Variety of Current Power Welding Using Electrode 6013 on Tensile Force of Lower Carbon Metal

  • Authors

    • Ahmad Bakhori
    • Muksin R. Harahap
    • Suhardi Napid
    • Muhammad Rafiq Yanhar
    • Abdurrozzaq Hasibuan
    2018-04-15
    https://doi.org/10.14419/ijet.v7i2.13.16921
  • welding, electrode, lower carbon steel, tensile force

  • The objective of this study is to determine the outstanding tensile value on welding of little carbonate steel electrode 6013/ Ó¨ 2.5 x 350 mm in tensile test. Specimen in tested is a lower carbon steel found in market or sometimes available on welding workshops of plate form. This plate is made refer to Standard Tensile Test specimen ASTM E-8M in thick 5 mm and made plot V 450 in twelve pieces. In welding specimen, inflow current varieties with 60, 80, 100, 120 Ampere and constant power of 20 volt and welding position tilted ranges 600 – 700.  In the test found data the lowest tensile strength is 160.62 Mpa of welding current power 60 Ampere and the greatest tensile force 438.80 Mpa with welding power 120 Ampere whereas welding most adaptable is on 80 Ampere 325.96 Mpa. The power force of welding determined to tensile force due electrode fluid completed and influenced to that lower carbon steel mechanical property.

     

     

  • References

    1. [1] R. Rahim, S. Napid, A. Hasibuan, S. R. Sibuea, and Y. Yusmartato, “Effect of the Machined Surfaces of AISI 4337 Steel to Cutting Conditions on Dry Machining Lathe,†J. Phys. Conf. Ser., vol. 1007, p. 012064, Apr. 2018.

      [2] H. W. H and O. T, Teknologi Pengelasan Logam, Cetakan Kedelapan. Jakarta: PT. Pradya Paramita, 2000.

      [3] O. K. Sulaiman et al., “Bellman Ford algorithm-in RoutingInformation Protocol ( RIP ),†vol. 1007, pp. 1–9, 2018.

      [4] E. Dieter, G, Metalurgi Mekanik, 3rd ed. Jakarta: Erlangga, 1993.

      [5] A. Hasibuan et al., “Performance analysis of Supply Chain Management with Supply Chain Operation reference model,†vol. 1007, pp. 1–8, 2018.

      [6] A. Hasibuan, Metodologi Penelitian. 2013.

      [7] S. Grachino, W, Weeks, W, Johson, G, Welding Teknologi, 2nd ed. Chicago: American Technical Socirty.

      [8] N. K. S. D, Welding Technologi, 1st ed. Delhi: Khana Teac Publictions, 1985.

      [9] D. Newby, J, R, Metal Hand Book Ninth Edition Volume 8 Mechanical Testing, American Society For Metals. OHIO: Metal Parks, 1987.

      [10] Mudjujana, Failure Analisis III Engineering Alication. Yogyakarta, 2006.

      [11] H. D. Resnik H, Fisika, 3rd ed. Jakarta: Erlangga, 1982.

      [12] H. Van Vlack, L, Ilmu Dan Teknilogi Bahan, 5th ed. Jakarta: Erlangga, 1994.

      [13] A. B.H., P. F. Ostwald, and S. Djaprie, Teknologi Mekanik, 7th ed. Jakarta: Erlangga, 1997.

      [14] W. A. D, Welding Standart And Material Course July 20-24. Iridia: Trainning Ang Technical Services., 1998.

  • Downloads

  • How to Cite

    Bakhori, A., R. Harahap, M., Napid, S., Rafiq Yanhar, M., & Hasibuan, A. (2018). Variety of Current Power Welding Using Electrode 6013 on Tensile Force of Lower Carbon Metal. International Journal of Engineering & Technology, 7(2.13), 362-365. https://doi.org/10.14419/ijet.v7i2.13.16921