A. K. Mohamed scite author profile

The dissolution of copper in nitric acid solution in the presence of resorcinol. 0, p-aminophenols, catechol, o-cresol and salicylaldehyde as corrosion inhibitors has been studied by galvanostatic polarization and weight loss methods. For these compounds the two methods gave consistent results.Polarization data suggest that in the case of these inhibitors the cathode is preferentially polarized under the influence of an external current. The inhibitors appear to function through general adsorption following the Langmuir adsorption isotherm. The inhibiting effect of tested compounds is due to the destruction of the HNO, formed and its interference with the cathodic reaction.Die Auflosung von Kupfer in Salpetersaure in Gegenwart von Resorcin, 0-und p-Aminophenolen, Brenzkatechin, o-Kresol und Salicylaldehyd als Korrosionsinhibitor wurde gravimetrisch und mittels galvanostatischer Polarisation untersucht. Beide Methoden ergaben fur die genannten Verbindungen iibereinstimmende Ergebnisse. Aufgrund der Polarisationsdaten ist zu vermuten, dal3 diese Inhibitoren unter Einwirkung eines aul3eren Stroms die Kathode bevorzugt polarisieren. Die Wirkung dieser Inhibitoren diirfte auf Adsorption entsprechend einer Langmuir-Isotherme beruhen. Die Wirkung besteht darin, dab die entstehende salpetrige Saure zersetzt und ihr EinfluB auf die kathodische Reaktion ausgeschaltet wird.

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Physico-chemical properties of chromium trioxide and its suboxides

Khilla

Hanafi

Mohamed

1982

Thermochimica Acta

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The electrical conductivity of cellulose HYPHAN® and its complexes

Hanna

Kenawy

Mohamed

et al. 1993

Angew. Makromol. Chem.

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The electrical conductivity, 6, of cellulose HYPHANO and its complexes with Cr3+, Mn2+, Mo5+ or Hg2+ was measured from room temperature to 510 "C. The activation energy, AE, of the samples was calculated from log 6 against 1/T curves. The results show that the electrical conductivity increases by temperature with two maximum peaks. The first peak is attributed to the moisture content, while the second one is attributed to the thermal degradation of the cellulose chain. The values of the activation energy indicate that the samples change from low semiconductor to high semiconductor property with heating. ZUSAMMENFASSUNG:Die elektrische Leitfahigkeit (6) von Cellulose-HYPHANO und seinen Komplexen mit Cr3+, Mn2+, Mo5+ und Hg2+ wurde im Temperaturbereich 25-510°C bestimmt. Die Aktivierungsenergie wurde aus der Abhangigkeit von log o von der reziproken Temperatur berechnet. Die Ergebnisse zeigen, dal3 die Leitfahigkeit mit steigender Temperatur zunimmt und dabei zwei Maxima durchlauft. Das erste Maximum lafit sich dem Wassergehalt zuordnen, wahrend das zweite mit dem thermischen Abbau der Cellulose-Kette zusammenhangt. Die Werte der Aktivierungsenergie lassen darauf schlieaen, daB sich beim Erhitzen die Halbleitereigenschaften der Komplexe verbessern.

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X-ray Photoelectron Spectroscopy of Chromium Trioxide and some of its Suboxides

Hanafi¹,

Ismail²,

Mohamed³

1996

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A. K. Mohamed

Inhibition of the corrosion of iron by oxygen and nitrogen containing compounds

Substituted phenols as corrosion inhibitors for copper in nitric acid

Physico-chemical properties of chromium trioxide and its suboxides

The electrical conductivity of cellulose HYPHAN® and its complexes

X-ray Photoelectron Spectroscopy of Chromium Trioxide and some of its Suboxides

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