ANALYSIS OF CORROSION RATE AND HARDNESS VALUE OF LOW CARBON STEEL COATED WITH PAni-TiO2 SYNTHESIZED BY ELECTRODEPOSITION

Eka Sulistyaningsih; Nidia Lestari; Muhammad Yusuf; Dewi Wahyuningtyas

doi:10.29303/ipr.v6i1.201

ANALYSIS OF CORROSION RATE AND HARDNESS VALUE OF LOW CARBON STEEL COATED WITH PAni-TiO2 SYNTHESIZED BY ELECTRODEPOSITION

Authors

Eka Sulistyaningsih , Nidia Lestari , Muhammad Yusuf , Dewi Wahyuningtyas

DOI:

10.29303/ipr.v6i1.201

Published:

2023-01-26

Issue:

Vol. 6 No. 1 (2023)

Keywords:

Carbon steel, corrosion rate, electrodeposition, hardness value, PAni-TiO2

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Sulistyaningsih, E., Lestari, N., Yusuf, M., & Wahyuningtyas, D. (2023). ANALYSIS OF CORROSION RATE AND HARDNESS VALUE OF LOW CARBON STEEL COATED WITH PAni-TiO2 SYNTHESIZED BY ELECTRODEPOSITION. Indonesian Physical Review, 6(1), 146–154. https://doi.org/10.29303/ipr.v6i1.201

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Abstract

In the industrial world, carbon steel has been widely used. Corrosion of carbon steel cannot be avoided, so many studies have been carried out to overcome Corrosion. One of the efforts to overcome Corrosion is by coating. Low-carbon steel coating was done by combining TiO2 and polyaniline (PAni), which was carried out by electrodeposition. A carbon steel specimen that has been coated is corroded by immersing it in an acid and salt medium. After Corrosion, the specimen is tested for hardness. The specimen without inhibitor has a hardness value of 131 kg/mm2, while the specimen with the highest hardness value is a specimen coated with PAni 10-1 M and TiO2 10-4 M at 336 kg/mm2. Based on visual observation, the Corrosion that occurs is uniform.

References

D. Topayung, “EFFECT OF ELECTRIC CURRENT AND PROCESS TIME THE THICKNESS AND MASS LAYER FORMED ON ELECTROPLATING PROCESS,” J. Ilm. Sains, vol. 11, no. 1, pp. 97–101, 2011.

A. Yunus, “Korosi logam dan pengendaliannya; artikel review,” J. Polimesin, vol. 9, no. 1, pp. 847–852, 2011.

A. J. Sinaga, C. S. P. Manurung, M. Prodi, T. Mesin, D. Prodi, and T. Mesin, “Analisa Laju Korosi dan Kekerasan Pada Stainless Steel 316 L Dalam Larutan 10 % NaCl Dengan Variasi Waktu Perendaman,” SJoME, vol. I, no. 2, pp. 92–99, 2020.

E. Prifiharni, Siska; Ahmad Denni; Juniarsih, Andini; Mabruri, “Struktur Mikro, Kekerasan dan Ketahanan Korosi Baja Tahan Karat Martensitik 13Cr3Mo3Ni Hasil Quench-Temper dengan Variasi Temperatur dan Waktu Austenisasi,” Metalurgi, vol. 32, no. 2, pp. 83–90, 2017.

A. Prayitno, Dody; Riyono, Joko; Aji, Daisman, P.B; D.I, “EFFECT OF HEAT TREATMENT ON THE CORROSION RATE OF S45C STEEL,” Metalurgi, vol. 1, no. 1, pp. 25–30, 2020.

P. Prayitno, Dody; Indayanto, P, “Pengaruh Hardening Terhadap Korosi pada Baja S45C,” Metr. Ser. Teknol. dan Sains, vol. 2, no. 2, pp. 70–75, 2021.

Darmawi, PELAPISAN LOGAM. Palembang: Universitas Sriwijaya, 2018.

I. K. Suarsana, “Pengaruh waktu pelapisan nikel pada tembaga dalam pelapisan khrom dekoratif terhadap tingkat kecerahan dan ketebalan lapisan,” J. Ilm. Tek. Mesin CAKRAM, vol. 2, no. 1, pp. 48–60, 2008.

Y. Hardiyanti, F; Santoso, M, “Analisis pelapisan tembaga terhadap laju korosi dan struktur mikro grey cast iron,” J. Teknol. Marit., pp. 37–42, 2018.

Y. Yi, G. Liu, Z. Jin, and D. Feng, “The Use of Conducting Polyaniline as Corrosion Inhibitor for Mild Steel in Hydrochloric Acid,” Int. J. Electrochem. Sci., vol. 8, pp. 3540–3550, 2013.

G. . El-Mahdy, A. M. Atta, A. M. Tawfeek, and A. A. Abdel-khalek, “Synthesis of Encapsulated Titanium Oxide Sodium 2- Acrylamido-2-methylpropan Sulfonate Nanocomposite for Preventing the Corrosion of steel,” Int. J. Electrochem. Sci., vol. 10, pp. 5702–5713, 2015.

B. Abaci, Serdar; Nessark, “Characterization and corrosion protection properties of composite material (PANI+TiO2) coatings on A304...,” J. Coatings Technol. Res., vol. 11, no. 5, 2014.

S. A. Kumar, A. Sankar, and S. Rameshkumar, “Oxystelma Esculentum Leaves Extracts As Corrosion Inhibitor For Mild Steel In Acid Medium,” vol. 2, no. 9, 2013.

Gvozdenović, “Polyaniline based corrosion inhibitors for conventional organic coatings,” vol. 59, pp. 282–292, 2018.

D. H. Kusumawati and U. N. Surabaya, “Variasi Molaritas H 2 SO 4 pada Polianilin / H 2 SO 4,” Sains Mat, vol. 1, no. 1, pp. 29–32, 2012.

S. Kertati, “Sintesis dan karakterisasi polianilin dari anilinium asetat dan anilinium propionat serta aplikasinya sebagai sensor uap amonia,” Universitas Indonesia, 2008.

S. Loren, G. Rina, I. Siskem, I. Mechanism, A. On, and C. Steel, “MATERIAL BAJA KARBON,” Pros. Semin. Nas. ke-17 Teknol. dan Keselam. PLTN Serta Fasilitas Nukl., pp. 559–566, 2011.

A. Aulia, I. Agung, L. J. Mawarani, and S. T. Mt, “Aplikasi Komposit Polianilin ( PANi ) – TiO 2 Sebagai Pelapis Tahan Korosi Logam Besi pada Korosi Atmosferik,” Institut Teknologi Sepuluh Nopember, 2011.

V. R. Muzkantri and J. F. Fmipa, “PENGARUH VARIASI TiO 2 DALAM KOMPOSIT PANi-TiO 2 / CAT SEBAGAI PELAPIS ANTI KOROSI PADA BAJA KARBON ASTM A36 Diah Hari Kusumawati,” J. Inov. Fis. Indones., vol. 04, no. 03, pp. 61–64, 2015.

Sumarji, “EVALUASI KOROSI BAJA KARBON RENDAH ASTM A36 PADA LINGKUNGAN ATMOSFERIK DI KABUPATEN JEMBER,” J. ROTOR, vol. 5, no. 1, pp. 44–51, 2013.

S. Saefuloh, I; Kanani, N; Ramadhan, F Gumelar; Rukmayadi, Y; Yusuf, Y; Syarif, Abdullah; Susilo, “The Study of Corrosion Behavior and Hardness of AISI Stainless Steel 304 in Concentration of Chloride Acid Solution and Temperature Variations The Study of Corrosion Behavior and Hardness of AISI Stainless Steel 304 in Concentration of Chloride Acid Solut,” J. Phys. Conf. Ser., vol. 1477, no. 052058, 2020.

A. . Ngatin, A; Tonapa, Y; Regiyanti, R; Karomi, “ELEKTROPLATING FLASH CHROME PADA BAJA KARBON RENDAH,” Pros. Semin. Nas. Kim. UNY 2017 Sinergi Penelit. dan Pembelajaran untuk Mendukung Pengemb. Literasi Kim. pada Era Glob. Ruang, pp. 269–278, 2017.

Y. Rakiman; Hanif; Menhendry; Maimuzar; Yetri, “Analisa Kekerasan dan Ketebalan Permukaan Lapisan Hasil Elektroplating Kuningan Pada Baja,” J. Sains Terap., vol. 7, no. 1, pp. 43–48, 2021.

D. S. Ahmed, H. Mohammed, and M. Al-mashhadani, “Inhibition of Corrosion : Mechanisms and Classifications an Overview Inhibition of Corrosion : Mechanisms and Classifications an,” Al-Qadisiyah J. Pure Sci., vol. 25, no. April, p. 2, 2020.

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ANALYSIS OF CORROSION RATE AND HARDNESS VALUE OF LOW CARBON STEEL COATED WITH PAni-TiO2 SYNTHESIZED BY ELECTRODEPOSITION

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