High-efficiency processing of copper materials with pulse-driving mode using high-brightness blue laser oscillator

Development of high brightness blue lasers that can process copper materials has been increasingly expected to implement a highly efficient processing and downsizing that help to achieve Green Transformation (GX). In order to meet this expectation, the high brightness blue laser oscillator has been developed. Based on the direct diode laser (DDL) method which uses a semiconductor blue laser as a direct light source and our unique wavelength beam combining (WBC) technology, it has achieved 2.1 (kW) of an output power, 3.2 (mm mrad) of Beam Parameter Product (BPP) indicating the beam quality. This laser oscillator can establish a penetration welding of the copper materials with over 2 (mm) in thickness. Development of the pulse power circuit has helped to produce a high current pulse power supply which provides 10 (kHz) of the frequency, 4.8 (mu sec) of the rise time, and 0.8 (mu sec) of the fall time. Furthermore, the copper plate welding experiment conducted with the pulse power has demonstrated a 3.5-fold higher precision processing compared to the continuous wave driving processing in terms of the aspect ratio which shows the relationship between the welding width and depth.