Laser Cutting: Principles and Characteristics
Understanding Laser Cutting: Principles and Characteristics
Principle: Laser cutting harnesses a focused high-power density laser beam to irradiate the workpiece, prompting rapid material melting, vaporization, ablation, or reaching the ignition point. Simultaneously, a high-speed airflow, coaxial with the beam, blows away the molten material, facilitating precise cutting. Carbon dioxide pulse lasers and fiber laser cutting machines are commonly employed for this purpose, constituting a thermal cutting method.
Features:
- Material Thickness: Laser cutting is typically suited for carbon steel plates under 20mm thick and stainless steel plates under 30mm thick.
- Deformation: Laser cutting results in minimal deformation, although cutting speed decreases notably with increasing workpiece thickness.
- Cutting Precision: Laser cutting yields narrow incisions with parallel and perpendicular slit edges, achieving dimensional accuracy up to ±0.2mm. In comparison to plasma cutting, laser cutting offers greater precision with smaller slits, approximately 0.5mm wide.
- Texture Alteration: As a thermal cutting method, laser cutting alters the texture around the cutting area.
- Production Efficiency: Laser cutting boasts fast speeds, enabling mass production.
By understanding these principles and characteristics, one can appreciate the precision, efficiency, and versatility of laser cutting in various manufacturing applications.
泰達江華金属 -17 年
詳細な仕様書を持ってくる 私に連絡して 必要であれば
高品質かつリーズナブルな価格をご用意しております
📧 [email protected]
ワッツアップ: (+86) 138 2059 7807
私たちのウェブサイトへようこそ! https://www.tedametal.com/ & https://www.teda-metal.com/ & https://www.teda-aluminum.com/
