Effect of induced stress on the corrosion rate of medium carbon steel in saline environment

Alo, Oluwaseun Ayotunde; Simeon, A Ibitoye

doi:10.5897/jcems2015.0221

Cited by 7 publications

(1 citation statement)

References 13 publications

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“…Corrosion is not only dangerous, it is also costly [5], and that is the reason better and more efficient methods of analyzing it are of great importance to the industry. Without early detection and accurate measurement of the impact and rate of corrosion, costly and potentially hazardous damage can occur.…”

Section: Introductionmentioning

confidence: 99%

Corrosion Susceptibility of a 0.35%C Steel in Seawater Electrolyte Using the Electrochemical Method

Adeniyi

Awotunde

2016

JERA

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The Tafel extrapolation and linear polarization methods were used as effective measures for determining the corrosion susceptibility of a spheroidized 0.35%C steel with sea water as the electrolyte. Eight pieces of steel were machined to length 5mm by 10mm in diameter. Two pieces each were heat treated at 600°C, 700°C and 800°C respectively and two pieces left as control. Electro-chemical experiments were carried out to obtain the best potential and anodic current of samples immersed in an electrolyte (seawater) at varying anodic potential of-0.7mv, -0.6mv, -0.5mv and-0.4mv respectively. The results showed that the sample with the least corrosion rate were the samples spheroidized at 700°C. They appeared to have the highest electrode potential value of-0.6mv and 800°C spheroidized samples had the least electrode potential value of-0.65mv at the end of 2000seconds respectively. From the results obtained, the samples spheroidized at 700°C appeared to be most suitable for seawater environment.

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Section: Introductionmentioning

confidence: 99%