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[China]
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Address: Room 305, Building 5, COFCO (Fuan) Robot Intelligent Manufacturing Industrial Park, No. 90 Dayang Road, Fuhai Street, Bao'an District, Shenzhen, China, 518103
Contact name:Alex Ren
Riselaser Technology Co., Ltd |
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1000W laser welding machine price 1000W 1500W 2000W Fiber Laser Optic Welder
Laser Welding vs Conventional Welding
traditional welding
Traditional welding is mainly divided into three types: TIG
(tungsten inert gas) welding, MIG (metal inert gas) welding and
spot welding. TIG and MIG welding use a shielding gas to create an
inert atmosphere over the welding head. For TIG, the arc is made of
a tungsten electrode, while for MIG, the electrode is a filler
wire. Spot welding is done by sandwiching a part between a pair of
electrodes and allowing an electric current to pass through.
Traditional welding methods transfer a lot of heat to the workpiece, which affects the metallurgical structure around the welded area.
Laser welding
A welding process that uses a laser beam to join metals or
thermoplastics together. Welding is done by firing a series of
short pulses that melt the metal to produce a high-quality weld.
Since the laser is a concentrated heat source, the heat of the
workpiece is minimized compared to conventional welding. In
addition to this, thin materials can be welded and can be done
quickly in meters per minute.
Portable 1000W laser welding machine price parameters
| Laser System | RL-F1000 | RL-F1500 |
| Laser Type | 1080nm Fiber Laser | |
| Nominal Laser Power | 1000W | 1500W |
| Cooling System | Water Cooling | |
| Way of working | Continuous / Modulation | |
| Speed range of welder | 0~120 mm/s | |
| Focal Spot Diameter | 0.5mm | |
| Ambient temperature range | 15~35 ℃ | |
| Environmental humidity range | <70% without condensation | |
| Welding thickness | 0.5-3mm | |
| Welding gap requirements | ≤1.2mm | |
| Operating Voltage | AV220V | |
| Packing Dimensions | 100*74*76cm | |
| Packing Weight | 90kg | |
| Fiber length | Standard 10m, the longest customized length15m | |
Advantages of Laser Welding
● Higher welding strength
In order for the weld to have high strength, a balance must be
achieved and maintained between penetration and root pass width.
The ratio of depth to width should not exceed 1 to 1.2. This
ensures that shrinkage stresses are evenly distributed in all
directions as the weld metal solidifies. The laser weld seam is not
only narrow, but also meets the above-mentioned proportions well.
● Reduce the risk of thermometallurgical changes
In laser welding, the heated area is much smaller compared to
conventional welding. Thermal stress can severely damage the
workpiece by producing deformation and deflection. In laser
welding, the total heating area does not spread to the rest of the
workpiece, and it features rapid cooling to minimize thermal stress
damage.
● Higher precision welding
The laser beam in laser welding can be tightly controlled to
achieve microwelding, even on small workpieces. With an accuracy of
0.025mm compared to other welding processes, it will be hard to
beat.
● less waste accumulation
Laser welding is an automated process where welding is controlled
by computer input so you don't need to rely on the skills of a
worker. This sums up very few welding errors compared to
traditional welding where human error is widely observed.
● Cost-effective
Having shorter processing times results in higher productivity.
Although the initial tool investment is costly, laser welding has
proven to be cost-effective in the long run, making it a lucrative
business venture.
Machine video
