Shenzhen Super Fast Laser Technology Co., Ltd.
Your Reliable Laser Cleaning Machine Equipment Partner
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Portable 100W O-Ring Mould Rubber Mould Silicone Mould Laser Cleaner Cleaning Machine
| 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 | 600 | 590 | 600 | 610 | W | |
| 4 | Fiber Cable | 5 | 5 | 5 | 10 | M | |
| General Characteristics | 1 | Working temperature range | 0 | / | 60 | ℃ | |
| 2 | Storage temperature | -10 | / | 60 | ℃ | ||
| 3 | Laser power | 100 | 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 | L647*W440*H859 | mm | ||||
| 12 | Weight | 70 | kg | ||||
Metal is perhaps the most important material in the world, used in dozens of industries and sectors. It is a core material in many manufacturing processes and finds itself featured in millions of items that we use each and every day.
From the aerospace to the automotive industry, a vast array of different types of metal are used in the completion of parts and finished goods. Therefore, using processes that can work with metals safely, efficiently, cost-effectively and in an environmentally friendly manner is extremely important. One such process is laser cleaning, and we have looked at the specific applications of this process on metal below.
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 mould, 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 vaporised, leaving the clean metal beneath. Any substrates which aren’t vaporised will be left over 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.