Relevant bibliographies by topics / Corrosion effects

Academic literature on the topic 'Corrosion effects'

Author: Grafiati
Published: 10 December 2022
Last updated: 29 January 2023

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Journal articles on the topic "Corrosion effects"

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Wachira, Jackson Muthengia. "Effects of Chlorides on Corrosion of Simulated Reinforced Blended Cement Mortars." International Journal of Corrosion 2019 (March 27, 2019): 1–7. http://dx.doi.org/10.1155/2019/2123547.

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Cementitious materials are subject to degradation when subjected to corrosive chloride media. This paper reports the experimental results on corrosion studies conducted on a potential cementitious material, PCDC, made from a blend of 55 % Ordinary Portland Cement (OPC), Dried Calcium Carbide Residue (DCCR), and an incineration mix of Rice Husks (RH), Spent Beaching Earth (SBE), and Ground Reject Bricks (BB). The experiments were run along 100 % OPC. Different w/c were used. Corrosion current densities using linear polarisation resistance (LPR) and corrosion potentials measurements versus saturated calomel electrode were used for the determination of corrosion rates and potentials, respectively, for simulated reinforcement at different depths of cover in the cement mortars. The results showed that PCDC exhibited higher corrosion current densities over all depths of covers and early attainment of active corrosion than the control cements. In conclusion, PCDC and OPC can be used in a similar corrosive media during construction.
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Sun, Qi Lei, Li Zhang, Jie Dong, and Lu Hua He. "Study on Electrochemical Behavior of Prestressed Reinforcement in Simulated Concrete Solution." Applied Mechanics and Materials 357-360 (August 2013): 917–20. http://dx.doi.org/10.4028/www.scientific.net/amm.357-360.917.

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Using electrochemical impedance spectroscop (EIS) and polarization curve technique, the electrochemical behavior of prestressed reinforcement under different stress levels was studied in simulated concrete solution. The results show that: As the stress increasing, the impedance spectroscopy changes significantly, the entire impedance spectroscopy shows an elongated semi-circular deformation, high-frequency capacitance arc radius corrosion decreases with the corrosion progress, in other words, the reaction resistance decreases, the corrosion rate of the sample increases. And when the galvanized steel is in 1064MPa stresss condition, corrosion current density reaches the maximum, is 9 times larger than that of none stress corrosions condition. Under the combined effects of the external stress and corrosive media, dislocation can be emitted, value-added and moves. When it reached a critical state, it would lead to the crack nucleation of Stress corrosion cracking (SCC).
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Martin, Holly J., M. F. Horstemeyer, and Paul T. Wang. "Effects of Variations in Salt-Spray Conditions on the Corrosion Mechanisms of an AE44 Magnesium Alloy." International Journal of Corrosion 2010 (2010): 1–10. http://dx.doi.org/10.1155/2010/602342.

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The understanding of how corrosion affects magnesium alloys is of utmost importance as the automotive and aerospace industries have become interested in the use of these lightweight alloys. However, the standardized salt-spray test does not produce adequate corrosion results when compared with field data, due to the lack of multiple exposure environments. This research explored four test combinations through three sets of cycles to determine how the corrosion mechanisms of pitting, intergranular corrosion, and general corrosion were affected by the environment. Of the four test combinations, Humidity-Drying was the least corrosive, while the most corrosive test condition was Salt Spray-Humidity-Drying. The differences in corrosivity of the test conditions are due to the various reactions needed to cause corrosion, including the presence of chloride ions to cause pit nucleation, the presence of humidity to cause galvanic corrosion, and the drying phase which trapped chloride ions beneath the corrosion by-products.
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Ye, Jianhui, Shijie Bai, Xinke He, Jianbin Chen, and Chao Xie. "Effects of Orientations, Roughnesses, and Cavities on Stress-Corrosion Coupled Damage in Magnesium." Crystals 12, no. 5 (April 28, 2022): 635. http://dx.doi.org/10.3390/cryst12050635.

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Orientations, roughnesses, and cavities of crystals are typical factors influencing the servicing reliability of metals in corrosive environments. A phase-field scheme for modeling stress-corrosion coupled damage (SCCD) is developed. The effects of the crystal factors on SCCD are numerically simulated using the incremental-iterative scheme of the user-defined finite elements. The impacts of orientations, roughnesses, and cavities on the corrosion rate of magnesium (Mg) in corrosive environments are discussed quantitatively. It is found that crystal textures and surface roughnesses can significantly influence the diffusion-controlled corrosion rate. Strong basal texture and a smooth surface of the crystal can significantly enhance the corrosion resistance of Mg. The cavity, as a typical crystal defect, is capable of inducing the damage path and modulating the corrosion rate. The design of crystal-scale features, such as orientations, roughnesses, and cavities, is promising for the enhancement of the resistance to SCCD.
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Rodrigues, Karina V., Luiz A. Lima, and Michael S. Thebaldi. "Effects of fertigation on corrosion in galvanized steel used in center pivot systems." Water Supply 20, no. 4 (February 27, 2020): 1189–94. http://dx.doi.org/10.2166/ws.2020.029.

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Abstract One of the main causes of agricultural equipment deterioration is corrosion. In center pivot irrigation systems, deterioration mainly occurs in galvanized steel pipelines. Fertigation can increase corrosion because fertilizers become corrosive when exposed to water or moisture; this corrosion reduces the service lifetime of the equipment. In this study, fertigation-induced corrosion was evaluated in specimens of galvanized steel (similar to that used in center pivot systems), simulating 10 years of operation comprising 5 fertigations per year with a duration of 7 hours each. Immersion tests were performed in solutions containing 0, 5 and 10 g/L fertilizer concentrations to obtain the mass loss per unit area of the metallic material, which increased in response to increases in both the exposure time in the corrosive environment and the fertilizer concentration. The results showed that fertigation increases corrosion in galvanized steel and the higher fertilizer concentration leads to a higher corrosion, since, for the same exposure time, the mass loss for the 10 g/L solution was 43% greater than the 5 g/L.
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Peng, Dongdong, Kang Huang, Yuntao He, Zhan Zhang, Yi Wang, and Junsheng Wu. "Hybrid sol-gel coating incorporated with TiO2 nanosheets and anti-corrosive effects on AA2024-T3." Anti-Corrosion Methods and Materials 66, no. 2 (February 21, 2019): 215–21. http://dx.doi.org/10.1108/acmm-08-2018-1980.

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Purpose This paper aims to improve the anti-corrosive properties of aluminum alloy AA2024-T3 by coating of hybrid sol-gel coating incorporated with TiO2 nanosheets and to investigate the effect of nanosheets’ size on the improvement of corrosion-resistant performance. Design/methodology/approach A series of hybrid sol-gel films incorporated with varying amounts of TiO2 nanosheets were developed to enhance the corrosion protection performance of the bare metal. Scanning electron microscopy, transmission electron microscopy and atomic force microscopy were used to investigate the structure and morphology of the coatings obtained. In addition, the corrosion-resistant properties of the coatings were evaluated using salt spray test and electrochemical impedance spectroscopy. Findings The corrosion current was as low as 9.55 × 10-4 µA/cm2 and optimal positive corrosion potential reached −0.6 V when the size and loading amount of TiO2 nanosheet were optimized, resulting in a remarkable improvement in anti-corrosive properties. Originality/value This work first investigates the effect of incorporation of TiO2 nanoparticles on hybrid sol-gel coating on the improvement of anti-corrosive performance of aluminum alloy AA2024-T3.
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Zakaria, Mohammad, Suryanto, and Irfan Hilmy. "Effects of Surfactant on Corrosion Behavior of Carbon Steel in Simulated Crude Oil." Advanced Materials Research 1115 (July 2015): 223–25. http://dx.doi.org/10.4028/www.scientific.net/amr.1115.223.

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Enhanced Oil Recovery (EOR) is a technique used in oil and gas industries to increase the amount of crude oil production by injection of brine, a mixture of surfactant, water and seawater. As the results, crude oil contains brine which is corrosive. Surfactant is used to lessen the corrosion effect in addition to increase flowing of oil. In this study, the effect of surfactant on corrosion behavior of carbon steel in simulated enhanced oil recovery crude was investigated. Autoclave machine was used to perform corrosion experiment in the oxygen free environments. Corrosion rate was measure using weight loss method. The results show that surfactant reduces corrosion rate of carbon steel from 0.061 mm/y to 0.042 mm/y and the corrosion type on carbon steel was uniform corrosion.
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Zhang, Youzhen, Zicheng zhong, Peiying Mou, Junjie Shao, and Ning Zhang. "Study on Stress Corrosion Characteristics of Drill Rod Joint Under Mechanical Effects." E3S Web of Conferences 248 (2021): 01061. http://dx.doi.org/10.1051/e3sconf/202124801061.

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Thanks to the complex underground environment that coal mines enjoy, drill rods for mining are vulnerable to corrosion during operation. To investigate the impact of the corrosion defects on the residual intensity of the drill rod, a relational expression of stress versus corrosion rate in the conditions of uniform and local corrosions is deduced based on the theory on mechanochemical effects; building on this, a spherical corrosion defect is developed in the joint of a φ73 mm drill rod while it is exerted with a make-up torque, an axial force and a bending moment. So it is found that, when the corrosion defect is under pressure, the bending moment plays a certain role to inhibit its increase, however when it is under tension, the bending moment plays the role to drive its increase so as to quicken its corrosion rate while the impact of the change in the corrosion detect depth is much greater than that of the radius. The result from the research provides a basis to evaluate the residual intensity of the drill rod and theoretical basis to protect drill rods from corrosion.
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Ahmad Saupi, Siti Rumaisha, Nur Ain Haris Abdul Haris, Mohamad Najmi Masri, Muhammad Azwadi Sulaiman, Bashree Abu Bakar, Mohd Hazim Mohamad Amini, Mazlan Mohamed, and Nik Alnur Auli Nik Yusuf. "Effects of Soil Physical Properties to the Corrosion of Underground Pipelines." Materials Science Forum 840 (January 2016): 309–14. http://dx.doi.org/10.4028/www.scientific.net/msf.840.309.

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Corrosion of metals in soil be able to change from comparatively fast material loss to insignificant effects, depending on soil environment. Corrosion is a process of deterioration of metal surfaces degraded into another compound. Soil is one of the medium known to have constituted to corrosion of metals. The soil creates an environment for the corrosion to react. The buried pipelines are exposed to the soil that may experience corrosion attack. The study of the soil as corrosion environment is important to mitigate the problem due to the environment and economy. There are factors that contribute to the corrosion process. This study concentrates on corrosion properties that expose to soil environment particularly underground pipelines. The mild steel coupons taken from actual pipelines, stimulating and analyzing the physic-chemical characteristics of the soil environment. The soil is sandy clay in natural. A total summed index of 2 numerical scale, thus, indicates that the soil tested was mildly to non-corrosive. The corrosion rate increase with increasing of moisture content and pH value. The observations on the coupon surface also did in order to study the morphology.
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Bellan, J., and S. Elghobashi. "Fuel-Composition Effects on High-Temperature Corrosion in Industrial/Commercial Boilers and Furnaces: A Review." Journal of Engineering for Gas Turbines and Power 107, no. 3 (July 1, 1985): 744–57. http://dx.doi.org/10.1115/1.3239797.

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In this review, literature relevant to the problems of deposits and corrosion in industrial/commercial furnaces and boilers is analyzed, and the facts are synthesized into a picture that addresses corrosion problems expected with the use of unconventional fuels. Corrosion is found to depend greatly on the phenomena occurring during the combustion of fuel-oil sprays introduced into the furnace. In a first step, the drops that form the spray heat up and evaporate in a way that closely resembles a batch distillation process. Eventually, ignition and combustion occur with the subsequent change of the liquid fuel drops into carbonaceous, porous, sphere-like particles called cenospheres. In a second step, these cenospheres burn and the products of this combustion step determine the majority of the deposits on metal surfaces. This observation is very important since nonvolatile, non-combustible, corrosive trace compounds existing in the initial fuel-oil drop will have a much higher concentration in the cenosphere than in the original fuel. Accordingly, it is recommended that the theoretical and experimental study of oil spray combustion, cenosphere formation, and cenosphere combustion in a cloud of cenospheres receive a very high priority. Corrosion by gases is found to be unimportant. Deposits are found to be much more corrosive when in liquid form, although corrosion by solid deposits is by no means negligible. As a result, it is suggested in the study that corrosion on highly polished metal surfaces should be studied in order to evaluate the potential of this method of inhibiting deposition and thus hindering corrosion. Recent advances in the theory of deposition from combustion gases are also outlined in this study. The literature survey shows that the main corrosion-causing fuel constituents present in unconventional fuels are sulfur, alkali, vanadium, carbon and carbon monoxide, iron, and chloride. It is found that sometimes one of these compounds might act as a catalyst in corrosive reactions initiated by another compound, and therefore great care must be taken to identify the corrosion-causing compound in the deposits on metal surfaces. It is also found that in some cases a corrosive compound will inhibit the corrosive action of another corrosive compound. It is recommended that such situations be studied further so as to investigate the possibility of an optimum concentration of two such corrosive compounds that would minimize metal wastage. The problem of performing meaningful corrosion experiments is also addressed in this report and specific recommendations are made to achieve this goal. Finally, the effects of additives and the furnace operating conditions are discussed, and potential problems with both additives and new operating conditions are mentioned. The recommendations at the end of this study present a comprehensive set of areas to be investigated in order to better understand and be able to mitigate corrosion problems associated with unconventional fuels. High-priority experimental and theoretical studies are also outlined.
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Dissertations / Theses on the topic "Corrosion effects"

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Ostrofsky, David. "Effects of corrosion on steel reinforcement." [Tampa, Fla.] : University of South Florida, 2007. http://purl.fcla.edu/usf/dc/et/SFE0002258.

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Upchurch, Marian. "The Effects of Chlorine on Boiler Corrosion." TopSCHOLAR®, 1994. http://digitalcommons.wku.edu/theses/954.

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The amount of corrosion of six metal samples was measured by a change in weight over time. The simulated flue gas stream consisted of 0.2% SO2,14% C02 / and 4% O2, with the HC1 percentage varied from 0.2% to 0.0% and the balance of gas being N2. A Lindbergh Three Temperature Tube Furnace was used to house the metal samples at 100°C, 200°C, and 600°C while being subjected to the simulated flue gas stream. The six metal samples were chosen on the frequency of industrial use. Two carbon steels, C1018 and C1010, contain no chromium and were chosen because of their popularity in older coal combustor systems. The other four samples, F l l , F22, Alloy 800, and 310 SS, are chromium containing metals that were chosen to indicate corrosion inhibitory effects. These four chromium containing samples are commonly used for replacement parts in areas that are prone to high corrosion effects. Weight loss due to corrosion shows a direct relationship to the concentration of HC1 in the flue gas stream for the F l l , F22, and C1018 samples. The greatest amount of weight loss was seen in the 0.2% HC1 and the least for the three samples when there was no HC1 in the flue gas stream. The C1010 sample had the greatest amount of weight loss under the 0.01% HC1 concentration, slightly less for the 0.2% HC1, and finally a weight gain for the 0.0% HC1 run. At no concentration did samples Alloy 800 and 310 SS exhibit any weight change. As for temperature considerations, the greatest amount of change in the samples was seen for the 600°C runs. The 200°C run produced no change in weight for any of the samples, due to the lack of condensation that would facilitate corrosion at low temperatures. For the 100°C runs, the flue gas containing 0.2% HC1, 0.2% S02,14% SO2,4% O2, and the balance N2, caused a change in weight for F l l , F22, C1010, and C1018. This change was not as great as that for the 600°C run. The other two 100°C runs produced no change in weight. Chromium content of the metals can also be related to the amount of corrosion. The high percentage chromium metals, Alloy 800 and 310 SS, showed no weight change in any of the runs. Low chromium containing samples, Fll and F22, showed a loss of weight at all 600°C runs and also for the 100°C subjected to the 0.2% HC1 flue gas stream. The C1010 and C1018 samples contain no chromium and have the most erratic results. These samples gained in weight for the 600°C run for the 0.0% HC1 gas and lost weight for the two other 600°C runs. Also, weight loss for these samples was observed for the 100°C run under 0.2% HC1. Corrosion of the samples begins and proceeds rather quickly until an oxide layer is formed. Once the oxide layer has formed, the amount of corrosion is dependent on the stability of that layer and the diffusion rate of the gases.
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Liu, Xiaodong. "Effects of stress on intergranular corrosion and intergranular stress corrosion cracking in AA2024-T3." Columbus, Ohio : Ohio State University, 2005. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1133313637.

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Stanish, Kyle David. "Corrosion effects on bond strength in reinforced concrete." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp04/mq29397.pdf.

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Gowda, Sunil. "MULTI-SCALE EFFECTS OF CORROSION ON STEEL STRUCTURES." University of Akron / OhioLINK, 2016. http://rave.ohiolink.edu/etdc/view?acc_num=akron1469007207.

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Namahoot, Jutatip. "Effects of deformations on corrosion of Al-Mn alloys." Thesis, University of Birmingham, 2005. http://etheses.bham.ac.uk//id/eprint/108/.

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Wrought Al-Mn alloys can develop a thin deformed layer on the surface as a result of hot and cold rolling. Subsequent heat-treatment precipitates fine secondary intermetallic particles which effect corrosion susceptibility. This work focuses on the effect of surface preparation and deformation on the electrochemical behaviour of Al-Mn alloys. The first part of the work investigated the effect of surface preparation such as mechanical grinding and polishing, alkaline etching and desmutting, and nitric acid treatment on electrochemical behaviour of an Al-1Mn-0.4Fe-0.3Si model alloy. Different surface preparations of this alloy show different electrochemical behaviour. In the second part of the work, the electrochemical reactivity of the surface layers of commercial rolled AA3005 sheet was investigated by profiling through the surface with GDOES (glow discharge optical emission spectroscopy). The microstructure and electrochemical reactivity was examined at different depths in order to compare the behaviour of the surface layers with that of the bulk alloy. In order to understand the role of deformation on corrosion behaviour of Al-Mn alloy, an Al-1Mn-0.4Fe-0.3Si model alloy was deformed by uniaxial compression and equal channel angular extrusion (ECAE) and followed by annealing. It was found that deformation is likely to have two effects on the surface of Al-Mn alloy. One effect is to cause the precipitation of particles that act as local cathodes and pit initiation sites. The other effect is that formation of precipitates will deplete the adjacent matrix in solute, making it more susceptible to dissolution.
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Kao, Tsu-Mu 1958. "Incorporating flow-accelerated corrosion effects into probabilistic risk assessment." Thesis, Massachusetts Institute of Technology, 1998. http://hdl.handle.net/1721.1/9402.

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Bakare, Mayowa Sunday. "The effects of microstructural modifications on corrosion resistance of metallic corrosion resistant materials Inconel 625 and FeCrMoCB." Thesis, University of Nottingham, 2011. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.546474.

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Malka, Ramakrishna. "Erosion Corrosion and Synergistic Effects in Disturbed Liquid-Particle Flow." Ohio University / OhioLINK, 2005. http://rave.ohiolink.edu/etdc/view?acc_num=ohiou1125603562.

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Stone, Erica. "EFFECTS OF ORTHOPHOSPHATE CORROSION INHIBITOR IN BLENDED WATER QUALITY ENVIRONMENTS." Doctoral diss., University of Central Florida, 2008. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/2961.

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This study evaluated the effects of orthophosphate (OP) inhibitor addition on iron, copper, and lead corrosion on coupons exposed to different blends of groundwater, surface water, and desalinated seawater. The effectiveness of OP inhibitor addition on iron, copper, and lead release was analyzed by statistical comparison between OP treated and untreated pilot distribution systems (PDS). Four different doses of OP inhibitor, ranging from zero (control) to 2 mg/L as P, were investigated and non-linear empirical models were developed to predict iron, copper, and lead release from the water quality and OP doses. Surface characterization evaluations were conducted using X-ray Photoelectron Spectroscopy (XPS) analyses for each iron, galvanized steel, copper, and lead/tin coupon tested. Also, a theoretical thermodynamic model was developed and used to validate the controlling solid phases determined by XPS. A comparison of the effects of phosphate-based corrosion inhibitor addition on iron, copper, and lead release from the PDSs exposed to the different blends was also conducted. Three phosphate-based corrosion inhibitors were employed; blended orthophosphate (BOP), orthophosphate (OP), and zinc orthophosphate (ZOP). Non-linear empirical models were developed to predict iron, copper, and lead release from each PDS treated with different doses of inhibitor ranging from zero (control) to 2 mg/L as P. The predictive models were developed using water quality parameters as well as the inhibitor dose. Using these empirical models, simulation of the water quality of different blends with varying alkalinity and pH were used to compare the inhibitors performance for remaining in compliance for iron, copper and lead release. OP inhibitor addition was found to offer limited improvement of iron release for the OP dosages evaluated for the water blends evaluated compared to pH adjustment alone. Empirical models showed increased total phosphorus, pH, and alkalinity reduced iron release while increased silica, chloride, sulfate, and temperature contributed to iron release. Thermodynamic modeling suggested that FePO4 is the controlling solid that forms on iron and galvanized steel surfaces, regardless of blend, when OP inhibitor is added for corrosion control. While FePO4 does not offer much control of the iron release from the cast iron surfaces, it does offer protection of the galvanized steel surfaces reducing zinc release. OP inhibitor addition was found to reduce copper release for the OP dosages evaluated for the water blends evaluated compared to pH adjustment alone. Empirical models showed increases in total phosphorus, silica, and pH reduced copper release while increased alkalinity and chloride contributed to copper release. Thermodynamic modeling suggested that Cu3(PO4)2•2H2O is the controlling solid that forms on copper surfaces, regardless of blend, when OP inhibitor is added for corrosion control. OP inhibitor addition was found to reduce lead release for the OP dosages evaluated for the water blends evaluated compared to pH adjustment alone. Empirical models showed increased total phosphorus and pH reduced lead release while increased alkalinity, chloride, and temperature contributed to lead release. Thermodynamic modeling suggested that hydroxypyromorphite is the controlling solid that forms on lead surfaces, regardless of blend, when OP inhibitor is added for corrosion control. The comparison of phosphate-based inhibitors found increasing pH to reduce iron, copper, and lead metal release, while increasing alkalinity was shown to reduce iron release but increase copper and lead release. The ZOP inhibitor was not predicted by the empirical models to perform as well as BOP and OP at the low dose of 0.5 mg/L as P for iron control, and the OP inhibitor was not predicted to perform as well as BOP and ZOP at the low dose of 0.5 mg/L as P for lead control. The three inhibitors evaluated performed similarly for copper control. Therefore, BOP inhibitor showed the lowest metal release at the low dose of 0.5 mg/L as P for control of iron, copper, and lead corrosion.
Ph.D.
Department of Civil and Environmental Engineering
Engineering and Computer Science
Environmental Engineering PhD
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Books on the topic "Corrosion effects"

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Chaker, V., and JD Palmer, eds. Effects of Soil Characteristics on Corrosion. 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959: ASTM International, 1989. http://dx.doi.org/10.1520/stp1013-eb.

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Hienonen, Risto. Corrosion and climatic effects in electronics. Espoo [Finland]: Technical Research Centre of Finland, 2000.

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Stanish, Kyle David. Corrosion effects on bond strength in reinforced concrete. Ottawa: National Library of Canada = Bibliothèque nationale du Canada, 1999.

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Beavers, J. A. Environmental effects on corrosion in the tuff repository. Washington, DC: Division of Engineering, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1990.

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Murzghi, I. A. The effects of alloying elements on corrosion and embrittlement. Manchester: UMIST, 1993.

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Sim, L. M. The effects of scales on erosion-corrosion of alloys. Manchester: UMIST, 1997.

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Florian, Mansfeld, Electrochemical Society Corrosion Division, and Electrochemical Society Electronics Division, eds. Proceedings of the Symposia on Corrosion Effects of Acid Deposition and Corrosion of Electronic Materials. Pennington, NJ (10 S. Main St., Pennington 08534-2896): Electrochemical Society, 1986.

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Elias, Wiliam Shila. Effects of silica fume on corrosion resistance of reinforced concrete. Ottawa: National Library of Canada = Bibliothèque nationale du Canada, 1991.

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Glammar, Daniel E. Water chemistry effects on dissolution rates of lead corrosion products. Denver, Colorado: Water Research Foundation, 2010.

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Development, North Atlantic Treaty Organization Advisory Group for Aerospace Research and. Erosion, corrosion and foreign object damage effects in gas turbines. Neuilly sur Seine, France: AGARD, 1994.

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Book chapters on the topic "Corrosion effects"

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Tidblad, Johan, Vladimir Kucera, and Susan Sherwood. "Corrosion Corrosion." In The Effects of Air Pollution on Cultural Heritage, 53–103. Boston, MA: Springer US, 2009. http://dx.doi.org/10.1007/978-0-387-84893-8_3.

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Efird, K. D. "Flow Effects on Corrosion." In Uhlig's Corrosion Handbook, 203–13. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2011. http://dx.doi.org/10.1002/9780470872864.ch17.

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Efird, K. D. "Controlling Flow Effects on Corrosion." In Uhlig's Corrosion Handbook, 901–5. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2011. http://dx.doi.org/10.1002/9780470872864.ch64.

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Efird, K. D. "Testing for Flow Effects on Corrosion." In Uhlig's Corrosion Handbook, 1059–62. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2011. http://dx.doi.org/10.1002/9780470872864.ch75.

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John, Vernon. "Oxidation, Corrosion and Other Effects." In Introduction to Engineering Materials, 419–33. London: Palgrave Macmillan UK, 1992. http://dx.doi.org/10.1007/978-1-349-21976-6_28.

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Dmytrakh, I. M. "On Corrosion Fatigue Initiation from Notches and the Local Corrosion Fracture Approaches." In Notch Effects in Fatigue and Fracture, 331–46. Dordrecht: Springer Netherlands, 2001. http://dx.doi.org/10.1007/978-94-010-0880-8_21.

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Enhou, Han, and Xu Kuangdi. "Irradiation Corrosion, Causes and Effects of." In The ECPH Encyclopedia of Mining and Metallurgy, 1. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-0740-1_63-1.

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Baorong, Hou, and Xu Kuangdi. "Marine Corrosion, Causes and Effects of." In The ECPH Encyclopedia of Mining and Metallurgy, 1–2. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-0740-1_240-1.

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Krishnan, K. N., J. F. Knott, and M. Strangwood. "Hydrogen Embrittlement During Corrosion Fatigue of Duplex Stainless Steel." In Hydrogen Effects in Materials, 689–96. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118803363.ch60.

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Phromwong, P., Derek Lister, and S. Uchida. "Modelling Material Effects in Flow-Accelerated Corrosion." In Proceedings of the 15th International Conference on Environmental Degradation of Materials in Nuclear Power Systems — Water Reactors, 925–37. Cham: Springer International Publishing, 2011. http://dx.doi.org/10.1007/978-3-319-48760-1_56.

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Conference papers on the topic "Corrosion effects"

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"Strength-Increasing Effects of a Chloride-Free Accelerator." In "SP-102: Corrosion, Concrete, & Chlorides". American Concrete Institute, 1987. http://dx.doi.org/10.14359/1620.

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"Effects of Anti-Icing Agents on the Durability of Concrete." In SP-291: Corrosion of Reinforcing Steel in Concrete - Future Direction: Proceedings-Hope & Schupack Corrosion Symposium. American Concrete Institute, 2013. http://dx.doi.org/10.14359/51685615.

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"Effects of Two Non-Chloride Accelerating Agents on Setting Characteristics of Portland Cement Mortars." In "SP-102: Corrosion, Concrete, & Chlorides". American Concrete Institute, 1987. http://dx.doi.org/10.14359/1635.

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Culley, Scott Anthony. "ATF Additive Effects on Lead Corrosion." In Powertrain & Fluid Systems Conference & Exhibition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2005. http://dx.doi.org/10.4271/2005-01-3861.

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Fischer, Michael, Marcus Gamino, and Raresh Pascali. "Evaluating Synergistic Effects of Corrosion in Petroleum Service." In ASME 2013 32nd International Conference on Ocean, Offshore and Arctic Engineering. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/omae2013-11064.

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Corrosion within the petroleum industry is a growing concern due to crude composition and a trend toward higher pressure, higher temperature environments. Relevant to corrosion are the processes through which materials are qualified for corrosive environments. This study evaluates the current status of testing materials for erosion and electrochemical attack and suggests a new method for testing.
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Dugstad, Arne, Simona Palencsár, Tonje Berntsen, and Linda Børvik. "Corrosion of Steel Armour Wires in Flexible Pipes - History Effects." In SPE International Oilfield Corrosion Conference and Exhibition. Society of Petroleum Engineers, 2018. http://dx.doi.org/10.2118/190907-ms.

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Sarasini, Fabrizio. "Environmental effects on impact damage resistance and tolerance of composite laminates." In 1st Corrosion and Materials Degradation Web Conference. Basel, Switzerland: MDPI, 2021. http://dx.doi.org/10.3390/cmdwc2021-09946.

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Pyszel, Richard. "Effects of Fretting Corrosion on Lift Glass." In SAE 2011 World Congress & Exhibition. 400 Commonwealth Drive, Warrendale, PA, United States: SAE International, 2011. http://dx.doi.org/10.4271/2011-01-1434.

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Shi, Xianming, and Mehdi Honarvar Nazari. "A comparison between the effects of different deicers on external corrosion of buried pipes." In 1st Corrosion and Materials Degradation Web Conference. Basel, Switzerland: MDPI, 2021. http://dx.doi.org/10.3390/cmdwc2021-09999.

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Cao, Huaixiang, Hao Zhang, and Xingqi Qiu. "Effects of Stress on Pitting Corrosion Behavior of Low-Carbon Steel." In ASME 2013 Pressure Vessels and Piping Conference. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/pvp2013-97127.

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Low-carbon steel Q235B was widely used in low or middle pressure equipments, which were not only withstanding the corrosive effect of the environment or medium, but also the high stress in service processes. In this paper, acetic acid accelerated corrosion test of low-carbon steel Q235B under the action of various stress levels was conducted, and its pitting corrosion behavior was studied by corrosion morphology, pitting corrosion parameters, scanning electron microscope (SEM) and energy disperse spectroscopy (EDS). The results showed that, the degree of pitting corrosion of low carbon steel Q235B with stress was more serious than that of non-stress. And the corrosion started from grain boundary, which was corroded before grain itself, and then grains fell off or dissolved. Furthermore, it would have the tendency of deep hole corrosion with stress, which was more of a threat to the structural safety of pressure vessels.
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Reports on the topic "Corrosion effects"

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Rebak, R. Localized Corrosion of Alloy 22 -Fabrication Effects-. Office of Scientific and Technical Information (OSTI), November 2005. http://dx.doi.org/10.2172/899403.

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Johnson, A. B. Jr. Radiation effects on corrosion of zirconium alloys. Office of Scientific and Technical Information (OSTI), June 1989. http://dx.doi.org/10.2172/6316113.

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Beavers, J. A., and N. G. Thompson. Environmental effects on corrosion in the Tuff repository. Office of Scientific and Technical Information (OSTI), February 1990. http://dx.doi.org/10.2172/137678.

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Duquette, D. J., and D. Steiner. The effects of radiolysis of the corrosion and stress corrosion behavior of 316 stainless steels. Office of Scientific and Technical Information (OSTI), July 1992. http://dx.doi.org/10.2172/10152411.

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Duquette, D. J., and D. Steiner. The effects of radiolysis of the corrosion and stress corrosion behavior of 316 stainless steels. Office of Scientific and Technical Information (OSTI), January 1992. http://dx.doi.org/10.2172/5062748.

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Duquette, D. J., and D. Steiner. The effects of radiolysis on the corrosion and stress corrosion behavior of 316 stainless steels. Office of Scientific and Technical Information (OSTI), September 1993. http://dx.doi.org/10.2172/10176337.

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Rebak, R. Localized Corrosion of Alloy 22 -Fabrication Effects-FY05 Summary Report. Office of Scientific and Technical Information (OSTI), October 2005. http://dx.doi.org/10.2172/883822.

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Imrich, K. J. Overview of Corrosion, Erosion, and Synergistic Effects of Erosion and Corrosion in the WTP Pre-treatment Facility. Office of Scientific and Technical Information (OSTI), March 2015. http://dx.doi.org/10.2172/1177888.

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BROWN MH. EFFECTS OF CHEMISTRY AND OTHER VARIABLES ON CORROSION AND STRESS CORROSION CRACKING IN HANFORD DOUBLE SHELL TANKS. Office of Scientific and Technical Information (OSTI), November 2008. http://dx.doi.org/10.2172/943299.

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Thompson, C. D., D. M. Carey, and N. L. Perazzo. Effects of hydrogen on electropotential monitoring of stress corrosion crack growth. Office of Scientific and Technical Information (OSTI), August 1997. http://dx.doi.org/10.2172/319836.

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