Abstract
Laser beam machining (LBM) is a promising and high accuracy machining technology in advanced manufacturing process. In LBM, crucial machining qualities of the end product include heat affected zone, surface roughness, kerf width, thermal stress, taper angle etc. It is essential for industrial applications especially in laser cutting of thermoplastics to acquire output product with minimum kerf width. The kerf width is dependent on laser input parameters such as laser power, cutting speed, standoff distance, assist gas pressure etc. However it is difficult to get a functional relationship due to the high uncertainty among these parameters. Hence, total 81 sets of full factorial experiment were conducted, representing four input parameters with three different levels. The experiments were performed by a continuous wave (CW) CO 2 laser with the mode structure of TEM 01 named Zech laser machine that can provide maximum laser power up to 500 W. The polymethylmethacrylate (PMMA) sheet with thickness of 3.0 mm was used for this experiment. Laser power, cutting speed, standoff distance and assist gas pressure were used as input parameters for the output named kerf width. Standoff distance, laser power, cutting speed and assist gas pressure have the dominant effect on kerf width, respectively, although assist gas has some significant effect to remove the harmful gas. ANFIS model has been developed for online control purposes. This research is considered important and helpful for manufacturing engineers in adjusting and decision making of the process parameters in laser manufacturing industry of PMMA thermoplastics with desired minimum kerf width as well as intricate shape design purposes.
Highlights
Laser beam machining is one kind of thermal process that can provide good quality product by its outstanding advantages such as non-contact, no tool wear, high accuracy, intricate shape etc. [1], [2]
An attempt has been taken to see the influence of the laser cutting process of PMMA sheet and ANFIS model for online control by including these four input parameters
The statistical analysis of the ANFIS result for kerf width were relative error (4.23%) and goodness of fit 0.9876 (R2= 0.9754) in training, whereas relative error (3.54%) and goodness of fit 0.9853 (R2= 0.9708) were obtained in testing
Summary
Laser beam machining is one kind of thermal process that can provide good quality product by its outstanding advantages such as non-contact, no tool wear, high accuracy, intricate shape etc. [1], [2]. Caiazzo et al [4] applied CO2 Laser cutting on different polymeric plastics He evaluated the values of kerf widths on top and bottom side, melted area, melted volume per unit time and surface roughness values on cut edges. Dubey et al [6] developed models of material removal rate and kerf width, considering the input parameters as cutting speed, gas pressure, pulse width and pulse frequency. As per our review it has not found very much model of kerf width for PMMA sheet materials including laser power, cutting speed, standoff distance, assist gas pressure together. An attempt has been taken to see the influence of the laser cutting process of PMMA sheet and ANFIS model for online control by including these four input parameters
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