Effect of Cu addition to low-alloy structural steel on the resistance against corrosion by the <i>Pseudomonas aeruginosa</i> biofilm

Li, Zhong; Lei, Qiang; Huang, Luyao; Liu, Chao

doi:10.1108/acmm-04-2021-2472

Cited by 2 publications

(2 citation statements)

References 21 publications

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“…More and more attention has been paid to the research of anticorrosion technologies such as fungicides, enhancers, antibacterial stainless steel and antibacterial coatings (Koch et al, 2001), while the chemicals involved in these treatment methods are basically toxic and harmful, without good environmental characteristics, and short service life is an inevitable problem. These chemicals will continue to be released into the environment, resulting in toxicity, carcinogenicity, environmental pollution, increased bacterial resistance (Zhuk et al, 2014) and bioaccumulation (Bhat et al, 2011;Li et al, 2021a). "Bacteriostasis with bacteria" is the use of beneficial microorganisms to inhibit the corrosion of harmful microorganisms (Wang et al, 2023b) and achieves the purpose of inhibiting MIC through competitive growth, metabolite action, microenvironment control and modification.…”

Section: Introductionmentioning

confidence: 99%

Study on the screening of marine beneficial bacteria and the inhibition of sulfate-reducing bacteria corrosion in marine oil field produced water

Wang,

Zhang,

et al. 2024

ACMM

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Purpose The purpose of this study is to provide ideas and theoretical guidance for green, environmentally friendly and efficient “bacteriostasis with bacteria” technology. Design/methodology/approach In this paper, a beneficial strain of bacteria was extracted and purified from marine mud. Weight-loss test, morphological observation and electrochemical test were used to systematically study the effect of sulfate-reducing bacteria (SRB)-induced corrosion inhibition on X65 steel in simulated offshore oil field production water. Findings The results showed that a beneficial strain was selected and identified as Vibrio alginolyticus. Under the condition of co-culture of SRB, the average corrosion rate of X65 steel was significantly reduced. In the mixed bacterial system, the surface of X65 steel samples was relatively flat, and the structure of biofilm and corrosion product film was dense. The number of corrosion pits, the average diameter and depth of corrosion pits were significantly reduced. The localized corrosion of X65 steel was significantly inhibited. Originality/value The complex and changing marine environment makes the corrosion problem of marine steel increasingly severe, and the microbiologically influenced corrosion (MIC) caused by SRB is particularly serious. The research and development of environmentally friendly corrosion protection technology is a long-term and difficult problem. The use of beneficial microorganisms to control MIC is a green and efficient anticorrosion measure. Compared with terrestrial microorganisms, marine microorganisms can adapt to complex environments, and their metabolites exhibit special biological activities. The use of marine beneficial bacteria can inhibit SRB activity to achieve the corrosion inhibition effect.

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Section: Introductionmentioning

confidence: 99%

Study on the screening of marine beneficial bacteria and the inhibition of sulfate-reducing bacteria corrosion in marine oil field produced water

Wang,

Zhang,

et al. 2024

ACMM

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“…Dong et al (2023) have reported that adding Cr in steel also promotes the formation of an inner electronegative film to repel Cl − ions. Li et al (2021) have found that Cr is more likely to repair defects in the rust layer via a degree of elemental bias. Liu et al (2016) have reported that although no Cr oxides are found in the rust layer, Cr enhances the formation of uniform amorphous ferric oxyhydroxide, which exhibits a better protection against corrosion.…”

Section: Introductionmentioning

confidence: 99%

The microstructure and corrosion behavior of Cr-containing ferrite-pearlite steels in an acidic environment

Hao

Wang

Guo

et al. 2023

ACMM

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Purpose The poor corrosion resistance of the ferrite-pearlite steel limits its application in marine engineering because of the enhanced galvanic effect caused by continuously accumulated cementite. Cr as one principal alloying element is commonly used to improve the corrosion resistance of steels. This paper aims to study the effect of Cr on corrosion behaviors of ferrite-pearlite steels in an acidic environment. Design/methodology/approach The tested steels were immersed in a simulated solution of 10 Wt.% NaCl with pH 0.85 for 72 h to evaluate the corrosion rate. After the immersion test, the corrosion morphologies and products were tested by scanning electron microscopy, energy dispersive X-ray analysis and X-ray diffraction. Meanwhile, an electrochemical workstation was used to study the electrochemical behaviors of samples. Findings At the initial corrosion stage, the corrosion rate increased in the sequence of Cr0, Cr0.5 and Cr1 steels, which was because of the competitive effect between the area ratio and the driving force caused by alloyed Cr. However, Cr1 steel exhibited the best corrosion resistance after a 72-h immersion test. This was because the alloyed Cr promoted the formation of protective Fe2O3 and FeCr2O4, which suppressed the preferential dissolution of ferrite and, thus, reduced the accumulation rate of carbides, resulting in the weakened galvanic corrosion. Originality/value This paper reports the role that Cr plays in the galvanic corrosion of ferrite-pearlite steels, which is important for the engineering application of ferrite-pearlite steels in marine environment.

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Effect of Cu addition to low-alloy structural steel on the resistance against corrosion by the Pseudomonas aeruginosa biofilm

Cited by 2 publications

References 21 publications

Study on the screening of marine beneficial bacteria and the inhibition of sulfate-reducing bacteria corrosion in marine oil field produced water

Study on the screening of marine beneficial bacteria and the inhibition of sulfate-reducing bacteria corrosion in marine oil field produced water

The microstructure and corrosion behavior of Cr-containing ferrite-pearlite steels in an acidic environment

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