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Performance Evaluation of Input Power of Diode Laser on Machined Leather Specimen in Laser Beam Cutting Process.

Tamer M KhalafMuthuramalingam ThangarajKhaja MoiduddinVasanth SwaminathanSyed Hammad MianFaraz AhmedMohamed Kamaleldin Aboudaif
Published in: Materials (Basel, Switzerland) (2023)
Numerous industries, including footwear, handicrafts, and the automobile industry, utilize leather materials. The main goal of this study was to investigate the effect of input power of the diode laser in laser cutting on vegetable chrome tanned buffalo leather to enhance the cutting process. In the present investigation, carbonization, kerf width, and material removal rate (MRR) were taken as performance measures. The diode-based laser beam machining was designed and fabricated with 2.5 W, 5.5 W, and 20 W diode laser to cut vegetable chrome tanned leather. The high-intensity 20 W diode laser produced lower carbonization, lower kerf width, and higher material removal rate compared with the 2.5 W and 5.5 W diodes. This improved performance was due to the adjustable features associated with this diode laser actuation in the form of circular shape with adjustable diameter. A high power with a lower spot size under pulsed mode can produce higher power density. Since a higher power density can establish less interaction time, it produces lower carbonization. Due to the ability of the 20 W diode laser driver to control the beam shape and size, it could produce a lower kerf width and higher MRR. The optimal parameters for cutting chrome vegetable tanned cow leather were a standoff distance of 18 mm, feed rate of 200 mm/min, and duty cycle of 70%.
Keyphrases
  • high speed
  • high intensity
  • high resolution
  • heavy metals
  • optical coherence tomography