Studi Komparasi Pengaruh Variasi Arus Pengelasan Terhadap Kekuatan Impak,  Kekerasan, Dan Struktur Mikro Sambungan Las Pegas Daun Baja Sup 9 Pada Proses Las Smaw

Nugroho, Fajar

doi:10.28989/angkasa.v9i2.181

Cited by 7 publications

(6 citation statements)

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“…This is compared to previous research by Fajar, with currents of 100 A, 120 A, and 140 A. The welding current of 140 A has the lowest ferrite content and the highest pearlite among all the welding currents used [15].…”

Section: Discussionmentioning

confidence: 49%

The Influence of SMAW Welding Current Variation on Tensile Strength, Corrosion Rate, and Microstructure of ST 42 Steel for Inner Bottom Plate Material in Ships

Manik,

Chrismianto,

Prayoga

2023

IJMEIR

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⎯ Steel is currently widely used in the industrial world. Due to its versatile uses, the development of steel science has also broadened, leading to improved steel processing methods. Welding is a process of joining two pieces of metal using heat. Steel, containing carbon, is prone to oxidation and rust. The aim of this study is to determine the influence of welding current variations on tensile strength, corrosion rate, and the micrographic structure of ST 42 steel. The research method employed is experimental. The welding current variations used are 70 A, 85 A, 100 A, 115 A, and 130 A. In this study, the highest average tensile stress was found at 130 A, measuring 519.20 MPa. For tensile strain, the highest values of 7% were observed at 115 A and 130 A. The highest modulus of elasticity was obtained at 115 A, with a value of 102.18 GPa. The highest corrosion rate occurred in specimens with 70 A, with a value of 0.19 mm/year (good), and the lowest corrosion rate was at 130 A, with a value of 0.10 mm/year (excellent). The micrographic structure testing results showed a decrease in the ferrite phase with each increase in current, while the pearlite phase increased. It can be concluded that the best welding current for ST 42 steel is at 130 A, due to its high tensile strength and low corrosion rate.

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Section: Discussionmentioning

confidence: 49%

The Influence of SMAW Welding Current Variation on Tensile Strength, Corrosion Rate, and Microstructure of ST 42 Steel for Inner Bottom Plate Material in Ships

Manik,

Chrismianto,

Prayoga

2023

IJMEIR

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“…Berdasarkan penelitian Nugroho (2017),astudi komparasiapengaruhavariasiaarus pengelasan terhadap kekuatan impak, kekerasan dan struktur mikro sambungan las pegas daun baja sup 9 pada proses lasasmaw. Variasi arus yang digunakan adalah 100 ampere, 120 ampereadan 140 ampere.…”

Section: Pendahuluanunclassified

Pengaruh Media Pendingin terhadap Kekerasan dan Struktur Mikro Hasil Pengelasan SMAW Pegas Daun Mitsubishi PS 120

Anwar,

Mulyadi

2024

Innovative

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Pegas daun merupakan suatu alat yang terbuat dari baja yang memiliki sifat elastisitas tinggi dan berfungsi penerima beban dinamis. Pada kendaraan yang banyak menerima beban besar seperti truk, penggunaan pegas daun sangat cocok digunakan karena memiliki sifat elastisitas yang bagus dan di imbangi dengan ketangguhan yang tinggi untuk menerima beban yang besar. Masalah yang sering terjadi pegas daun mengalami patah, jalan yang rusak dan beban muatan yang melebihi kapasitas menjadi penyebab pegas daun mengalami patah. Untuk memanfaatkan pegas daun yang patah agar bisa dipergunakan lagi yaitu dengan menggunakan teknologi pengelasan. Metode yang dipakai pada pengelasan berupa kampuh V, dengan arus 100 ampere menggunakan elektroda LB 52 U, pendinginan setelah pengelasan menggunakan variabel air kelapa, air garam dan oli. Hasil uji kekerasan didapatkan pengujian menggunakan pendingin air kelapa memperoleh nilai tertinggi yaitu daerah welding metal 31 HRC, daerah HAZ 56.5 HRC dan base metal 38 HRC. Sedangkan untuk uji impact ketangguhan tertinggi diperoleh pengelaan dengan media pendingin air kelapa dengan nilai impact 0.853 J/mm2.

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“…Penelitian menemukan semakin tinggi kekuatan tarik dari lasan akan menghasilkan laju korosi yang lebih rendah (Anggaretno, Rochani dan Supomo, 2012). Penelitian yang lain juga menunjukkan bahwa semakin tinggi kekuatan tarik maka akan semakin tinggi kekerasannya (Nugroho dan Setiawan, 2018). Sehingga dapat di simpulkan bahwa kekerasan yang tinggi akan menghasilkan laju korosi yang rendah.…”

Section: Pendahuluanunclassified

Pengaruh Tebal Deposit Lasan Terhadap Properti Lapisan Menggunakan Elektroda HV 450

Syaripuddin,

Sopiyan,

Cahyadi

et al. 2023

ASIIMETRIK

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This study investigates the effect of the increased welding layers welded by the SMAW process on distorsion, thickness, microstructure, hardness, and corrosion. The method used in this research is experimental. Low-carbon steel with a size of 150x10x10 mm was welded by the SMAW technique using an HV 450 electrode. Variations in the welding layers are single, double, and triple. The three variations of the samples were observed with a digital camera and an optical microscope. Moreover, samples were tested with a hardness tester. Corrosion testing was also carried out to determine the corrosion rate of the layers formed. The results showed that the number of SMAW welding layers affected the thickness, phase, hardness, and corrosion rate. The hardness of one layer is less than that of thicker specimens, while the corrosion rate of three layers is lower than that of less-thick samples.

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Studi Komparasi Pengaruh Variasi Arus Pengelasan Terhadap Kekuatan Impak, Kekerasan, Dan Struktur Mikro Sambungan Las Pegas Daun Baja Sup 9 Pada Proses Las Smaw

Cited by 7 publications

References 0 publications

The Influence of SMAW Welding Current Variation on Tensile Strength, Corrosion Rate, and Microstructure of ST 42 Steel for Inner Bottom Plate Material in Ships

The Influence of SMAW Welding Current Variation on Tensile Strength, Corrosion Rate, and Microstructure of ST 42 Steel for Inner Bottom Plate Material in Ships

Pengaruh Media Pendingin terhadap Kekerasan dan Struktur Mikro Hasil Pengelasan SMAW Pegas Daun Mitsubishi PS 120

Pengaruh Tebal Deposit Lasan Terhadap Properti Lapisan Menggunakan Elektroda HV 450

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