Perbandingan Metode Arah Gerakan Elektroda terhadap Distorsi dan Kekerasan pada Hasil Pengelasan SMAW Baja Komersil

Muhammad Rusdi; A Asrul; Dian Rifany Kurniaty

doi:10.14710/jplp.1.1.43-49

DOI: https://doi.org/10.14710/jplp.1.1.43-49

Perbandingan Metode Arah Gerakan Elektroda terhadap Distorsi dan Kekerasan pada Hasil Pengelasan SMAW Baja Komersil

Muhammad Rusdi , A Asrul, Dian Rifany Kurniaty

Teknik Mesin Fakultas Teknik Universitas Tadulako Palu, Indonesia

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

BibTex Citation Data :

@article{JPLP19748,
    author = {Muhammad Rusdi and A Asrul and Dian Rifany Kurniaty},
    title = {Perbandingan Metode Arah Gerakan Elektroda terhadap Distorsi dan Kekerasan pada Hasil Pengelasan SMAW Baja Komersil},
    journal = {Jurnal Pengelolaan Laboratorium Pendidikan},
  volume = {1},
    number = {1},
    year = {2023},
    keywords = {Electrode movement, distortion, hardness, SMAW},
    abstract = {  The development of technology is increasing rapid  ly   in the field of machine construction in desperate need of connection techniques between interconnected parts of the machine construction. This study aims to compare the method of electrode movement direction using commercial steel to the value of distortion and hardness. This study uses seam V with an angle of 600 and a current of 100 amperes. The electrode used is E 6013 with a diameter of 3.2 mm and the test object has a thickness of 10 mm and a length of one object is 100 mm. This research uses spiral, zigzag, and semicircular (C) electrode movements. This research was conducted at the Laboratory of the Department of Mechanical Engineering, Faculty of Engineering, University of Tadulako.The results of distortion testing in the welding process obtained the highest distortion angle value, namely the semicircular electrode motion (C) with a value of 2.417 ° and the lowest angular distortion, namely the zigzag electrode movement with a value 1,857 °. This is because the contact area from the tip of the electrode to the parent metal is larger so that the peak temperature of the HAZ area is higher, consequently the cooling rate is greater. Whereas in the zigzag electrode movement is the opposite, because the greater the heat entering and the slow cooling causes the distortion angle value which initially rises to fall back down. For the hardness test, the highest value was obtained in the semicircular electrode motion (C), namely 163.65 Kg / mm2, while the lowest hardness value was obtained in the spiral electrode movement, namely 154.44 Kg / mm2.    },
   issn = {2654-251X},   pages = {43--49}  doi = {10.14710/jplp.1.1.43-49},
    url = {https://ejournal2.undip.ac.id/index.php/jplp/article/view/19748}
}

Citation Format:

Abstract

The development of technology is increasing rapidly in the field of machine construction in desperate need of connection techniques between interconnected parts of the machine construction. This study aims to compare the method of electrode movement direction using commercial steel to the value of distortion and hardness. This study uses seam V with an angle of 600 and a current of 100 amperes. The electrode used is E 6013 with a diameter of 3.2 mm and the test object has a thickness of 10 mm and a length of one object is 100 mm. This research uses spiral, zigzag, and semicircular (C) electrode movements. This research was conducted at the Laboratory of the Department of Mechanical Engineering, Faculty of Engineering, University of Tadulako.The results of distortion testing in the welding process obtained the highest distortion angle value, namely the semicircular electrode motion (C) with a value of 2.417 ° and the lowest angular distortion, namely the zigzag electrode movement with a value 1,857 °. This is because the contact area from the tip of the electrode to the parent metal is larger so that the peak temperature of the HAZ area is higher, consequently the cooling rate is greater. Whereas in the zigzag electrode movement is the opposite, because the greater the heat entering and the slow cooling causes the distortion angle value which initially rises to fall back down. For the hardness test, the highest value was obtained in the semicircular electrode motion (C), namely 163.65 Kg / mm2, while the lowest hardness value was obtained in the spiral electrode movement, namely 154.44 Kg / mm2.

Fulltext View|Download

Keywords: Electrode movement, distortion, hardness, SMAW

Article Metrics:

Article Info

Section: Articles

In Vol. 5, No. 1, Januari 2023

Recent articles

Pembuatan Sistem Informasi Pengelolaan Laboratorium (SIMPAL) Menggunakan Borland Delphi 7.0 Pengembangan Modul Praktikum Fisika Dasar Digital pada Materi Listrik Magnet sebagai Upaya Adaptasi Kebiasaan Baru Penerapan Sistem Proposional-Integral-Derivatif Pada Hatchery untuk Meningkatkan Produktivitas Day Old Chick (DOC) More recent articles

Achmadi, (2020). Las listrik https://www.pengelasan.net/las-listrik/[Diakses pada tanggal 1 januari 2022
Annual Hand Book ASTM E23 – 02.Standard Test Methods for Notched Bar Impact Testing of Metallic Materials 1
ASTM E92-82, (1997), Standard Test Methods for Vickers Hardness of Metallic Materials
ASTM E8, (2010), Standard Test Methods for Tension Testing of Metallic Materials
AWS D,1,1/D,1,1M Struktural Welding Code – Steel, ANSI (20100, 550 N,W Lejeuene Road Miami, FL, 33126
Cary, H.B., (1998), Modern Welging Technology , 4th Edition, Prentice Hall, New Jersey
DIN 17100, (1980), Steel For General Structural Purposes
Djamiko, R.D., (2008), Teori Pengelasan Logam, Universitas Negeri Yogyakarta, Yogyakarta
Haikal, 2014, Pengaruh tegangan listrik dan waktu pengelasan terhadap sifat fisik dan Mekanik sambungan las titik, jurusan teknik mesin fakultas teknik Universitas Sebelas Maret, Surakarta
Irzal, Orjela, W., & Syahrul. (2018). analisis kekuatan tarik kampuh V dan kampuh I sambungan las baja karbon rendah yang terdapat pada besi IWF 400
Hariyadi, Y. (2018). Analisis Variasi Arus Pada Hasil Pengelasan Baja Karbon Rendah Dengan Elektroda E 7018 Terhadap Kekuatan Tarik Dan Kekerasan Jalur Las. 43. https://doi.org/10.31227/osf.io/7yqvr
Harsono Wiryosumarto, Toshi Okumura, 2008, Teknologi Pengelasan Logam, PT Balai Pustaka (Persero), Jakarta
Kusuma Angga Tutur, 2012, Studi metalografi hasil pengelasan titik (spot welding pengelasan dilingkungan udara dan lingkungan gas argon, jurusan teknik mesin fakultas teknik Universitas Muhammadiyah Surakarta
M.L. Lin and T.W. Eagar, 1983, “ Influence of Surface Depression And Convection On Arc Weld Pool Geometry “ dan “ Pressures Produced by Gas Tungsten Arcs “ ,
Ninien Sckolastika, dan Ponimin, 2011, Analisa pengaruh penggunaan variasi, besaran arus las tig terhadap perubahan struktur mikro, Jurusan Teknik Mesin, Politeknik Negeri Bandung
Pranawan, D.F.B., & Suwito, D., (2016), “Pengaruh Teknik Pengelasan Alur Spiral, Alur Zig – Zag dan Lurus Pada Arus 85 A Terhadap Kekuatan Tarik Baja St41”, Jurnal Teknik Mesin, Vol. 04, No. 02, Hal. 29-32
Qomari, dkk. (2015), “Pengaruh Pola Gerakan Elektrode Dan Posisi Pengelasan Terhadap Kekerasan Hasil Las Baja ST60”, Jurnal Teknik Mesin, No.2, Hal. 1-3
Sonawan, H., & Suratman, R., (2006), Pengantar Untuk Memahami Proses Pengelasan Logam, Cetakan Ke-2, Alfabeta, Bandung
Wahono, dkk. (2018), “Pengaruh Pola Gerak Elektroda Pada Proses Pengelasan Baja St 37 Dengan Las SMAW Terhadap Sudut Distorsi dan Kekuatan Tarik”, Jurnal Teknik Mesin dan Pembelajaran, Vol. 1, No.1, Hal. 1-11
Wiryosumarto, H.,& Okumura, T., (2000), Teknologi Pengelasan Logam, Cetakan Kedelapan, Pradnya Paramita, Jakarta
Widharto S., 2006, Petunjuk Kerja Las, Cetakan Keenam, PT Pradnya Paramita, Jakarta

Last update:

No citation recorded.

Last update:

No citation recorded.

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

The Authors submitting a manuscript do so on the understanding that if accepted for publication, copyright of the article shall be assigned to Jurnal Pengelolaan Laboratorium Pendidikan and Laboratorium Technical Service Unit Integrated Laboratory Diponegoro University as publisher of the journal.

Copyright encompasses exclusive rights to reproduce and deliver the article in all form and media, including reprints, photographs, microfilms and any other similar reproductions, as well as translations. The reproduction of any part of this journal, its storage in databases and its transmission by any form or media, such as electronic, electrostatic and mechanical copies, photocopies, recordings, magnetic media, etc. , will be allowed only with a written permission from Jurnal Pengelolaan Laboratorium Pendidikan and Laboratorium.

Jurnal Pengelolaan Laboratorium Pendidikan was published Technical Service Unit Integrated Laboratory Diponegoro University and the Editors make every effort to ensure that no wrong or misleading data, opinions or statements be published in the journal. In any way, the contents of the articles and advertisements published in Jurnal Pengelolaan Laboratorium Pendidikan are sole and exclusive responsibility of their respective authors and advertisers.