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Laser welding melts thin or thick metal contacts by using the heat from a concentrated, high-power laser beam. Since the laser beam has a high energy density and an outstanding penetration characteristic, it is typically utilised to produce deep, thin joints with a depth to width ratio ranging from 4 and 10.
The welding method known as “laser beam welding” (LBW) uses a laser to attach pieces of metal or thermoplastic. A concentrated heat source from the beam enables thin, deep welds and rapid welding.
Due to the availability of a new generation of high brightness multi-kilowatt solid state lasers, high-power laser beam welding became a new stimulus.
In order to provide trustworthy and practice-oriented welding procedures that can currently meet the needs of contemporary industrial applications, new techniques have been created in welding research.
The Global high power laser welding machine market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
A new portable laser welding system called LightWELD has been introduced by IPG Photonics Corporation, a market leader in high-power fibre lasers and amplifiers.
Fabricators can take advantage of the increased adaptability, accuracy, and usability provided by laser-based solutions over conventional welding products with the LightWELD product range.
Due to its incredibly compact size, light weight, and special air-cooling, LightWELD marks a paradigm leap from all other handheld laser welders currently on the market. It was created and constructed using patented and patent pending IPG fibre laser technologies.
This ground-breaking portability is made possible by IPG’s ongoing developments, which have lowered form factors and raised laser output levels year after year. LightWELD allows for significantly faster welding than typical MIG and TIG welders, and is simpler to use .
