Corrosion Policy Decision Making. Группа авторов
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      2 2 Javaherdashti, R. and Akvan, F. (2020). Failure Modes, Effects and Causes of Microbiologically Influenced Corrosion: Advanced Perspectives and Analysis. Elsevier.

      3 3 Javaherdashti, R. and Akvan, F. (2017). Hydrostatic Testing, Corrosion, and Microbiologically Influenced Corrosion: A Field Manual for Control and Prevention. Boca Raton, Florida: CRC Press.

      4 4 Javaherdashti, R. and Nikraz, H. (2010). A Global Warning on Corrosions and Environment: A New Look at Existing Technical and Managerial Strategies and Tactics. VDM Germany.

      5 5 Javaherdashti, R. and Alasvand, K. (2019). Biological Treatment of Microbial Corrosion. Elsevier.

      6 6 Javaherdashti, R. (2015). Corrosion and Biofilm. In: Biofilm and Materials Science (eds. H. Kanematsu and D. Barry), 79–83. Springer.

      7 7 Munger, C.G. and Vincent, L.D. (2014). Corrosion Protection by Protective Coatings. Houston, TX: NACE International ISBN: 575902621 9781575902623.

      8 8 Schweitzer, P.A. (2007). Fundamental of metallic corrosion: Atmospheric media corrosion of metals. CRC Press – Taylor & Francis.

      9 9 Přikryl, R., Smith, B.J., and European Geosciences Union. General Assembly; Geological Society of London (2007). Building Stone Decay: From Diagnosis to Conservation, 295. ISBN: 78‐1‐86 239‐218‐2. Geological Society (accessed 26 September 2012).

      10 10 Ghanbarzadeh, A., Neshati, J., Bagherzadeh, M.R. et al. (2013). Atmospheric corrosion map of an oil refinery. Anti Corrosion Methods and Materials 60: 106–114.

      11 11 ISO 12944‐Part1 to 8, Paints and varnishes – Corrosion protection of steel structures by protective paint systems. ISI standard, 2017.

      12 12 BS 5493, Code of practice for Protective coating of iron and steel structures against corrosion (Formerly CP 2008), UDC 624.014.2:691.71:620.197.6, BS Standard, 1977.

      13 13 Akbarinezhad, E., Faridi, H.R., and Ghanbarzadeh, A. (2009). Evaluation of zinc rich ethyl silicate primer by applying electrochemical methods. Journal Surface Engineering 25 (2): 163–166.

      14 14 Hess, M., Mamburg, H.R., and Morgans, W.M. (1979). Paint Film Defects, Their Courses and Cure, 3e. London: Chapman and Hall ISBN: 47099018X 9780470990186.

      15 15 Solverchem (2017). Industrial Paints Formulation Encyclopedia 2. Solverchem Publications Company, ISNN 9786056715730.

      16 16 SSPC Painting Manual (2009). Systems and Specifications, Society for Protective Coatings, vol. 2. Pittsburgh, PA: SSPC.

      17 17 Bagherzadeh, M.R., Jorsaraie, A., Ghanbarzadeh, A. et al. (2018). Preparation and investigation of anticorrosion performance of water‐based epoxy coating containing nanohybrid of supercritical CO2‐synthesized self‐doped polyaniline – expanded graphite. Journal of Coatings Technology and Research 15: 1–14.

      18 18 Akbarinezhad, E., Ebrahimi, M., Sharif, F. et al. (2014). Evaluating protection performance of zinc rich epoxy paints modified with polyaniline and polyaniline‐clay nanocomposite. Progress in Organic Coatings 77 (8): 1299–1308.

      19 19 ASTM D4541 – 17 (2017). Standard Test Method for Pull‐Off Strength of Coatings Using Portable Adhesion Testes. West Conshohocken, PA: ASTM International.

      20 20 ASTM D2247 – 15 2020 (2020). Standard Practice for Testing Water Resistance of Coatings in 100% Relative Humidity. West Conshohocken, PA: ASTM International.

      21 21 ASTM B117 – 19 (2019). Standard Practice for Operating Salt Spray (Fog) Apparatus. West Conshohocken, PA: ASTM International.

      Notes

      1 * https://www.linkedin.com/in/dr-reza-javaherdashti-9a2a2415.

      2  .https://www.linkedin.com/in/ali-ghanbarzadeh-a5abba55

      3 1 Examples in this regards can be that oxidation implies that oxygen is involved or must be involved in the corrosion process. While for many cases it is true, for an even larger number this may not necessarily be taken as a true statement (take, for example, MIC by anaerobic sulfate reducing bacteria). Therefore, it is always better to address electrons giving off reactions as “anodic reactions.” In addition, “corrosion under deposit” does not say anything about the corrosion mechanism(s) involved, it just indicates where corrosion is taking place, which is, of course, under deposits. If the involved corrosion mechanism(s) are not specified, mere use of “under deposit corrosion” is a useless, pseudo‐professional statement. Dissimilar metal corrosion is yet another technically wrong expression; this corrosion process that is correctly referred to as “galvanic corrosion” can happen on the same metals but with different conditions that will make their electrochemical properties become different. Welding a new pipe of smaller surface area (length) to the same size of the same pipe material that has been already in use for some time makes the former become anodic to the latter as the old pipe could actually act as a cathode, due to factors such as being covered with a layer of rust. Thus, never replace the right term “galvanic corrosion” with the wrong term “dissimilar metal corrosion.” Biofilm implies a film that has a totally biological fabric. Both implications are incorrect; biofilm is neither a film nor is 100% biological. In our publications, we have proposed another term which is “temenos” to compensate for these misunderstandings and faults.

      4 2 In some sources, the reasons put forward for the rejection and creation of problems in of Purbaix's PhD thesis and graduation are described as “The war and some confusion among the jury on the sign of electrode potential.”

      5 3 Engineering Encyclopedia, Saudi Aramco DeskTop Standards, entitled “MATERIALS OF CONSTRUCTION FOR PRESSURE VESSELS” considers corrosion allowance an important measure to control corrosion. On page 6 of this Desktop standard it reads verbatim “The most common method that is used to address corrosion in pressure vessels is to specify a corrosion allowance.” While corrosion allowance is certainly not a corrosion treatment measure in the way that, for example, physical, chemical, or electrical treatment measure are, and despite that corrosion allowance is used in limited industries, it cannot be denied that these industries are themselves of appreciable importance to all industry sectors.

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