Shenzhen Super Fast Laser Technology Co., Ltd. |
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50W Laser Cleaning Machine For Paint Removal Easy Operation And Transportation Laser Rust Remover Tool
Item | L/N | Characteristics | Test Conditions | Min. | Typical | Max. | Unit |
Electrical Characteristics | 1 | Power Voltage | 220 | 210 | 220 | 230 | AC |
2 | Maximum current loss | Pout=Pnom | 4 | 5 | 6 | A | |
3 | Total Power | 400 | 390 | 400 | 410 | W | |
4 | Fiber Cable | 5 | 5 | 5 | 8 | M | |
General Characteristics | 1 | Working temperature range | 0 | / | 60 | ℃ | |
2 | Storage temperature | -10 | / | 60 | ℃ | ||
3 | Laser power | 50 | W | ||||
4 | Peak power | >10KW | KW | ||||
5 | Cooling method | Air Cooling | |||||
6 | Laser level | 4 Class | |||||
7 | Pulse energy | 1.5mJ | mJ | ||||
8 | Laser wavelength | 1064 | nm | ||||
9 | Preheat time | Reach to start operation | 0 | s | |||
Achieve complete stability | 10 | ||||||
10 | Humidity | 10 | / | 95 | % | ||
11 | Laser machine size | L462*W260*H562 (855mm with pull rod) | mm | ||||
12 | Weight | 30 | kg |
How does the laser cleaning process work?
The laser cleaning process works by having a laser beam, (which
using one of our products would be a fiber laser), pulsed at the
surface layer of the metal. This metal may have contaminants on it
such as mold, paint or rust, and the idea is to clear the surface
through this process. This may be out of necessity for the next
steps in the manufacturing process, or simply to make the metal
more aesthetically pleasing. The fiber laser beam, which can have
both its power, duration, and wavelength controlled, is absorbed by
the surface contaminants until they are vaporized, leaving the
clean metal beneath. Any substrates which aren’t vaporized will be
leftover as particle dust, which can be easily removed by the user.
There will be no thermal, mechanical or chemical strain or damage
to your metal, leaving you with a high-quality finish.
Benefits of using fiber lasers to clean the metals: A fiber
laser will offer you a great deal of control, and so the ablation
depth that you wish to reach can be achieved with a high degree of
accuracy. Given this high degree of accuracy, fiber lasers are the
perfect process for working with micro applications, which has
become more and more of a necessity in the modern climate of parts
and pieces getting ever smaller.
It is also non-contact, and therefore non-abrasive, process, and so
no unnecessary or unwanted damage will be caused to your metal.
This is something that more traditional cleaning methods, such as
media blasting, have struggled with. The fiber lasers are highly
efficient, enjoying much longer operational lives than other
cleaning methods, and even other laser methods. And, with no
maintenance times thanks to our ‘Fit & Forget’ technology, you
are left with an efficient and cost-effective metal cleaning
solution.
If you would like to see the laser cleaning of metal using a fiber laser in action, then please refer to the two videos below, taken from our YouTube channel: These will both give you a great visual demonstration of just how effective the laser cleaning process can be, especially when it is completed using a fiber laser. The laser cleaning machine is being used in everything from the aerospace to the food manufacturing industry. It’s used for applications such as: