Evaluation of ozone for preventing fungal influenced corrosion of reinforced concrete bridges over the River Nile, Egypt

Geweely, Neveen S.

doi:10.1007/s10532-010-9391-7

Cited by 20 publications

(9 citation statements)

References 55 publications

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“…The shifting wave numbers and the new bond formation that appeared previously in (Table 6) through the functional groups of VAC inhibitor on the metal surface supporting the interaction between the active constituents of VAC inhibitor and the metal surface. The presence of extract components that containing nitrogen & oxygen heteroatoms together with Л electron clouds over benzene rings and other double and triple bonds finally confirmed that, those donor atoms and bonds act as active centers that suppresses the redox reaction by making a protective film from VAC solution through its mixed nature in adsorption so as to, inhibit severe corrosion which takes place with 1M HCl on the CS 1018 surface [56][57][58][59][60][61] .…”

Section: Atomic Force Microscopy (Afm) Testsmentioning

confidence: 84%

Vitex agnus castus plant extract as Safe corrosion inhibitor for carbon steel 1018 in 1M hydrochloric acid

2018

jcbsc

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The corrosion inhibition effectiveness of "Vitex agnus castus"(VAC) as corrosion inhibitor for carbon steel (CS) 1018 in 1.0 M HCl was confirmed using chemical and electrochemical methods. The data resulted from the measurements indicated that the inhibition efficiency (%IE) is dependent on both temperature and concentration of the extract. Tafel polarization (TP) data indicated that the extract behaves as mixed kind inhibitor. Langmuir's adsorption isotherm was found to be the best fit. Morphology of the surface was examined using scanning electron microscopy (SEM), Fourier transform infrared (FTIR) and atomic force microscopy (AFM) which confirmed the existence of a protective film of extract molecules on CS 1018 surface.

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Section: Atomic Force Microscopy (Afm) Testsmentioning

confidence: 84%

Vitex agnus castus plant extract as Safe corrosion inhibitor for carbon steel 1018 in 1M hydrochloric acid

2018

jcbsc

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“…(II) Decrease in the intensity band of water absorption around (1,640 cm −1 ) and decrease in O‐H stretching band around (3,300–3,400 cm −1 ); this was due to the water loss and the dry storage conditions. (III) Decrease in C=C stretching band around (1,508 cm −1 ) due to the loss of lignin according to fungal degradation (Geweely, 2011; Kubovský et al, 2020). (IV) Decrease in C‐O‐C stretching bands around (1,160 cm −1 ); this indicates the advanced cellulose chain breaking and the depolymerization occurrence (Kubovský et al, 2020).…”

Section: Resultsmentioning

confidence: 99%

New data on relevant ancient Egyptian wooden artifacts: Identification of wooden species and study of the state of conservation with multidisciplinary analyses

et al. 2022

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Wood species identification and characterization of its weathering processes are crucial steps in the scientific approach of conservation of wooden cultural heritage. Many precious wooden objects of ancient Egypt are largely present in museums, nevertheless relatively little information is available concerning the nature of timber used and on their status of conservation. To address this gap, the wooden species of three relevant archaeological wood objects (statue, box, and coffin) arising from different Egyptian archaeological sites dated from the Old Kingdom (2,686–2,181 BC) to New Kingdom (1,550–1,069 BC) were deeply studied. Five hardwood and softwood species were identified belonging to Tamarix mannifera, T. gennessarensis, Ficus sycomorus, Vachellia nilotica, and Cedrus sp. Such data confirmed the recurrence of Vachellia and Tamarix among the most common timbers found in ancient Egypt. Scanning electron microscope, Fourier transform spectroscopy, and synchrotron x‐ray radiation diffraction were conducted to evaluate the archaeological wood deterioration. The formation of microcracks, biological degradation patterns (fungal colonization), or chemical characterization (accumulation of salts on and in‐between wooden cells) were detected. SEM micrographs showed the presence of fungal hyphae and conidial spores on the wooden cells. Significant changes in the chemical wood composition and decrease in the crystallinity index were detected.

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“…Filamentous fungi are known to highly biodeteriorate materials [62]. These fungi have an invasive growth that many times manages to break the material on which they grow and at the same time release large amount of acids that favour corrosion processes [63]. Besides, Aspergillus as is one of the most common genera associated with biodeterioration of coatings and paints [64].…”

Section: Tablementioning

confidence: 99%

Alkyd based water-reducible anticorrosive paints and their antifungal potential

Martínez

Gámez

Bellotti

et al. 2021

Progress in Organic Coatings

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Concerns about ozone layer, contamination, fossils resources and health, has banned or restricted the use of traditionally organic solvents in paints. As a consequence, new resins that employed water as main solvent are being studied. Among these resins, alkyds are the most studied one as they can also be synthesised from natural vegetable sources, making them more acceptable.The aim of this paper was to study the anticorrosive behaviour of alkyd / polysaccharide paints containing zinc phosphate or zinc aluminum phosphate as main pigment and their performance against fungal growth. Two different PVC (pigment volume concentration) were studied. Painted panels were studied by exposition to salt spray and humidity chambers, where rusting and blistering degrees were evaluated, and by electrochemical tests (corrosion potential measurements, ionic resistances determination, linear polarization curves and polarization resistances determination).Results showed that these type of paints can be used to protect steel and that the type of pigment and the PVC are important to the protection. Besides, good selection of both also prevents fungi growth in a high humid environment.

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Evaluation of ozone for preventing fungal influenced corrosion of reinforced concrete bridges over the River Nile, Egypt

Cited by 20 publications

References 55 publications

Vitex agnus castus plant extract as Safe corrosion inhibitor for carbon steel 1018 in 1M hydrochloric acid

Vitex agnus castus plant extract as Safe corrosion inhibitor for carbon steel 1018 in 1M hydrochloric acid

New data on relevant ancient Egyptian wooden artifacts: Identification of wooden species and study of the state of conservation with multidisciplinary analyses

Alkyd based water-reducible anticorrosive paints and their antifungal potential

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