Experimental investigation of PWM laser standoff distance control for power diode based LBM

Laser Beam Cutting (LBC) is a non-traditional excellent material processing technique preferred for robust, versatile and durable materials like leather, as it offers various benefits such as excellent accuracy and minimal tool wear due to the lack of contact between the specimen and the nozzle. In this investigation, power diode laser was preferred for leather cutting because of its longevity, monochromaticity and tunability. Pulse Width Mod-ulation (PWM) is an input parameter that is tuned to control the output optical power of the diode laser in this study. There is no viable method available in the field of direct adaptive control for PWM in the application of diode laser leather cutting. Hence an attempt has been proposed in this present study to control and investigate the machinability of leather by implementing the diode based LBC technology and standoff distance (SOD) control using VL6180X time of flight sensor, with indirect adaptive PWM control approach. The cutting trials were conducted on chrome tanned goat leather of thickness 0.8 mm and also this investigation reports the carbonization values and kerf width during leather cutting. It was identified that the closed loop PWM control could reduce the carbonization from 34.645 % to 30.424 % with SOD control of 20 mm. It was observed that PWM based control can enhance the machining process in an effective way.

Automated summary

Laser Beam Cutting (LBC) is an excellent non-traditional material processing technique used for leather cutting. This study focuses on using a power diode laser for leather cutting and controlling the output optical power through Pulse Width Modulation (PWM). The investigation also evaluates carbonization values and kerf width during the cutting process.