Betrachtungen über den Zusammenhang zwischen bakteriellem Wachstum und der mikrobiell induzierten Potentialverschiebung bei nichtrostenden Stählen

Gümpel, Paul; Kreikenbohm, R.

doi:10.1002/(sici)1521-4176(199904)50:4<219::aid-maco219>3.0.co;2-8

Cited by 2 publications

(2 citation statements)

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“…At the University of Applied Sciences in Konstanz test equipment was developed and used to examine the influence of different parameters on the microbial caused potential rise of stainless steels [13,14]. To analyse MIC, a new testing-facility has been designed consisting of sealed glass vessels with five sealed openings on top of each vessel (Fig.…”

Section: Methodsmentioning

confidence: 99%

Microbiological influence on the electro‐chemical potential of stainless steel

Gümpel¹,

Arlt²,

Telegdi³

et al. 2006

Materials & Corrosion

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The microbiologically caused ennoblement appears in natural water on all stainless steels equally and can only be prevented by the use of biocides. Temperature and supply of nutrients have an influence on the increasing rate of the potential, as well as the presence of manganese ions in the water favors the potential rise. The final value of the potential is substantially regulated by the biological system and is independent of the steel composition.An endangerment of stainless steels by a selective corrosion attack e.g. pitting corrosion arises if the critical repassivation potential of the steel lies below the open-circuit potential appearing in the natural system. This can be due to the alloy composition or due to process-conditioned weakening of the passive layer, for example by annealing colors on and beside welded joints.

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Section: Methodsmentioning

confidence: 99%

Microbiological influence on the electro‐chemical potential of stainless steel

Gümpel¹,

Arlt²,

Telegdi³

et al. 2006

Materials & Corrosion

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“…During examinations of corrosion damaged SS-components from various industrial plants slimy brownish biofilms were identified. It was found that part of these deposits consists of oxides and hydroxides of Mn in higher oxidation states and that a significant portion of the bacteria detected is able to produce MnO 2 [1,2].…”

Section: Introductionmentioning

confidence: 99%

Advanced studies on the influence of manganese on the potential increase of stainless steels

Kreikenbohm¹,

Eisenbeis

Gümpel

et al. 2003

Materials & Corrosion

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The influence of manganese on the time course and on the final value of the open-circuit potential of microbially influenced stainless steel (SS) has been examined by variation of the concentration of manganese in the aqueous phase and on the surface of the metal sample. Under the influence of bacteria stable final values of the open-circuit potential are attained at 540 mV or 620 mV depending on the manganese concentration in the aqueous phase, the duration of the experiment, and the supply of oxygen. These potential values can also be fixed electrochemically by anodic deposition of MnO 2 on the metal surface.According to the results obtained with different techniques, the electron flow from the metal towards the oxygen is a combination of biotic and abiotic processes. Besides the microbial oxidation of manganese the electron flow via a Mn-based redox enzyme system has to be discussed.

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Betrachtungen über den Zusammenhang zwischen bakteriellem Wachstum und der mikrobiell induzierten Potentialverschiebung bei nichtrostenden Stählen

Cited by 2 publications

References 3 publications

Microbiological influence on the electro‐chemical potential of stainless steel

Microbiological influence on the electro‐chemical potential of stainless steel

Advanced studies on the influence of manganese on the potential increase of stainless steels

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