Design and fabrication of portable laser cutting and engraving machine
Keywords:Laser Module, Arduino, Stepper Motor, Eleksmaker.
Now a days digital control technology is became more and more useful to run the machines like portable laser cutting and engraving machines that can cut on the different surface contingent upon the power of the laser diode. In this paper the fundamental goal is to design and fabricate the laser cutting and engraving machine which is convenient to controlled by the Arduino CNC. It is accessible and perfect utilization for small and medium scale industries. This model is small, simple to work, cost of manufacturing and to effortlessly transport from one work station to other work station.
 Radovanovic M., 2000, Working Quality by Laser cutting and engraving machines, Proc. of the 7th Intern. Conf. on Tribology, Budapest, Hungary, pp. 255-258.
 Jamaleswara Kumar, Evaluation of Mechanical Properties of Natuaral fiber of reinforced composit (IJCSER), Vol. 4, Issue 5, pp 77-86.
 Vaxevanidis N.M., Petropoulos G., DaÅ¡iÄ‡ P., Mourlas A., 2006, Multi-parameter analysis of surface finish in electrodischarge machining of tool steels, Proc. on CD-ROM of 6th Intern. Conf. â€³ Research and Development in Mechanical Industry - RaDMI 2006 â€³, Budva, Montenegro, pp. 9-16.
 Joshua D. Ramos, â€œDesign and Testing of Components for a Low Cost Laser Cutterâ€, Massachusetts Institute of Technology, 1995.
 Milton Keynes, RNR Associates, â€œDiode lasers now pushing the power limitsâ€, UK, 2008.
 J Dong, C Yuan, J.A Stori, P.M Ferreira, â€œDevelopment of a high-speed 3-axis machine tool using a novel parallel kinematics X-Y tableâ€, Department of Mechanical and Industrial Engineering, University of Illinois, USA, 2012.
 Bullinger H-J (2009) Aside from the energetically loaded laser-active medium the crystal, liquid or gas â€“ it is necessary to feed back the generated photons into the medium using a Technology Guide.