The document summarizes an investigation into using thiophene derivatives as corrosion inhibitors for an aluminum-silicon alloy in sulfuric acid solution. Three thiophene derivatives were tested as inhibitors using potentiodynamic polarization and electrochemical impedance spectroscopy. Polarization studies showed the inhibitors were anodic and increased inhibition efficiency with increasing concentration. Impedance spectroscopy demonstrated the inhibitors increased charge transfer resistance and formed a protective film. Theoretical calculations supported the experimental results showing the inhibitors adsorb on the alloy surface. In summary, the thiophene derivatives were found to effectively inhibit corrosion of the aluminum-silicon alloy in sulfuric acid.
Corrosion Behaviour of 6061 Al-SiC Composites in KOH MediumEditor IJCATR
The present research work deals with the corrosion behaviour of 6061 Al-15% (vol) SiC(P) composites. The addition of the
reinforcement like SiC to Aluminium has been reported to decrease the corrosion resistance of the matrix due to several reasons, one
of them being galvanic action between the reinforcement and the matrix. In the present work, the corrosion behaviour of 6061 Al-15%
(vol) SiC(P) composites in KOH at different concentration (0.5M, 1M, 1.5M) and different temperature (300C, 350C, 400C, 450C, 500C)
was determined by Tafel extrapolation technique. The inhibition action of 8-Hydroxyquinoline on corrosion behaviour of 6061 Al-
15% (vol) SiC(P) composites in KOH at different concentration of inhibitor (200ppm, 400ppm); different concentration of medium
(0.5M, 1M,1.5M) and different temperature (300C, 350C, 400C, 450C, 500C) was investigated. The results indicate that corrosion rate
of Al-SiC composite in KOH increases as the concentration of medium increases and also as temperature of medium increases. The
results indicate that the inhibitor is moderately effective in inhibiting the corrosion of 6061 Al-15% (vol) SiC(P) composites. As the
inhibitor concentration increases, the corrosion rate decreases. The surface morphology of the metal surface was investigated using
scanning electron microscope (SEM). Activation energy was evaluated using Arrhenius equation, and enthalpy of activation and
entropy of activation values were calculated using transition state equation
Combination of urea-Sn+2 in SCP solution was examined as a corrosion inhibitor for concrete reinforced steel by potentiodynamicpolarization, surface synergist parameter and cyclic voltammetry methods comparing with urea–Zn+2 combination. A synergism parameter (SI) indicated a synergistic effect between urea and Sn+2was exist. Polarization study revealed that formulation consisting of 300 ppm urea+50 ppm Sn+2 in SCP solution provided inhibition efficiency (IF) of 85.93% while 300 ppm urea +50 ppm Zn+2 provided 82.3% IF, and this combination acts as anodic type inhibitor. Cyclic voltammetry curves showed that the steel samples immersed in this formulation has low tendency to pitting corrosion. From these results it can be concluded that urea – Sn+2 inhibitor formulation is a good corrosion n inhibitor for concrete reinforced steel, it can maintain stable passive film on steel surface even in the presence of aggressive chloride ions so it can be used instead of the high toxicityZn+2 inhibitor to improve the corrosion inhibition of urea fertilizer inhibitor.
Some factors affecting on the behavior ofsteel electrode in citric acid solut...IJERA Editor
Potential-time curves are constructed for the steel electrode in naturally aerated citric acid solutions devoid of
and containing some aggressive and inhibitive compounds. Cl- and SO4
2- ions cause the destruction of passivity
and initiation of pitting corrosion. The rate of oxide film growth by citric acid and oxide film destruction by Cl-
and SO4
2- ions follows a direct logarithmic law as evident from the linear relationships between the open-circuit
potential and the logarithm of immersion time. Urea, phenylhydrazine and 1,2-phenylenediamine compounds
inhibit the pitting corrosion of steel. The rate of oxide film healing and thickening increases with their
concentrations. In presence of constant inhibitor concentration, the efficiency of pitting inhibition increases in
the order: (weak) urea<phenylhydrazine><1,2-phenylenediamine(strong).
The effect of ethanol extract of leaves of Conyza Dicorides plant on the corrosion inhibition
of mild steel in 1M HCl solution was investigated by weight loss and electrochemical polarization
techniques at temperature range (25–65 ̊C). The Results obtained showed that the percentage
inhibition efficiency increases with the increasing of inhibitor concentration and decreases with the
increasing of temperature. At a concentration of 2 g/L, the percentage inhibition efficiency reached
about (94.87%) at 25 ̊C. The thermodynamic activation functions of dissolution process and
adsorption parameters were calculated and discussed. Adsorption of the additive was found to follow
the Langmuir adsorption isotherm.
Thermodynamic characterization of metal dissolution and inhibitor adsorption ...IJRES Journal
The inhibition effect of 1-hexyl-3-methylimidazolium chloride (HMIC) on the corrosion of mild
steel in 2M sulphuric acid solution has been investigated by weight loss. potentiodynamic polarization and
electrochemical impedance spectroscopy. The effect of temperature on the corrosion behavior of mild steel in
2M H2SO4 with addition of inhibitor was studied in weight loss method at the temperature range of 308-328 K.
Results obtained that the inhibition efficiency increases with increasing the concentration of the inhibitor and
decreases with increasing the temperature. Polarization and impedance measurements were in good agreement.
The adsorption of this inhibitor on the mild steel surface obeys the Langmuir adsorption isotherm. Fourier
transform spectroscopy (FTIR) and Scanning electron microscopy (SEM) was also carried out to establish the
corrosion inhibit property of this inhibitor in sulphuric acid medium. Quantum chemical calculations were
performed using density functional theory to find out whether a clear link exists between the inhibitive effect of
the inhibitor and the electronic properties of its main constituents.
Experimental and Quantum Chemical Studies on the Corrosion Inhibition Perform...inventionjournals
Corrosion inhibition nature of a synthesized Schiff’s base was studied on the corrosion of mild steel in 1.0 M HCl using weight loss and electrochemical methods. The results indicated that the synthesized Schiff base is an effective inhibitor in reducing the corrosion of mild steel in 1.0 M HCl solution. The inhibitor efficiency of inhibitor increased with inhibitor concentration and showed maximum inhibition efficiency at 300 ppm concentration. The adsorption of inhibitor molecules on to the metal surface obeyed Langmuir Adsorption isotherm. The adsorption mechanism involved both physical and chemical adsorptions. The potentiodynamic polarization studies showed that the inhibitor is a mixed typed inhibitor with more cathodic nature. Potential of zero charge was also determined and the adsorption mechanism discussed. Quantum mechanical studies showed that the Schiff base molecules have the strong tendency to donate electron pairs to the metallic atoms on the surface
Corrosion Behaviour of 6061 Al-SiC Composites in KOH MediumEditor IJCATR
The present research work deals with the corrosion behaviour of 6061 Al-15% (vol) SiC(P) composites. The addition of the
reinforcement like SiC to Aluminium has been reported to decrease the corrosion resistance of the matrix due to several reasons, one
of them being galvanic action between the reinforcement and the matrix. In the present work, the corrosion behaviour of 6061 Al-15%
(vol) SiC(P) composites in KOH at different concentration (0.5M, 1M, 1.5M) and different temperature (300C, 350C, 400C, 450C, 500C)
was determined by Tafel extrapolation technique. The inhibition action of 8-Hydroxyquinoline on corrosion behaviour of 6061 Al-
15% (vol) SiC(P) composites in KOH at different concentration of inhibitor (200ppm, 400ppm); different concentration of medium
(0.5M, 1M,1.5M) and different temperature (300C, 350C, 400C, 450C, 500C) was investigated. The results indicate that corrosion rate
of Al-SiC composite in KOH increases as the concentration of medium increases and also as temperature of medium increases. The
results indicate that the inhibitor is moderately effective in inhibiting the corrosion of 6061 Al-15% (vol) SiC(P) composites. As the
inhibitor concentration increases, the corrosion rate decreases. The surface morphology of the metal surface was investigated using
scanning electron microscope (SEM). Activation energy was evaluated using Arrhenius equation, and enthalpy of activation and
entropy of activation values were calculated using transition state equation
Combination of urea-Sn+2 in SCP solution was examined as a corrosion inhibitor for concrete reinforced steel by potentiodynamicpolarization, surface synergist parameter and cyclic voltammetry methods comparing with urea–Zn+2 combination. A synergism parameter (SI) indicated a synergistic effect between urea and Sn+2was exist. Polarization study revealed that formulation consisting of 300 ppm urea+50 ppm Sn+2 in SCP solution provided inhibition efficiency (IF) of 85.93% while 300 ppm urea +50 ppm Zn+2 provided 82.3% IF, and this combination acts as anodic type inhibitor. Cyclic voltammetry curves showed that the steel samples immersed in this formulation has low tendency to pitting corrosion. From these results it can be concluded that urea – Sn+2 inhibitor formulation is a good corrosion n inhibitor for concrete reinforced steel, it can maintain stable passive film on steel surface even in the presence of aggressive chloride ions so it can be used instead of the high toxicityZn+2 inhibitor to improve the corrosion inhibition of urea fertilizer inhibitor.
Some factors affecting on the behavior ofsteel electrode in citric acid solut...IJERA Editor
Potential-time curves are constructed for the steel electrode in naturally aerated citric acid solutions devoid of
and containing some aggressive and inhibitive compounds. Cl- and SO4
2- ions cause the destruction of passivity
and initiation of pitting corrosion. The rate of oxide film growth by citric acid and oxide film destruction by Cl-
and SO4
2- ions follows a direct logarithmic law as evident from the linear relationships between the open-circuit
potential and the logarithm of immersion time. Urea, phenylhydrazine and 1,2-phenylenediamine compounds
inhibit the pitting corrosion of steel. The rate of oxide film healing and thickening increases with their
concentrations. In presence of constant inhibitor concentration, the efficiency of pitting inhibition increases in
the order: (weak) urea<phenylhydrazine><1,2-phenylenediamine(strong).
The effect of ethanol extract of leaves of Conyza Dicorides plant on the corrosion inhibition
of mild steel in 1M HCl solution was investigated by weight loss and electrochemical polarization
techniques at temperature range (25–65 ̊C). The Results obtained showed that the percentage
inhibition efficiency increases with the increasing of inhibitor concentration and decreases with the
increasing of temperature. At a concentration of 2 g/L, the percentage inhibition efficiency reached
about (94.87%) at 25 ̊C. The thermodynamic activation functions of dissolution process and
adsorption parameters were calculated and discussed. Adsorption of the additive was found to follow
the Langmuir adsorption isotherm.
Thermodynamic characterization of metal dissolution and inhibitor adsorption ...IJRES Journal
The inhibition effect of 1-hexyl-3-methylimidazolium chloride (HMIC) on the corrosion of mild
steel in 2M sulphuric acid solution has been investigated by weight loss. potentiodynamic polarization and
electrochemical impedance spectroscopy. The effect of temperature on the corrosion behavior of mild steel in
2M H2SO4 with addition of inhibitor was studied in weight loss method at the temperature range of 308-328 K.
Results obtained that the inhibition efficiency increases with increasing the concentration of the inhibitor and
decreases with increasing the temperature. Polarization and impedance measurements were in good agreement.
The adsorption of this inhibitor on the mild steel surface obeys the Langmuir adsorption isotherm. Fourier
transform spectroscopy (FTIR) and Scanning electron microscopy (SEM) was also carried out to establish the
corrosion inhibit property of this inhibitor in sulphuric acid medium. Quantum chemical calculations were
performed using density functional theory to find out whether a clear link exists between the inhibitive effect of
the inhibitor and the electronic properties of its main constituents.
Experimental and Quantum Chemical Studies on the Corrosion Inhibition Perform...inventionjournals
Corrosion inhibition nature of a synthesized Schiff’s base was studied on the corrosion of mild steel in 1.0 M HCl using weight loss and electrochemical methods. The results indicated that the synthesized Schiff base is an effective inhibitor in reducing the corrosion of mild steel in 1.0 M HCl solution. The inhibitor efficiency of inhibitor increased with inhibitor concentration and showed maximum inhibition efficiency at 300 ppm concentration. The adsorption of inhibitor molecules on to the metal surface obeyed Langmuir Adsorption isotherm. The adsorption mechanism involved both physical and chemical adsorptions. The potentiodynamic polarization studies showed that the inhibitor is a mixed typed inhibitor with more cathodic nature. Potential of zero charge was also determined and the adsorption mechanism discussed. Quantum mechanical studies showed that the Schiff base molecules have the strong tendency to donate electron pairs to the metallic atoms on the surface
Investigative studies on the inhibitive effects of Newbouldialaevis extracts ...researchinventy
The inhibitive effects ofNewbouldiaLaevis (NL) leaf extract and magnetic field on copper corrosion in 0.5M H2SO4 aqueous solution were investigated experimentally by gravimetric technique and theoretically using Quantum Chemical calculations. The results show that both NL and the magnetic field caused reduction in corrosion rate. The inhibition efficiency increased with concentration. The magnetic field caused greater increase in the inhibition efficiency. Temperature increase caused a decrease in inhibition efficiency. The activation energy is low and oscillates, possibly due to error factor from non-linearity of the Arrhenius plot. Among the tested isotherms, Langmuir has the highest correlation coefficient of 0.9963 and 0.7935 with and without magnet field respectively. The magnetic field increased the change in free energy, caused the reaction to become spontaneous, one mole of the inhibitor to replace 4 moles of water mole while reducing the number of monolayer of the inhibitor on the metal. The quantum chemical calculations performed on newbouldiaquinone and lapacholconstituents of NL showed that lapachol contributed more to the inhibition efficiency due its low binding energy, high dipole moment, chemical softness and fractional electron transfer. The magnetic field and temperature played opposite roles.
Corrosion Inhibition of Carbon Steel In Sulfuric Acid by Sodium CaprylateIJERA Editor
The interaction of a sodium salt of octanoic acid, sodium caprylate (SC), with a carbon steel (CS) surface was
investigated, using range of experimental techniques. It was shown that SC acts as a good CS general corrosion
inhibitor, yielding a maximum corrosion inhibition efficiency of 77%. This high inhibition efficiency is
maintained even at higher temperatures. It was determined that SC inhibits both partial corrosion reactions, and
can thus be considered to be a mixed-type inhibitor. The adsorption of SC on the CS surface was described by
the Langmuir adsorption isotherm. It was found that this process is spontaneous, irreversible and driven by the
entropy gain. The CS surface morphology was studied by SEM and it was demonstrated that SC is a very
effective general corrosion inhibitor of CS. This also was confirmed by contact angle measurements which
showed that the CS surface became more hydrophobic when the SC was added to the solution.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Corrosion Inhibition of Carbon Steel in Chloride and Sulfate SolutionsIJERA Editor
Corrosion is a major problem in industry and in infrastructure; a huge sum of expenditure every year is spent on
preventing, retarding, and repairing its damages. This work studies the engineering of an inhibitor for carbon
steel metal used in the cooling systems containing high concentration of chloride and sulfate ions. For this
purpose, the synergy between the dichromate, molybdate and nitrite inhibitors is examined and optimized to the
best results. Moreover, care was taken that the proposed inhibitor is compliant with the environmental laws and
regulations.
OXYSTELMA ESCULENTUM Stem Extracts as Corrosion Inhibitor for Mild Steel in A...IJMER
International Journal of Modern Engineering Research (IJMER) is Peer reviewed, online Journal. It serves as an international archival forum of scholarly research related to engineering and science education.
International Journal of Modern Engineering Research (IJMER) covers all the fields of engineering and science: Electrical Engineering, Mechanical Engineering, Civil Engineering, Chemical Engineering, Computer Engineering, Agricultural Engineering, Aerospace Engineering, Thermodynamics, Structural Engineering, Control Engineering, Robotics, Mechatronics, Fluid Mechanics, Nanotechnology, Simulators, Web-based Learning, Remote Laboratories, Engineering Design Methods, Education Research, Students' Satisfaction and Motivation, Global Projects, and Assessment…. And many more.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
INFLUENCE OF VARYING H2S CONCENTRATIONS AND HUMIDITY LEVELS ON ImAg AND OSP...IAEME Publication
Corrosion impacts electronic systems by attacking boards or individual components. Of particular concern is corrosion of the metallization on printed wiring board assemblies due to attack from sulfur-containing species, most notably sulfurous gases. Sulfurous gases are emitted by a diverse range of processes, ranging from paper and pulp bleaching to the warming of clay used in industrial modeling facilities. However, the impact of varying sulfur concentrations and humidity levels on corrosion needs further examination.
Inhibition of Sulphuric Acid Corrosion of Mild Steel by Surfactant and Its Ad...IOSR Journals
Abstract: The corrosion inhibition effect of surfactant, N,N-Dimethyl-N-(2-Phenoxyethyl)dodecan-1- aminiumbromide(DPDAB) on mild steel corrosion in 0.5M Sulphuric acid was investigated by weight loss, potentiodynamic polarization and Electrochemical impedance spectroscopic techniques. DPDAB is an excellent inhibitor and its inhibition efficiency increases with increase in concentration and maximum inhibition efficiency was observed above the critical micelle concentration (CMC). The polarization curves reveal that DPDAB acts as mixed type inhibitor with predominantly of anodic type. The corrosion inhibition efficiency of DPDAB increases with increase in concentration and decreases with increase in temperature from 298K to 308K and then increases and shows maxima at 318K and then decreases at 328K.. The adsorption of the inhibitor on the mild steel in 0.5M H2SO4 was found to obey Langmuir’s adsorption isotherm. Scanning electronic microscopy (SEM) confirmed the existence of an adsorbed protective film on the metal surface. The kinetic and thermodynamic parameters were calculated and discussed.
Halogen-substituted pyrazolo-pyrimidine derivatives as corrosion inhibitors f...Al Baha University
Sulfuric acid is widely used in several industrial fields, such as acid pickling, acid cleaning and acid descaling, which cause serious corrosion issues. Especially, copper being widely applied in industrial is vulnerable to be corroded by the acid. The usage of corrosion inhibitor is one of the most important techniques for controlling the corrosion. Several organic inhibitors containing hetero-atom, π-electrons and double bond have been applied for the corrosion inhibition of copper, which are found to exhibit high inhibiting properties by providing electrons to interact with metal surface. However, the use of several heterocyclic inhibitors has caused negative impact on the environment due to their toxicity and non-biodegradability. In this paper, pyrazolo-pyrimidine derivatives are found to attract great attention owing to their eco-friendly properties. Corrosion inhibited properties of three pyrazolo-pyrimidine derivatives namely 4-amino pyrazolo-pyrimidine (APP), 3-bromine 4-amino pyrazolo-pyrimidine (Br-APP) and 3-iodine 4-amino pyrazolo-pyrimidine (I-APP) on copper in 0.5 M H2SO4 solution were studied using electrochemical method and surface analysis techniques. Corrosion of copper has been largely inhibited by the inhibitors and the inhibited efficiency increase with the augment of concentration. The adsorption isotherms were simulated to explore the adsorption mode of inhibitors. Furthermore, theoretical calculations were applied to research the mechanism of inhibitors on copper.
Corrosion Inhibition of Carbon Steel In Sulfuric Acid by Sodium CaprylateIJERA Editor
The interaction of a sodium salt of octanoic acid, sodium caprylate (SC), with a carbon steel (CS) surface was
investigated, using range of experimental techniques. It was shown that SC acts as a good CS general corrosion
inhibitor, yielding a maximum corrosion inhibition efficiency of 77%. This high inhibition efficiency is
maintained even at higher temperatures. It was determined that SC inhibits both partial corrosion reactions, and
can thus be considered to be a mixed-type inhibitor. The adsorption of SC on the CS surface was described by
the Langmuir adsorption isotherm. It was found that this process is spontaneous, irreversible and driven by the
entropy gain. The CS surface morphology was studied by SEM and it was demonstrated that SC is a very
effective general corrosion inhibitor of CS. This also was confirmed by contact angle measurements which
showed that the CS surface became more hydrophobic when the SC was added to the solution.
STUDY THE CORROSION INHIBITION OF UREA FERTILIZER –Sn+2 FORMULATION ON REINFO...IAEME Publication
Combination of urea-Sn +2 in SCP solution was examined as a corrosion inhibitor for concrete reinforced steel by potentiodynamic polarization, surface synergist parameter and cyclic voltammetry methods comparing with urea–Zn +2 combination. A synergism parameter (SI) indicated a synergistic effect between urea and Sn +2 was exist. Polarization study revealed that formulation consisting of 300 ppm urea+50 ppm Sn +2 in SCP solution provided inhibition efficiency (I F) of 85.93% while 300 ppm urea +50 ppm Zn +2 provided 82.3% IF , and this combination acts as anodic type inhibitor. Cyclic voltammetry curves showed that the steel samples immersed in this formulation has low tendency to pitting corrosion. From these results it can be concluded that urea – Sn +2 inhibitor formulation is a good corrosion n inhibitor for concrete reinforced steel, it can maintain stable passive film on steel surface even in the presence of aggressive chloride ions so it can be used instead of the high toxicityZn +2 inhibitor to improve the corrosion inhibition of urea fertilizer inhibitor.
Investigative studies on the inhibitive effects of Newbouldialaevis extracts ...researchinventy
The inhibitive effects ofNewbouldiaLaevis (NL) leaf extract and magnetic field on copper corrosion in 0.5M H2SO4 aqueous solution were investigated experimentally by gravimetric technique and theoretically using Quantum Chemical calculations. The results show that both NL and the magnetic field caused reduction in corrosion rate. The inhibition efficiency increased with concentration. The magnetic field caused greater increase in the inhibition efficiency. Temperature increase caused a decrease in inhibition efficiency. The activation energy is low and oscillates, possibly due to error factor from non-linearity of the Arrhenius plot. Among the tested isotherms, Langmuir has the highest correlation coefficient of 0.9963 and 0.7935 with and without magnet field respectively. The magnetic field increased the change in free energy, caused the reaction to become spontaneous, one mole of the inhibitor to replace 4 moles of water mole while reducing the number of monolayer of the inhibitor on the metal. The quantum chemical calculations performed on newbouldiaquinone and lapacholconstituents of NL showed that lapachol contributed more to the inhibition efficiency due its low binding energy, high dipole moment, chemical softness and fractional electron transfer. The magnetic field and temperature played opposite roles.
Corrosion Inhibition of Carbon Steel In Sulfuric Acid by Sodium CaprylateIJERA Editor
The interaction of a sodium salt of octanoic acid, sodium caprylate (SC), with a carbon steel (CS) surface was
investigated, using range of experimental techniques. It was shown that SC acts as a good CS general corrosion
inhibitor, yielding a maximum corrosion inhibition efficiency of 77%. This high inhibition efficiency is
maintained even at higher temperatures. It was determined that SC inhibits both partial corrosion reactions, and
can thus be considered to be a mixed-type inhibitor. The adsorption of SC on the CS surface was described by
the Langmuir adsorption isotherm. It was found that this process is spontaneous, irreversible and driven by the
entropy gain. The CS surface morphology was studied by SEM and it was demonstrated that SC is a very
effective general corrosion inhibitor of CS. This also was confirmed by contact angle measurements which
showed that the CS surface became more hydrophobic when the SC was added to the solution.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Corrosion Inhibition of Carbon Steel in Chloride and Sulfate SolutionsIJERA Editor
Corrosion is a major problem in industry and in infrastructure; a huge sum of expenditure every year is spent on
preventing, retarding, and repairing its damages. This work studies the engineering of an inhibitor for carbon
steel metal used in the cooling systems containing high concentration of chloride and sulfate ions. For this
purpose, the synergy between the dichromate, molybdate and nitrite inhibitors is examined and optimized to the
best results. Moreover, care was taken that the proposed inhibitor is compliant with the environmental laws and
regulations.
OXYSTELMA ESCULENTUM Stem Extracts as Corrosion Inhibitor for Mild Steel in A...IJMER
International Journal of Modern Engineering Research (IJMER) is Peer reviewed, online Journal. It serves as an international archival forum of scholarly research related to engineering and science education.
International Journal of Modern Engineering Research (IJMER) covers all the fields of engineering and science: Electrical Engineering, Mechanical Engineering, Civil Engineering, Chemical Engineering, Computer Engineering, Agricultural Engineering, Aerospace Engineering, Thermodynamics, Structural Engineering, Control Engineering, Robotics, Mechatronics, Fluid Mechanics, Nanotechnology, Simulators, Web-based Learning, Remote Laboratories, Engineering Design Methods, Education Research, Students' Satisfaction and Motivation, Global Projects, and Assessment…. And many more.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
INFLUENCE OF VARYING H2S CONCENTRATIONS AND HUMIDITY LEVELS ON ImAg AND OSP...IAEME Publication
Corrosion impacts electronic systems by attacking boards or individual components. Of particular concern is corrosion of the metallization on printed wiring board assemblies due to attack from sulfur-containing species, most notably sulfurous gases. Sulfurous gases are emitted by a diverse range of processes, ranging from paper and pulp bleaching to the warming of clay used in industrial modeling facilities. However, the impact of varying sulfur concentrations and humidity levels on corrosion needs further examination.
Inhibition of Sulphuric Acid Corrosion of Mild Steel by Surfactant and Its Ad...IOSR Journals
Abstract: The corrosion inhibition effect of surfactant, N,N-Dimethyl-N-(2-Phenoxyethyl)dodecan-1- aminiumbromide(DPDAB) on mild steel corrosion in 0.5M Sulphuric acid was investigated by weight loss, potentiodynamic polarization and Electrochemical impedance spectroscopic techniques. DPDAB is an excellent inhibitor and its inhibition efficiency increases with increase in concentration and maximum inhibition efficiency was observed above the critical micelle concentration (CMC). The polarization curves reveal that DPDAB acts as mixed type inhibitor with predominantly of anodic type. The corrosion inhibition efficiency of DPDAB increases with increase in concentration and decreases with increase in temperature from 298K to 308K and then increases and shows maxima at 318K and then decreases at 328K.. The adsorption of the inhibitor on the mild steel in 0.5M H2SO4 was found to obey Langmuir’s adsorption isotherm. Scanning electronic microscopy (SEM) confirmed the existence of an adsorbed protective film on the metal surface. The kinetic and thermodynamic parameters were calculated and discussed.
Halogen-substituted pyrazolo-pyrimidine derivatives as corrosion inhibitors f...Al Baha University
Sulfuric acid is widely used in several industrial fields, such as acid pickling, acid cleaning and acid descaling, which cause serious corrosion issues. Especially, copper being widely applied in industrial is vulnerable to be corroded by the acid. The usage of corrosion inhibitor is one of the most important techniques for controlling the corrosion. Several organic inhibitors containing hetero-atom, π-electrons and double bond have been applied for the corrosion inhibition of copper, which are found to exhibit high inhibiting properties by providing electrons to interact with metal surface. However, the use of several heterocyclic inhibitors has caused negative impact on the environment due to their toxicity and non-biodegradability. In this paper, pyrazolo-pyrimidine derivatives are found to attract great attention owing to their eco-friendly properties. Corrosion inhibited properties of three pyrazolo-pyrimidine derivatives namely 4-amino pyrazolo-pyrimidine (APP), 3-bromine 4-amino pyrazolo-pyrimidine (Br-APP) and 3-iodine 4-amino pyrazolo-pyrimidine (I-APP) on copper in 0.5 M H2SO4 solution were studied using electrochemical method and surface analysis techniques. Corrosion of copper has been largely inhibited by the inhibitors and the inhibited efficiency increase with the augment of concentration. The adsorption isotherms were simulated to explore the adsorption mode of inhibitors. Furthermore, theoretical calculations were applied to research the mechanism of inhibitors on copper.
Corrosion Inhibition of Carbon Steel In Sulfuric Acid by Sodium CaprylateIJERA Editor
The interaction of a sodium salt of octanoic acid, sodium caprylate (SC), with a carbon steel (CS) surface was
investigated, using range of experimental techniques. It was shown that SC acts as a good CS general corrosion
inhibitor, yielding a maximum corrosion inhibition efficiency of 77%. This high inhibition efficiency is
maintained even at higher temperatures. It was determined that SC inhibits both partial corrosion reactions, and
can thus be considered to be a mixed-type inhibitor. The adsorption of SC on the CS surface was described by
the Langmuir adsorption isotherm. It was found that this process is spontaneous, irreversible and driven by the
entropy gain. The CS surface morphology was studied by SEM and it was demonstrated that SC is a very
effective general corrosion inhibitor of CS. This also was confirmed by contact angle measurements which
showed that the CS surface became more hydrophobic when the SC was added to the solution.
STUDY THE CORROSION INHIBITION OF UREA FERTILIZER –Sn+2 FORMULATION ON REINFO...IAEME Publication
Combination of urea-Sn +2 in SCP solution was examined as a corrosion inhibitor for concrete reinforced steel by potentiodynamic polarization, surface synergist parameter and cyclic voltammetry methods comparing with urea–Zn +2 combination. A synergism parameter (SI) indicated a synergistic effect between urea and Sn +2 was exist. Polarization study revealed that formulation consisting of 300 ppm urea+50 ppm Sn +2 in SCP solution provided inhibition efficiency (I F) of 85.93% while 300 ppm urea +50 ppm Zn +2 provided 82.3% IF , and this combination acts as anodic type inhibitor. Cyclic voltammetry curves showed that the steel samples immersed in this formulation has low tendency to pitting corrosion. From these results it can be concluded that urea – Sn +2 inhibitor formulation is a good corrosion n inhibitor for concrete reinforced steel, it can maintain stable passive film on steel surface even in the presence of aggressive chloride ions so it can be used instead of the high toxicityZn +2 inhibitor to improve the corrosion inhibition of urea fertilizer inhibitor.
Comparison of corrosion behaviour of commercial aluminium engine block and pi...msejjournal
The corrosion behavior of commercial aluminium alloy engine block and piston was investigated in 3.5% NaCl solution. The study was done by conventional gravimetric measurements and complemented by scanning electron microscopy (SEM) and X-ray analyzer (EDX) investigations. The results obtained indicate that the alloys suffers a process of corrosion localized to the area surrounding the precipitates of the Al (Si, Mg) and Al-Mg, which resulted in hemispherical pits. No evidence was found of the formation of crystallographic pitting for exposure times up to 54 days. Gravimetric analysis confirmed that with varying exposure periods the weight loss of the alloys increases and the normal corrosion rate profile of an initial steep rise followed by subsequent fall were observed for both alloys. The rate of corrosion of piston was found to be lower than that of engine block due to presence of Ni and lower percentages of Fe in aluminium piston alloy.
Corrosion Inhibition of Mild Steel in HCl Medium by a Condensation Productijtsrd
A condensation product CP was successfully synthesized from reaction of dimethyl amino benzaldehyde and aniline giving yields of 80 . The compound was characterized by Fourier Transform Infrared FTIR Spectroscopy. The corrosion inhibiting property of the CP on mild steel in HCl solution were investigated by the weight loss measurements, electrochemical impedance spectroscopy EIS and linear polarization resistance LPR . The concentrations of CP were varied from 1 x 10 3 M to 5 x 10 3 M. The inhibition efficiencies obtained from all the methods employed were in good agreement where the percentage of inhibition efficiencies increased with concentration of CP. Results showed that CP was the better inhibitor with inhibition efficiency of 90 at 5 x 10 3 M additive concentration. This is likely due to the effect of its large molecular size, higher number of electroactive heteroatoms and bigger p electron cloud of the conjugated double bond system. Ganesha Achary "Corrosion Inhibition of Mild Steel in HCl Medium by a Condensation Product" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-4 , June 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30869.pdf Paper Url :https://www.ijtsrd.com/chemistry/physical-chemistry/30869/corrosion-inhibition-of-mild-steel-in-hcl-medium-by-a-condensation-product/ganesha-achary
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
The inhibition effect of hydralazine hydrochloride on corrosion of mild steel...Premier Publishers
The inhibition effect of the Hydralazine hydrochloride for mild steel corrosion in 1M HCl has been investigated. Polarization measurement indicates that the Hydralazine hydrochloride act as mixed-type inhibitor, which gives a maximum inhibition efficiency around 72 %. Electrochemical impedance spectroscopy was used to investigate the mechanism of corrosion inhibition gives around 76 % due to the formation of electrical double layer. Thermodynamic parameter such as ΔG0 ads value was obtained as -30.22 KJ/mol indications that inhibitor shows its inhibition effect due to the chemisorptions process. Scanning electron microscopic images gives a visual idea about the formation of the protective film on the mild steel surface to reduce the corrosion rate. So that the Hydralazine hydrochloride acts as an efficient mixed type corrosion inhibitor for mild steel corrosion in acid media.
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
In the present investigation the corrosion measurements were carried out in 5% NaCl
aqueous solution, 2.5% HCl. solution for predetermined time intervals and varying
percentage concentrations of HCl solution at room temperature. Kinetics of corrosion
effect on samples of Al-Zn alloy, Al-Zn –5wt% flyash and silicon carbide particles and
Al-Zn –10wt% flyash and silicon carbide particles as reinforcement in composite are
studied.
The Inhibition Chemistry of 2-Amino, 5-Phenyl 1, 3, 4-Triazole for Aluminium ...IOSR Journals
The inhibitor 2-amino, 5-phenyl 1,3,4-triazole have been synthesized in alcohol medium. Corrosion of aluminium in 2N hydrochoric acid and the effect of the inhibitors in combating the corrosion have been investigated. The conventional weight loss method and electrochemical potentiodynamic polarizarion method have been employed for aluminium plates. From the above analysis, the inhibiting efficiencies increases with increasing inhibitor concentration then decreases. Polarization and impedance values shows that triazole inhibitor is marginally anodic controlled and activation controlled. SEM micrographs indicate that the metal surface is fully covered with inhibitor molecules thereby providing high degree of protection.
surface characteristics and electrochemical impedance investigation of spark-...mohammad fazel
In this study, the surface characteristic of oxide films on Ti-6Al-4V alloy formed by an anodic oxidation treatment at potentials higher than the breakdown voltage was evaluated.
1. A.S.FOUDA et al … CORROSION INHIBITION OF ALUMINUM-SILICON ALLOY ...
ZAŠTITA MATERIJALA 51 (2010) broj 3 133
A.S.FOUDA, G.Y.ELEWADY Scientific paper
M.G. SALAMA UDC:620.173:669.75’782
Corrosion inhibition of aluminum-silicon alloy in H2SO4 solution
using some thiophene derivatives
Inhibition of corrosion of Al-Si alloy by some thiophene derivatives in 0.5M H2SO4 was investigated by
potentiodynamic polarization and electrochemical impedance spectroscopy (EIS) techniques. Polarization studies
were carried out at different temperatures and showed that the investigated compounds are anodic inhibitors. The
effect of temperature on corrosion inhibition has been studied and thermodynamic activation and adsorption
parameters were calculated and discussed. Electrochemical impedance was used to investigate the mechanism of
corrosion inhibition. The inhibition occurs through adsorption of the investigated compounds on the alloy surface
without modifying the mechanism of corrosion process. The experimental data fit both of Temkin and kinetic-
thermodynamic isotherm. A clear correlation was found between corrosion inhibition efficiency and theoretical
parameters obtained by PM3 semiempirical method. The experimental results are supported by the theoretical
data.
Keywords: Thiophene derivatives; corrosion inhibition; Al-Si alloy; H2SO4, quantum chemical calculations.
1. INTRODUCTION
Aluminum and its alloys are widely used because of
their appearance, low density and corrosion resistance.
Nevertheless sometimes additional protection is
required. Then, aluminum alloys can be easily protected
with organic coatings by electrochemical oxidation. The
latter generates oxide passive layers providing excellent
corrosion resistance in highly aggressive environments.
However, due to different thermomechanical treatments
applied to achieve the mechanical properties, they are
liable to suffer from various forms of corrosion, mainly
pitting and intregranular attack [1-2]. Aluminum alloys
are important structural metals, particularly in the
aerospace industry. Pure aluminum metal (without
alloying elements) is rather corrosion resistant, a result
of passive film that forms on the metal surface.
However, pure aluminum metal does not posses
adequate strength for most aerospace application and
must be alloyed with other metals, notably copper,
magnesium, silicon, iron, zinc and other minor
constituent. These alloys are classified by a numbering
system that reflects both the chemical composition and
the heat treatment (tempering) of the alloy [3-4]. The
use of organic compounds as corrosion inhibitors for Al
and Al alloys in HCl and H2SO4 acids have been the
object of large number of investigators [5-18].
The present work was designed to study the corro-
sion inhibition of Al-Si alloy in H2SO4 solutions by so-
me thiophene derivatives as corrosion inhibitors using
different techniques. The synergistic effect brought abo-
ut by combination of the inhibitors with LaCl3 was
examined also and explained.
2. MATERIALS AND METHODS
2.1. Materials and solutions
The aluminum-silicon alloy which employed for this
study has a composition 89.15% Al and 10.85% Si. A
Address author: Chemistry Department, Faculty of
Science, El-Mansoura University, El-Mansoura-35516,
Egypt. email. asfouda@mans.edu.eg
cylindrical alloy rod whose exposed surface was 1 cm2
was inserted into a Teflon tube so that only the flat
surface was in contact with solution. Before each
experiment, the electrode was abraded with a sequence
of emery papers of different grades (600, 800, 1200),
washed with double distilled water and degreased with
acetone. All chemicals used were of analytical- grade
reagents. Solutions were prepared with. The corrosive
solution was 0.5 M sulfuric acid and prepared using
double distilled water. The experiments were carried out
under non-stirred and naturally aerated conditions. The
inhibitor solutions were prepared at different concen-
trations using absolute ethanol.
2.2 Inhibitors
The selected organic inhibitors used in this study
were synthesized through procedures reported previo-
usly [19]. The structure formulae of inhibitors are shown
in Fig. 1.
-6.5 -6.0 -5.5 -5.0 -4.5 -4.0 -3.5 -3.0 -2.5
-1.0
-0.9
-0.8
-0.7
-0.6
-0.5
-0.4
logi, Acm
-2
potential,mV
blank(0.5MH2
SO4
)
1(um)M
3(um)M
5(um)M
7(um)M
9(um)M
11(um)M
Fig. 1 - Potentiodynamic curves for the Al-Si alloy in
0.5M of H2SO4 in the presence and absence of
different concentrations of compound A at 25o
C
2. A.S.FOUDA et al … CORROSION INHIBITION OF ALUMINUM-SILICON ALLOY ...
ZAŠTITA MATERIJALA 51 (2010) broj 3134
Mol. Wt.StructureNameNo.
183
S
COOH
NH2
2-amino-5,6-dihydro-4H-cyclopenta[b]thiophene
-3-carboxylic acid
(A)
197
S
COOH
NH2
2-amino-4,5,6,7-tetrahydrobenzo[b]thiophene
-3-carboxylic acid
(B)
211
S
COOH
NH2
2-amino-5,6,7,8-tetrahydro-4H-yclohepta[b]thiophene
-3-carboxylic acid
(C)
2.2 Methods
2.2.1. Potentiodynamic polarization
Electrochemical experiments were performed in a
conventional three-electrode electrochemical cell at 25
°C with a platinum counter electrode and saturated
calomel (SCE) as reference electrode. The working
electrode was in the form of disc cut from the alloy
under investigation, first was immersed into the test
solution for 30 min to establish a steady state open
circuit potential.
The potentiodynamic current-potential curves were
recorded by changing the electrode potential automati-
cally from -250 mV to +250 mV with scanning rate of 5
mV s-1
using Gamry framework instruments (version
3.20). Corrosion current densities (jcorr) and corrosion
potential (Ecorr), where evaluated from intersection of the
linear anodic and cathodic branches of Tafel plots and
all of them will calculated in absence and presence of
different concentrations of inhibitors. Experiments were
always repeated at least three times. Degree of surface
coverage () is calculated, as proposed by Vracar and
Drazie [20], from the following equation:
θ = (jcorr - j'corr)/jcorr (1)
and % IE were calculated using the following equation:
% IE = θ x 100 (2)
where jcorr and j'corr are the current densities in the
absence and presence of inhibitors, respectively and θ is
surface coverage.
2.2.2. Electrochemical impedance spectroscopy
Electrochemical impedance spectroscopy were per-
formed at corrosion potentials, Ecorr, over a frequency
range of 10-5
Hz to 0.5 Hz with a signal amplitude
perturbation of 10 mV, using potentiostat /galvanostat
(Gamry PCI 300/4) and personal computer with EIS300
software for calculations. Data were presented as Nyqu-
sit and Bode plots. Experiments were always repeated at
least three times. Degree of surface coverage () and %
IE were calculated using the following equations:
θ = [(1/R'ct )-(1/Rct)]/ (1/R'ct ) (3)
% IE = θ x 100 (4)
where R’ct and Rct are the charge transfer resistance in
the presence and absence of inhibitor, respectively.
2.3. Quantum calculations
Materials studio V.4.4.0 was used for molecular
modeling .The molecular orbital calculation are based
on a semiempirical self-consistent field molecular
orbital (SCF-MO) method A full optimization of all
geometrical variables without any symmetry constraints
was performed at the restricted Hartee–Fock (RHF)
level using Parameterization Model 3 (PM3) method.
3. RESULTS AND DISCUSSION
3.1 Potentiodynamic polarization measurements
Figure (1) shows both the cathodic and anodic pola-
rization curves of Al-Si alloy in the presence and absent-
ce of different concentrations of compound (C). Similar
curves were obtained for the other compounds (not
shown). Table (1) shows the electrochemical parameters
of corrosion potential (Ecorr), corrosion current densities
(jcorr) , cathodic and anodic Tafel slopes (βc & βa) , the
degree of surface coverage (θ) ,percentage inhibition
efficiency (% IE) and corrosion rate (CR). The data
show that the corrosion current density (jcorr) decreases
with increasing the concentration of inhibitors. The
order of decreasing the values of (jcorr) and hence the rate
of corrosion is as follows: A > B > C. The slopes of the
anodic (βa) and cathodic (βc) Tafel lines remain almost
constant upon increasing inhibitor concentrations. These
results indicate that these inhibitors act by blocking the
available surface area [21]. In other words, these
inhibitors decrease the surface area for corrosion without
affecting the mechanism of corrosion and only cause
inactivation of a part of metal surface with respect to the
3. A.S.FOUDA et al … CORROSION INHIBITION OF ALUMINUM-SILICON ALLOY ...
ZAŠTITA MATERIJALA 51 (2010) broj 3 135
corrosive medium. The slight shift of corrosion potential
(Ecorr) values towards less negative direction by increase
of the inhibitor concentrations in the presence of 0.5 M
H2SO4 indicates that these investigated compounds are
anodic inhibitors [22].
Table 1 - The effect of concentration of the investigated compounds on the free corrosion potential (Ecorr), corrosion
current density (jcorr), Tafel slopes (βa& βc), inhibition efficiency (% IE), degree of surface coverage (θ) and
corrosion rate (CR) for the corrosion of Al-Si alloy in H2SO4 at 25 ˚C
CR
mm y-1% IEθ
βc
mVdec-1
βa
mVdec-1
jcorr
μA cm-2
-Ecorr
mV
Conc.
µm M
compounds
1.795--------466179161.97320.0Free acid
1.03141.30.41336618694.886971
0.89449.20.49242921782.266853
0.61665.00.65037520156.706645
0.43375.40.75428217039.816777
0.34580.40.80432718131.776529
0.30782.60.82632019228.2364011
(A)
1.29227.10.271525123118.97071
1.13835.30.353546222104.76903
0.73558.20.58241421267.656445
0.54069.30.69335920049.666747
0.35379.90.79930818832.536429
0.32581.50.81529619129.9164611
(B)
1.6009.00.090461181147.37491
1.20431.50.315351164110.87443
1.07938.70.38738717999.257515
0.81353.80.53831315774.837617
0.54968.80.68833319550.546729
0.43175.50.75530818739.6465511
(C)
From the calculated values of (% IE) at 25 °C as
shown in Table (2), the order of decreasing the inhi-
bition efficiency of the investigated compounds is as
follows: A > B > C
Table2 - Inhibition efficiency at different concentration
of the investigated compounds for the corrosion
of Al-Si alloy in 0.5M H2SO4 at 25 °C.
IE %
(C)(B)(A)
Concentration,
um M
9.027.141.31
31.535.349.23
38.758.265.05
53.869.375.47
68.879.980.49
75.581.582.611
3.2 Electrochemical impedance spectroscopy
The corrosion behavior of Al-Si alloy in 0.5 M
H2SO4 in the presence and absence of investigated
thiophene derivatives was investigated by (EIS) at 25
°C. Various impedance parameter such as charge
transfer resistance (Rct), double layer capacitance (Cdl)
and inhibition efficiency (% IE) were calculated and are
given in Table (3). The data obtained show that (Rct)
charge transfer resistance increases with increasing the
concentration of inhibitors which accompanied with
increasing (% IE) and the value of capacitance double
layer (Cdl) decrease with increasing the concentration of
inhibitor due to the adsorption of these compound on the
electrode surface leading to a film formation of Al- Si
alloy surface.
4. A.S.FOUDA et al … CORROSION INHIBITION OF ALUMINUM-SILICON ALLOY ...
ZAŠTITA MATERIJALA 51 (2010) broj 3136
Table 3 - Electrochemical kinetic parameter obtained by EIS technique for the corrosion of Al-Si alloy in 0.5M
H2SO4 at different concentration of investigated compound.
% IEӨRct,
Ω cm2
Cdl,
μF cm-2
Concentration
µm M
Compounds
0.00122.927.910.0blank
23.60.236160.924.725
31.50.315179.420.267
39.40.394202.816.529
48.20.482237.36.34811
A
20.80.208155.125.315
29.50.295174.321.027
38.30.383199.214.119
45.80.457226.58.0911
B
18.00.180149.924.965
25.50.255165.023.357
31.40.314178.917.429
42.00.42211.711.5211
C
The obtained Nyquist impedance diagram in most
cases does not show perfect semicircle. This may be
attributed to the frequency dispersion as a result of the
heterogeneity of the electrode surface [23-24].
In 0.5 M H2SO4 and presence of various concen-
trations of investigated inhibitors, the impedance dia-
gram shows the same trend. However, the diameters of
the capacitative loop increase with increasing concen-
tration of the inhibitor. Fig (2) shows the Nyquist plot
for Al-Si alloy in 0.5 M H2SO4 in the absence and pre-
sence of different concentrations of compound (A) at 25
°C.
-20 0 20 40 60 80 100 120 140 160 180 200 220 240 260 280
40
20
0
-20
-40
-60
-80
-100
-120
blank
(um )M
(um )M
(um )M
(um )M
Zreal
, O hm cm
-2
Zimag
,Ohmcm
-2
Fig. 2 - The Nyquist plot for Al-Si alloy in 0.5 M H2SO4
solution in the absence and presence of differ-
rent concentration of compound (A) at 25 o
C
This diagram has a semicircle appearance; it indica-
tes that the corrosion of Al-Si alloy is mainly controlled
by a charge transfer process. The Bode plot for the alloy
is shown in Figure (3) where the high frequency limit
corresponds to electrolyte resistance RΩ, while the low
frequency limit represents the sum of (RΩ + Rp) where
Rp is the first approximation determined by both the
electrolytic conductance of the oxide film and polariza-
tion resistance of the dissolution and repassivation
process.
0 1 2 3 4 5
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.0
2.2
2.4
2.6
0
-20
-40
-60
-80
Z
logF
log Z
blank
5 (um)M
7 (um)M
9 (um)M
11 (um)M
Fig. 3 - The bode plot for Al-Si alloy in 0.5 M H2SO4
solution in the absence and presence of differ-
rent concentrations of compound (A) at 25 o
C
5. A.S.FOUDA et al … CORROSION INHIBITION OF ALUMINUM-SILICON ALLOY ...
ZAŠTITA MATERIJALA 51 (2010) broj 3 137
3.3 Adsorption isotherm
The investigated compounds inhibit the corrosion by
adsorption at the metal surface. Theoretically, the adsor-
ption process has been regarded as a simple substitution-
nal process, in which an organic molecule in the aqu-
eous phase substitutes an (y) number of water molecules
adsorbed on the metal surface [25].
A number of mathematical relationships for the
adsorption isotherms have been suggested to fit the ex-
perimental data of the present work. The simplest equa-
tion is that due to Temkin [26] and is given by the
general relation:
a Ө = KC (5)
where K is the equilibrium constant of the adsorption
reaction, C is the inhibitor concentration in the bulk of
the solution.
-6.0 -5.8 -5.6 -5.4 -5.2 -5.0
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
R
2
=0.9715
R
2
=0.9465
R
2
=0.9565
log C, M
R
2
=0.9568
R
2
=0.94651
A
B
C
R
2
=0.9715
Fig. 4 -Temkin adsorption isotherm plotted as vs. log
C of the investigated inhibitors for corrosion of
Al-Si alloy in 0.5 M H2SO4 solution at 25 °C
Figure (4) shows relationship between Ө and log C
where K (equilibrium constant) is obtained from the
intercept of the straight line and it is known that
standard free energy (∆G°ads) is related to equilibrium
constant by:
K = 1/55.5 exp (-∆G°ads) /RT (6)
The value of 55.5 is the concentration of water in
the solution in mole per liter.
Also it is found that he kinetic thermodynamic
model of El-awady et al [27] is fit well to the
experimental data of Al-Si alloy in the presence of
varying concentration of tested compounds in H2SO4.
The adsorption isotherm relationship is represented by
the following equation:
Log (Ө/ 1-Ө) =log K' + y log C (7)
where (y) is the number of inhibitor molecules
occupying one active site, K = K’(1/y)
and (1/y) is the
number of adsorbed water molecules replaced by one
molecules of organic inhibitor. Application of kinetic-
thermodynamic equation yields a straight line with slope
of (y) and intercept of log (K’) illustrated in Fig.(5). The
results in Table (4) show the values of ΔG°
ads, K and
(1/y) obtained from El-Awady et al and Temkin's
adsorption isotherm. Inspection of Table 4 shows that
the number of active sites is nearly constant and
approximately equals one, this behavior can be
discussed on the basis that the adsorption process takes
place by the occupation of one active site per single
inhibitor molecules. Also, the equilibrium constant (K)
decreases in the order: A > B > C. Large values of K
mean better inhibition efficiency of a given inhibitors,
i.e., strong electric interaction between the double layer
existing at the phase boundary and the adsorbing
molecules. The values of ΔG°
ads are large and acquire
negative sign indicating that the adsorption reaction is
proceeding spontaneously and accompanied with a high
efficient adsorption for such compounds.
-6.0 -5.8 -5.6 -5.4 -5.2 -5.0 -4.8
-1.2
-1.0
-0.8
-0.6
-0.4
-0.2
0.0
0.2
0.4
0.6
0.8
log
log C, M
R
2
=0.98791
R
2
=0.95414
R
2
=0.95708
A
B
C
Fig. 5 - El-Awady model plotted as log (/1-) vs. log C
of the investigated inhibitors for corrosion of
Al-Si alloy in 0.5 M H2SO4 solution at 25 °C.
According to Temkin model, the data (Table 4)
indicate that the value of (K) decreases in the order: A >
B > C. It is seen that there is a good agreement between
the values of (K) and (ΔG°
ads) obtained from the kinetic
model and Temkin model isotherm.
Table 4 - Equilibrium constant (K), adsorption free
energy (∆Gads)and number of active sites (1/y) for
the adsorption of inhibitors of 11x10-6
on Al-Si
alloy in 0.5 M H2SO4 at 25 ºC
Temkin isothermKinetic model
-∆G°ads
kJ mol-1
K x10-4
M-1
-∆G°ads
kJ mol-1
Kx10-4
M-11/y
Inhi-
bitor
48.96686.1242.4850.111.18A
46.15220.9041.2730.790.90B
44.21100.8839.9317.960.72C
6. A.S.FOUDA et al … CORROSION INHIBITION OF ALUMINUM-SILICON ALLOY ...
ZAŠTITA MATERIJALA 51 (2010) broj 3138
3.4 Effect of temperature
Temperature has a significant influence on metals and
alloys corrosion rates. In case of corrosion in an acidic
medium, the corrosion rate increases with increase in
temperature, because the decrease of hydrogen evolution
overpotential [5]. An experimental dependence of
Arrhenius-type equation on temperature is observed
between the corrosion rate and temperature.
jcorr = A exp(-Ea/RT) (8)
and logarithmic form
log jcorr =log A (-Ea/2.303RT)(9)
where jcorr is the corrosion current density, A is the
extrapolation factor, Ea is the activation energy, R is the
gas constant and T is the absolute temperature.
The effect of rising temperature on the corrosion
rate of Al-Si alloy in 0.5 M H2SO4 solution in the
absence and presence of 3x10-6
M of the investigated
thiophene derivatives was studied by potentiodynamic
polarization over a temperature range from 25- 40 ˚C.
Corrosion rates in all systems increased to a great extent
as temperature was raised from 25 to 40 C. Also,
investigated compounds are seen to maintain their
inhibiting effect at all temperatures. The above
observations can be explained with respect to the
characteristic features of the cathodic process of
hydrogen evolution, where the decrease of the reaction
overpotential with rise in temperature leads to an
increase in the rate of cathodic reaction [28]. The
enhanced rates of hydrogen gas evolution will agitate
the interface, which hinders inhibitor adsorption and
also promotes dispersal of adsorbed inhibitor. Thus, the
reduction in % IE with rise in temperature could be
attributed to the shift of the adsorption-desorption
equilibrium towards desorption. Such behavior suggests
that investigated compounds were physically adsorbed
on Al-Si alloy [29].
3.18 3.20 3.22 3.24 3.26 3.28 3.30 3.32 3.34 3.36 3.38
-4.1
-4.0
-3.9
-3.8
-3.7
-3.6
-3.5
-3.4
-3.3
-3.2
R
2
= 0.96899
R
2
= 0.93810
R
2
= 0.92779
Blank
A
B
C
logjcorr
1000/T, K
-1
R
2
= 0.91227
Fig. 6 - Arrhenius plots (log jcorr vs. 1/ T) for Al-Si alloy
in 0.5 M H2SO4 in the absence and presence of
3 µmM of investigated inhibitors
A plot of (log jcorr vs. 1/T) gives straight lines with
slope Ea/2.303R. The intercept be A. Fig.6 represents the
relation between log (rate) and reciprocal of the absolute
temperature of Al-Si alloy in 0.5 M H2SO4 in the
presence and absence of investigated compounds. The
values of Ea are given in Table (5). Data of this Table
reveal high activation energies for the inhibition process
by different compounds, indicating their higher
protective efficiency [22]. It is clear that the activation
energy increases with increasing the efficiency of the
investigated compounds in the following order: C < B <
A. Such behavior is attributed to the formation of energy
barrier, due to the adsorption of the inhibitors on the
alloy surface forming a film. This is another pointer to
inhibitor physisorption.
Table 5 - Thermodynamic activation parameters for Al-
Si alloy dissolution in 0.5 M H2SO4 in absence
and presence of 3x10-6
M of investigated
inhibitors.
S*
Δ-
J mol-1
K-1
H*
Δ
kJ mol-1
E*
a
kJ mol-1Inhibitor
10163.866.3Blank
6476.286.9A
6675.978.2B
74.772.875.3C
An alternative formulation of arhenius equation is
the transition state equation [30].
jcorr = RT/Nh exp (ΔS*
/R)exp(-ΔH*
/RT) (10)
where h is the Planck’s constant, N is Avogadro number,
ΔS*
is the entropy change of activation and ΔH*
is the
enthalpy change of activation. Figure (7) shows a plot
of log (jcorr/T) against (1/T) straight line are obtained
with a slope of (-ΔH*
/2.303R) and intercept of (log
R/Nh + ΔS*
/2.303R) from which the value of ΔH*
& ΔS*
are calculated and are given in Table (5).
3.18 3.20 3.22 3.24 3.26 3.28 3.30 3.32 3.34 3.36 3.38
-6.6
-6.5
-6.4
-6.3
-6.2
-6.1
-6.0
-5.9
-5.8
-5.7
-5.6
Blank
A
B
C
log(jcorr
/T)
1000/T, K
-1
R
2
=0.93920
R
2
=0.93433
R
2
=0.92367
R
2
=0.90645
Fig. 7 - Arrhenius plots log jcorr/ T vs. (1/ T) for Al-Si
alloy in 0.5 M H2SO4 in the absence and
presence of 3 µm M of investigated inhibitors
7. A.S.FOUDA et al … CORROSION INHIBITION OF ALUMINUM-SILICON ALLOY ...
ZAŠTITA MATERIJALA 51 (2010) broj 3 139
From Table (5) it is clear that the positive value of
ΔH*
reflects the endothermic nature of dissolution
process. The Table also, shows that the presence of the
inhibitor produces higher values for ΔH*
than those
obtained for the uninhibited solution. This indicates
higher protection efficiency. This may be attributed to
the presence of an energy barrier for the reaction, that is,
the process of adsorption leads to a rise in enthalpy of
the corrosion process. In addition, the values of ΔS*
are
large and negative. This implies that the activated
complex in the rate determining step represents
association rather than dissociation meaning that a
decrease in disordering takes place on going from
reactants to activated complex and the increase in the
system order [31, 32].
3.5 Theoretical studies
To investigate the effect of ring structure on the
inhibition mechanism and efficiency some quantum
chemical calculations were performed.
Geometric and electronic structures of the inhibitors
were calculated by optimization of their bond lengths
and bond angles. The optimized molecular structures of
the inhibitors are given in Fig.8b. Highest occupied
molecular orbital (HOMO) and lowest unoccupied
molecular orbital (LUMO) energies, LUMO-HOMO
energy gap, dipole moment,µ, and inhibition efficiency
are given in Table 6.
Table 6 - Quantum chemical parameter for investigated
thiophene derivatives
PM3
liquid phase
-EH
eV
-EL
eV
∆E
eV
µ
Debye
A 9.704 0.743 8.061 2.513
B 8.957 0.825 8.132 1.480
C 8.801 0.565 8.236 1.402
EHOMO often is associated with the electron donating
ability of the molecule. High values of EHOMO are likely
to indicate a tendency of the molecule to donate
electrons to appropriate acceptor molecules with low
energy, empty molecular orbitals. Therefore, the energy
of the lowest unoccupied molecular orbitals indicates the
ability of the molecule to accept electrons. The lower the
value of ELUMO, the most probable it is that the molecule
accepts electron [33]. The percent inhibition efficiencies
increase if the molecules have higher or less negative
HOMO energies. The highest values of the HOMO
density were found in the vicinity of sulphur and
nitrogen atoms, clearly indicating the nucleophilic center
is the sulphur and nitrogen atoms (Fig. 8a).
Comp. HOMO LUMO
A
B
C
Fig. 8a - Optimized HOMO and LUMO structure of
some thiophene derivatives
Compound A
Compound B
Compound C
Fig. 8b - Optimized molecular structure with Mulliken
atomic charges of some thiophene derivatives
8. A.S.FOUDA et al … CORROSION INHIBITION OF ALUMINUM-SILICON ALLOY ...
ZAŠTITA MATERIJALA 51 (2010) broj 3140
Table 6 shows the calculated values of dipole
moment, µ, of the studied molecules. Highest dipole
moment values were observed with compound (A).
Other authors state that the inhibition efficiency
increases with increasing value of the dipole moment
[34] but on the other hand, a survey of literature reveals
that irregularities appeared in the case of correlation of
dipole moment with efficiency [35]. Also, from this
Table the value of ΔE (energy gap) decreased when
increasing the inhibition efficiency indicating that the
more of inhibitors, the stronger interaction between
inhibitors and metal surface. Thus, the interactions are
probably physical adsorption, and the interactions
between the inhibitors and the metal surface might be
ascribed to the hyper conjugation interactions-π stacking
[36].
As gathered from the higher values of EHOMO, dipole
moment and the lower values of ELUMO the order on
inhibition efficiency is as follows: A > B > C.
3.6. Mechanism of corrosion inhibition
Corrosion inhibition of aluminum-silicon alloy in
H2SO4 solution by the investigated thiophene derivatives
as indicated from potentiodynamic and impedance
techniques was found to depend on the concentration
and the nature of the inhibitor.
It is generally, assumed that adsorption of the in-
hibitor at the metal / solution interface is the first step in
the action mechanism of the inhibitors in aggressive acid
media. Four types of adsorption may take place during
inhibition involving organic molecules at the metal /
solution interface:
1) Electrostatic attraction between charged molecules
and charged metal.
2) Interaction of unshared electrons pairs in the
molecule with the metal.
3) Interaction of π electrons with the metal.
4) A combination of the above [37].
Concerning inhibitors, the inhibition efficiency
depends on several factors; such as: (i) the number of
adsorption sites and their charge density, (ii) molecular
size, heat of hydrogenation, (iii) mode of interaction
with the metal surface, and (iv) the formation metallic
complexes [38]. Most organic inhibitors contain at least
one polar group with an atom of nitrogen, sulfur or
oxygen, each of them in principle representing an
adsorption center. The inhibitive properties of such
compounds depend on the electron densities surrounding
the adsorption centers: the higher the electron density at
the center, the more the effective the inhibitor.
In the aqueous acidic solutions, investigated
compounds exist either as neutral molecules or in the
form of cations (protonated). In general two modes of
adsorption could be considered. The neutral form may
adsorb on the alloy surface via the chemisorption
mechanism, involving the displacement of water
molecules from the metal surface and the sharing
electrons between the N, O, and S atoms and Al. The
cationic form can also adsorb on the metal surface on
the basis of donor-acceptor interactions between π-
electrons of aromatic ring and vacant p-orbitals of Al.
On the other hand, it is well known that the Al surface
charges negative charge in acid solution [39, 40], so, the
protonated investigated compounds may adsorb through
electrostatic interactions between positively charged
molecules and the negatively charged metal surface.
When the protonated form is adsorbed on the metal
surface, a coordinate bond may be formed by partial
transference of electrons from N, O, and S atoms to the
metal surface. In addition, owing to lone-pair electrons
of N, O, and S atoms in the investigated compounds or
the protonated form may combine with freshly generated
Al3+
ions on Al surface forming metal inhibitor com-
plexes. These complexes might get adsorbed onto Al
surface by van der Waals force to form protective film
which covers both anodic and cathodic reaction sites on
the Al surface, and inhibits both reactions at the same
time.
In the investigated thiophene derivatives the effe-
ctive part in these molecules is the cyclopentane, cyclo-
hexane and cycloheptane. As known from the stereo
chemistry of these cycloalkanes the cyclopentane was
found to lie flat completely on the alloy surface so, it co-
vers larger areas of alloy surface than in case of cyc-
lohexane and cycloheptane which are partially lie flat on
the alloy surface. So, the inhibition efficiency of the in-
vestigated thiophene derivatives is as follows: A>B >C.
4. CONCLUSIONS
From the study the following conclusions can be
made:
i. Thiophene derivatives are good inhibitors of
corrosion of Al-Si alloy in H2SO4 and inhibit the
corrosion by being adsorbed onto the alloy surface.
ii. The adsorption behavior of the inhibitors is con-
sistent with Temkin adsorption model.
iii. The mechanism of physical adsorption is appli-
cable to the adsorption of the investigated thiophene
derivatives on surface of Al-Si alloy.
vi. The results of polarization indicated that these
investigated compounds are of anodic inhibitors.
v. As can seen, good agreement between poten-
tiodynamic polarization measurements, electrochemical
impedance measurements and quantum chemical
calculations is found.
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