Surface Chemical Factors in the Stress-Corrosion Cracking off Alpha Brass

Johnson, H. E.; Leja, J.

doi:10.5006/0010-9312-22.6.178

Cited by 48 publications

(21 citation statements)

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“…The surface attained a steady state during cycles number 5 and 7 at 293 and 313 K, respectively. This result can be attributed to the low dissolution process of the corrosion products, which leads to the rapid passivation of the surface at 293 K. X-ray diffraction analysis indicated that the films formed on brass were predominantly Cu 2 O and Zn 5 (OH) 8 Cl 2 H 2 O; this is consistent with the results reported previously for brass tested in tarnishing solutions [28][29][30] as well as in a marine environment [31]. The results reported previously indicated an increase in the corrosion rate with increase in temperature [32].…”

Section: Influence Of Temperaturesupporting

confidence: 92%

Electrochemical impedance study on brass corrosion in NaCl and (NH4)2SO4 solutions during cyclic wet?dry conditions

El-Mahdy

2005

J Appl Electrochem

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Atmospheric corrosion of brass in sodium chloride (NaCl) and ammonium sulfate (NH 4 ) 2 SO 4 solution during wet/dry cyclic conditions was investigated. The effects of various parameters on the corrosion rate were studied including temperature, pH and surface inclination. The polarization resistance of brass samples, subjected to 1 h immersion and 7 h drying at 60% RH was monitored using an AC impedance. The corrosion rate measured at low temperature was found to be significantly lower than that observed at high temperature. The average reciprocal polarization resistance (V ARPR ) was also calculated during exposure. It decreased with the number of exposure cycles during the initial stages and attained a steady state value during the last stage of exposure. An atmospheric corrosion mechanism for brass, describing the successive stages during exposure, is subsequently proposed.

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Section: Influence Of Temperaturesupporting

confidence: 92%

Electrochemical impedance study on brass corrosion in NaCl and (NH4)2SO4 solutions during cyclic wet?dry conditions

El-Mahdy

2005

J Appl Electrochem

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“…The composition conformed approximately to that recommended earlier by Mattsson (18), and by Johnson and Leja (14) for producing minimum failure times; it consisted of 0.05M CuSO4 and 1.0M (NH4)eSO4 of pH 6.5 adjusted using NH4OH. The composition conformed approximately to that recommended earlier by Mattsson (18), and by Johnson and Leja (14) for producing minimum failure times; it consisted of 0.05M CuSO4 and 1.0M (NH4)eSO4 of pH 6.5 adjusted using NH4OH.…”

Section: Methodssupporting

confidence: 58%

“…4). Johnson and Leja (14) reported for 69.5% Cu-30.5% Zn brass in 0.04M Cu, 1.SM total NH3, pH 6.8 solution, a variable activation energy ranging from 4 to 11.5 kcal/mole. This value agrees with that of 9.9 kcal/mole reported by Pugh et aI.…”

Section: Resultsmentioning

confidence: 99%

“…); (it) progressive fracture of an oxide or other type reaction product film covering the alloy surface (9-13); or (iii) reduction of metal bond strength by an adsorbate (14,15), called by one of us "stress-sorption cracking" (16). ); (it) progressive fracture of an oxide or other type reaction product film covering the alloy surface (9-13); or (iii) reduction of metal bond strength by an adsorbate (14,15), called by one of us "stress-sorption cracking" (16).…”

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confidence: 99%

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Critical Potentials for Stress Corrosion Cracking of 63‐37 Brass in Ammoniacal and Tartrate Solutions

Uhlig

Gupta

Wang

1975

J. Electrochem. Soc.

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“…Die Ammoniumionen schienen uns deshalb von besoiiderem Interesse, weil sie liisliche Kupfer-Ammoniuinkomplexe bilden koiineii uiid aderdeiii Ammoniumioneii in neutralen uiid alkalischen Losungen die Ursaclie von Korrosioiis-KiRbildung a n Messing sind (29)(30)(31)(32)(33)(34)(35)(36) 3.31 C~77Zii21.412As'~' (2) 76,2 2,11 3,23…”

Section: Die Korrosion Von Messing In Ammoniumchloridlosungenunclassified

Die Korrosion von Messing in Ammoniumchloridlösungen

Bartoníček¹,

Holinka²,

Lukasovská³

1968

Materials & Corrosion

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Es wurde das Korrosionsverhalten von Messing der Type Cu77ZnZlA12, mit und ohne Arsen, in 0,01 bis 1 m NH4Cl‐Lötsungen von PH 4 und 2 sowie in 1 M Cl−‐Lösungen mit veränderlicher Na+‐und N+4‐Konzentration (Gesarntkonzentration jeweils 1 m) bei PH 2 und 4 untersucht. Während arsenfreies Messing in den meisten Fällen entzinkt wurde, trat bei dem arsenhaltigen Messing in den moisten Fällen interkristalline Korrosion ein. Die interkristalline Korrosion wird bereits bei einem Gehalt von 0,01% As hervorgerufen. In einem Medium mit 1 m C1− findet bei PH 2 interkristalline Korrosion unabhängig vom Gehalt an Ammoniumionen statt, während bei PH 4 die interkristalline Korrosion erst bei höheren NH+4− Ionen‐Konzentration, praktisch Lei 1 m, auftritt. Als Ursache der interkristallinen Korrosion wurden die Ausscheidung von Zink bzw. Arsen an den Korngrenzen sowie der Einfluß des Arsens auf die Stabilität des durch die anodische Reaktion entstehendenden CuCl−2 ermittelt. Der Einfluß der Zusammensetzung der Lösung auf den zeitlichen Verlauf der interkristallinen Korrosion wird erklärt.

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Surface Chemical Factors in the Stress-Corrosion Cracking off Alpha Brass

Cited by 48 publications

References 0 publications

Electrochemical impedance study on brass corrosion in NaCl and (NH4)2SO4 solutions during cyclic wet?dry conditions

Electrochemical impedance study on brass corrosion in NaCl and (NH4)2SO4 solutions during cyclic wet?dry conditions

Critical Potentials for Stress Corrosion Cracking of 63‐37 Brass in Ammoniacal and Tartrate Solutions

Die Korrosion von Messing in Ammoniumchloridlösungen

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