1. GXLASER welding machine can apply energy in a non-Gaussian distribution. In all arc-based welding processes, the energy distribution in the weld pool is Gaussian, that is, the energy density is higher in the center and lower at the edges.
2. Technically, GXLASER welding machine is similar to TIG welding machine, except that there is no shielding gas. GXLASER welding machine uses intense pulses of light to melt the metal and then heats the part to melt, while TIG welding machine uses the heat generated by the arc to melt the part. MIG welding machine and TIG welding machine are similar in that they both use electricity to melt the material, whereas MIG welding machine uses filler material (usually a welding wire of the same type of material fed through an electrode)
.
3. A new development in GXLASER welding machine called "metal deposition laser welding" is similar to MIG in that they introduce filler material by concentrating a cloud of metal powder into the focal point of the laser. This will help solve one of the biggest obstacles to GXLASER welding machine: part assembly. Since the laser can only generate enough heat to melt the metal in a small focal spot, the weld will not perform well when the fit of the part changes. Any gaps between 2 members will result in inconsistent welds. Therefore, the most common form of welding (at least in a production environment) is MIG, as MIG welding machine is by far the most consistent and the easiest to weld where parts are inconsistent due to filler material. When doing TIG welding machine, filler electrodes can be used, but this requires increased skill in the welder.
4. GXLASER welding machine can produce higher energy density than MIG or TIG, allowing laser drilling or "keyhole" welding.
5. The finish without welds is protected by inert gas. In laser welds made of stainless steel or aluminum, post-weld treatment (grinding or trimming) is usually not required after welding. The welds are bright and oxide-free, and no further cleaning is usually required. Can be coated or painted.
6. To be used in difficult areas of the material, since the laser beam is a "line of sight" process, the laser can pass through gaps in the structure to weld areas from the back where it is not possible to introduce TIG electrodes. Using a camera to view the laser optics makes it easy to aim the beam at precise features and weld in hard-to-reach parts of structures.
7. One downside about notch GXLASER welding machine is that it tends to rely on good contact and a minimal gap between the parts to be joined. For laser processes or TIG welds, you need to ensure that gaps are minimized or avoided to ensure good results. This adds some process complexity by increasing the wire feed, potentially filling gaps or increasing area for increased strength.
If you have any questions that you don't understand, you can contact me at any time.Waitting for you inquiry!
www.gxlaser.com
Email : [email protected]
Tel/whatsapp/wechat:+86 15508636950