Nga okozesa laser welder, waliwo enkola oba modes bbiri ez'enjawulo okukyusa amaanyi okuva ku laser okudda ku welding material. Okusinziira ku power density, eno ye power factor ya laser, era mu welding area, laser welding mode eyinza okuba conduction mode oba keyhole mode.
It should be emphasized that the type of welding pattern that occurs is determined by the amount of power delivered to the substrate and the nature of the material being welded, the main difference between the two laser welding methods is the energy transferred to the metal. You can think of conduction mode as low energy density, while keyhole mode contains higher energy density. But remember, energy density is the most influential mode.
Era olw’okuba density y’amasoboza kye kitundu eky’omusalaba ekya weld okuyita mu kuyita amasannyalaze okuyita, okukyusa omugerageranyo gwa welding oba okugabanya amaanyi g’ekitangaala kya layisi olw’ekika ekitegeezeddwa kijja kukosa welding modeconduction mode welding is basically heating the low-energy density weld on the material to be welded, and once the material uncounses indaller into the material into material intoter intoleter intoter intoleter intoter intoler intoter intoter intoter intoter intoter intoter intoter intoter intorient into the material into the material into material into material into material)
Because this welding mode is low energy density welding, the weld size on the surface is usually large, and the penetration depth of the weld is usually shallow. When you move from low energy density welding to high energy density welding, the mode changes from conduction mode to keyhole mode again mentions the definition of energy density, which can be achieved by reducing the weld size or increasing the laser beam power Most simply, small hole mode fusion welding is Welded olw’amaanyi aga waggulu ag’ebituli ebitono oba ebituli mu kintu.
