Adzanni, Dicky (2024) STUDI KOROSI PADUAN COATING FeNiCr-Al DAN FeNiCr-Mo PADA ASTM A516-70 TERHADAP CO-FIRING SAMPAH UNTUK BOILER STOKER. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Pengujian substrat baja ASTM A516-70 dengan lapisan pelapis FeNiCrAl dan
FeNiCrMo dilakukan pada miniboiler selama 100 jam dengan variasi konsentrasi sampah
sebesar 15%, 30%, dan 50% pada suhu 700 ℃. Dalam pengujian ini, sampah yang digunakan
berasal dari PLTU Tanjung Awar-Awar yang telah diproses menjadi RDF di fasilitas
pengolahan RDF di Jabon, Sidoarjo, dan batu bara yang digunakan adalah jenis sub-bituminus
dari PLTU Indramayu. Pelapisan dilakukan menggunakan metode High Velocity Oxy-Fuel
(HVOF) dengan ketebalan lapisan sekitar 73 μm. Hasil pengujian menunjukkan bahwa
peningkatan konsentrasi sampah berhubungan dengan peningkatan ketebalan lapisan oksida
yang terbentuk, sebagaimana diindikasikan oleh analisis FE-SEM pada pelapis FeNiCrMo,
yang menunjukkan lapisan oksida lebih tebal dan celah lebih lebar pada kondisi 50% sampah.
Selain itu, analisis morfologi FE-SEM mengungkapkan adanya pori-pori yang disebabkan oleh
penetrasi ion Cl- pada lapisan oksida, yang dapat mengakibatkan pembentukan celah pada
lapisan pelapis. Penelitian ini menunjukkan bahwa penggunaan lapisan pelapis efektif dalam
memperlambat laju pertumbuhan massa korosi. Di antara pelapis yang diuji, pelapis FeNiCrAl
menunjukkan performa yang lebih baik dalam menahan laju pertumbuhan massa pada semua
konsentrasi sampah dibandingkan dengan pelapis FeNiCrMo. Temuan ini mengindikasikan
bahwa FeNiCrAl lebih efektif dalam mempertahankan integritas substrat baja dalam kondisi
pengujian ekstrem.
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Testing of ASTM A516-70 steel substrates with FeNiCrAl and FeNiCrMo coatings was
conducted in a miniboiler for 100 hours with varying waste concentrations of 15%, 30%, and
50% at 700 ℃. The waste used in this testing originated from PLTU Tanjung Awar-Awar,
processed into RDF at the RDF processing facility in Jabon, Sidoarjo, while the coal used was
sub-bituminous coal from PLTU Indramayu. Coating was applied using the High Velocity Oxy-
Fuel (HVOF) method with a layer thickness of approximately 73 μm. The results indicate that
increasing waste concentration correlates with an increase in the thickness of the formed oxide
layer, as evidenced by FE-SEM analysis of the FeNiCrMo coating, which showed thicker oxide
layers and wider gaps at 50% waste concentration. Additionally, FE-SEM morphology analysis
revealed the presence of pores caused by the penetration of Cl- ions into the oxide layer, which
can result in the formation of gaps in the coating. This study demonstrates that the use of
coatings is effective in slowing the rate of corrosion mass growth. Among the coatings tested,
FeNiCrAl performed better in mitigating mass growth at all waste concentrations compared to
FeNiCrMo. These findings suggest that FeNiCrAl is more effective in maintaining the integrity
of the steel substrate under extreme testing conditions.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Co-firing, FeNiCrAl, FeNiCrMo, Korosi, Pelapisan Coating, Co-firing, Corrosion, FeNiCrAl, FeNiCrMo |
| Subjects: | T Technology > TD Environmental technology. Sanitary engineering > TD171.75 Climate change mitigation T Technology > TD Environmental technology. Sanitary engineering > TD195.B56 Biomass energy T Technology > TS Manufactures > TS699 Powder coating of metals |
| Divisions: | Faculty of Industrial Technology > Material & Metallurgical Engineering > 28201-(S1) Undergraduate Thesis |
| Depositing User: | Dicky Adzanni |
| Date Deposited: | 09 Aug 2024 08:21 |
| Last Modified: | 09 Aug 2024 08:21 |
| URI: | http://repository.its.ac.id/id/eprint/112052 |
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