Laser Cutting of High Density Poly Ethylene (Hdpe) Pipes Pe100 using Co2 Gas Laser
Saleh Jassim Saleh1, Al-Qaisy2, Cihan Karatas3

1Saleh Jassim Saleh*, Department, Name of the Affiliated College or University Industry.
2Al-Qaisy, Department, Name of the Affiliated College or University Industry.
3Cihan Karatas, Department, Name of the Affiliated College or University Industry.
Manuscript received on September 13, 2019. | Revised Manuscript received on October 05, 2019. | Manuscript published on October 30, 2019. | PP: 6193-6199 | Volume-9 Issue-1, October 2019 | Retrieval Number: A1783109119/2019©BEIESP | DOI: 10.35940/ijeat.A1783.109119
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Abstract: High Density Poly Ethylene (HDPE) is one of the best materials for use in different environmental conditions. This is due to the mechanical, chemical and electrical specifications of this type, in terms of thermal insulation, lightweight, low cost, and most importantly the time factor. The molecular structure of the High Density Poly Ethylene material has made it the ideal choice for use in the pipe industry, and the transportation of various liquids, compared with the metal pipes and especially in the transportation of water, oil, and gas. And because of the frequent use, especially in the workplace. The need to use the cutting for these pipes has become necessary for the purpose of establishing networks for the transfer of fluids. In this research, the construction of holes in the pipes and measurements and angles of different for the purpose of taking advantage of these openings in the construction of networks. The laser was used as one of the modern cutting methods for the purpose of studying the efficiency and performance of CO2 laser cutting on High Density Poly Ethylene, especially on pipes, PN 16 PE 100, 110 mm diameter, and tested under a CO2 laser machine, by using a three different kinds of gases, such as the air and the nitrogen N2 , to estimate the changing and evaluate the quality of cutting with striation and kerf width of the High Density Poly Ethylene.
Keywords: High density polyethylene HDPE, CO2 laser cutting, Assistant gases, Striation and kerf width.