle
Standard 3m(Customized to 8m)
-10 to +60℃
Clean head weight
7 inch (Can be customized)
How laser cleaning is achieved and some applicable fields
♦ The researchers placed the paste in a cylindrical mold and baked it for several hours. After solidified, graphite blocks were placed in an oven and pointed at a laser, then argon gas was pumped in the direction of the laser points. The oven temperature is about 1200℃. As the laser ablated the target paste, carbon nanotubes formed and were carried by air currents to the cold copper collector. Like carbon nanotubes formed using arc discharge technology, carbon nanotube fibers were deposited in a haphazard tangle pattern. Single-walled nanotubes were formed from blocks of graphite and metal catalyst particles, while multi-walled nanotubes are formed from pure graphite materials.
♦ This variation of application is achieved by ablating the coating material from the source, depositing it on the surface to be coated, and using laser ablation to form the coating. This is a special type of physical vapor deposition called pulsed laser deposition (PLD), which allows coatings to be made from materials that do not easily evaporate in any other way. The process is used to make certain types of high-temperature superconductors and laser crystals.
♦ Long-range laser spectroscopy combines laser ablation to produce plasma from a surface material. The composition of the surface can be determined by analyzing the wavelengths of light emitted by the plasma. Laser ablation is also used to create a pattern that selectively removes coating from the dichromatic filter. The product is used for stage lighting, for large scale projection, or for calibrating machine vision instruments.