Laserschneiden (Neuter)

Beispielsätze:

Laserschneiden gehört zu den thermischen Trennverfahren (Abtrageverfahren) für plattenförmige oder dreidimensionale Werkstoffe (Bleche, Rohre).

laser cutting (Neuter)

Description: Laser Cutting is a thermal separation process used on Plate or three-dimensional materials (sheet material, tubes). This process is primarily used in applications that demand fast processing coupled with high precision. It can also be used cost-effectively in low-volume production. The laser beam can be used to produce complex profiles even in areas that are hard to reach. Light is generated in an optical resonator (laser = light amplification by stimulated emission of radiation). Absorption converts the light into heat. Reflectors or lenses are used to focus the laser beam and aim it at the material. In doing so, the laser performs a feed motion to produce the kerf in the material. Laser cutting can be used for Laser beam fusion cutting Laser beam sublimation cutting Laser beam flame cutting Laser beam separation

Example sentences:

Laser cutting is a thermal separation process used on plate or three-dimensional materials (sheet material, tubes).

laser-beam cutting (Neuter)

Description: Laser-beam Cutting (also called Laser cutting) is a thermal separation process that is used for Metals and wood During cutting, the Material absorbs the energy from the laser beam at the cutting front (front of the kerf). Process or expanded gas supplied through the cutting nozzle carries away the material removed from the kerf. Depending on the temperature or process gas, the material removed is oxidised (laser-beam flame cutting), liquefied (laser-beam fusion cutting) or vaporised (laser-beam sublimation cutting). Laser cutting machines essentially comprise the following: Laser source Laser guide (often a deflecting mirror with a gold or molybdenum Coating) Focusing lens (concentrates the laser beam to achieve sufficient radiation intensity) Cutting nozzle with cutting gas supply Laser-beam cutting enables complex cutting - even in 3D - for fast, contactless and precise machining. It is a cost-efficient process, even with small quantities. Because the laser Power and wavelength influence cutting power, the laser source has to be selected as appropriate to the material.

corte de haz láser (Neuter)

corte láser (Neuter)

Description: El corte láser es un proceso de separación térmica que se usa en placas o materiales tridimensionales (láminas, tubos). Este proceso se usa principalmente en aplicaciones que requieren un procesamiento rápido y además una alta precisión. También se puede usar de manera rentable en la producción de bajo volumen. El haz de láser puede usarse para producir perfiles complejos incluso en las áreas que son difíciles de alcanzar. Se genera luz en un resonador óptico (láser = amplificación de luz por emisión simulada de radiación). La absorción convierte la luz en calor. Se usan reflectores o lentes para enfocar el haz de láser y apuntarlo hacia el material. Al hacerlo, el láser lleva a cabo un movimiento de alimentación para producir el corte en el material. El corte láser se puede usar para: Corte por fusión de haz láser Corte por sublimación de haz láser Corte por flama de haz láser Separación por haz láser Procedimiento de corte láser

激光束切割 (Neuter)

Description: 激光束切割（也称为激光切割）是一种热工艺。在过程中，材料在切割前端（切口的前部）吸收来自激光束的能量。通过切割喷嘴供给的膨胀气体带走切口处移除的材料。根据温度或工艺气体，移除的材料被氧化(激光束燃烧切割)、被液化(激光束熔化切割)或被蒸发(激光束升华切割)。激光切割机主要包括以下结构：激光源激光投射（通常是金或钼敷层的反射镜）聚焦透镜（积聚激光束以实现足够强的辐射）带切割供气的割炬嘴激光束切割可以进行复杂切割 - 即使是在3D范围 - 快速、非接触式和精密加工。即使少量工件加工时，它也是一种经济有效的方法。由于激光功率和波长会影响切割功率，选择适合材料的激光源。近义词激光切割激光束熔化切割激光束燃烧切割激光束升华切割