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Correction to Materials 2020, 13(12), 2836.
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Correction

Correction: Lara-Banda, M., et al. Alternative to Nitric Acid Passivation of 15-5 and 17-4PH Stainless Steel Using Electrochemical Techniques. Materials 2020, 13, 2836

by
María Lara-Banda
1,
Citlalli Gaona-Tiburcio
1,
Patricia Zambrano-Robledo
1,
Marisol Delgado-E
1,
José A. Cabral-Miramontes
1,
Demetrio Nieves-Mendoza
2,
Erick Maldonado-Bandala
2,
Francisco Estupiñan-López
1,
José G. Chacón-Nava
3 and
Facundo Almeraya-Calderón
1,*
1
Universidad Autonoma de Nuevo Leon, FIME—Centro de Investigación e Innovación en ingeniería Aeronáutica (CIIIA), Av. Universidad s/n. Ciudad Universitaria, San Nicolás de los Garza, Nuevo León 66455, Mexico
2
Facultad de Ingeniería Civil, Universidad Veracruzana, Xalapa, Veracruz 91000, Mexico
3
Centro de Investigación en Materiales Avanzados (CIMAV), Miguel de Cervantes 120, Complejo Industrial Chihuahua, Chihuahua, Chih 31136, Mexico
*
Author to whom correspondence should be addressed.
Materials 2020, 13(23), 5322; https://doi.org/10.3390/ma13235322
Submission received: 17 November 2020 / Accepted: 19 November 2020 / Published: 24 November 2020
(This article belongs to the Special Issue Advanced Coatings for Corrosion Protection)
Versions Notes
The author wishes to make the following correction to this paper [1]. Due to mislabeling, replace:
Table
Table 3. Electrochemical noise parameters at various conditions in 5 wt. % NaCl at 49 °C.
Table 3. Electrochemical noise parameters at various conditions in 5 wt. % NaCl at 49 °C.
Passivated AgentStainless Steel
Inoxidable		Time (min)Rn (Ω/cm2)icorr (mA/cm2)LICorrosion Type
Citric acid15-5PH608.01 × 1046.49 × 1040.0862Mixed
905.00 × 1051.04 × 1040.0308Mixed
17-4PH605.76 × 1044.51 × 1040.2492Localized
903.27 × 1051.59 × 1040.0900Mixed
Nitric acid15-5PH602.35 × 1061.1 × 105 0.1871Localized
901.51 × 1061.72 × 1050.1077Localized
17-4PH601.03 × 1062.52 × 1050.1485Localized
901.34 × 1061.94 × 1040.1727Localized
Table
Table 4. Potentiodynamic polarization parameters in stainless steels passivated at 49 °C, in 5 wt. % NaCl.
Table 4. Potentiodynamic polarization parameters in stainless steels passivated at 49 °C, in 5 wt. % NaCl.
Passivated AgentStainless SteelTime (min)Ecorr (mV)Epit (mV)icorr (mA/cm2)C. R. (mm/year)
Citric Acid15-5PH60−323425.26 × 1055.54 × 107
90−2661474.50 × 1054.75 × 107
17-4PH60−335919.22 × 1059.64 × 107
90−360975.38 × 1055.63 × 107
Nitric Acid15-5PH60−2284672.16 × 1052.28 × 107
90−2287652.27 × 1052.39 × 107
17-4PH60−2714393.51 × 1053.67 × 107
90−2793234.41 × 1054.61 × 107
with
Table
Table 3. Electrochemical noise parameters at various conditions in 5 wt. % NaCl at 49 °C.
Table 3. Electrochemical noise parameters at various conditions in 5 wt. % NaCl at 49 °C.
Passivated AgentStainless Steel Time (min)Rn (Ω/cm2)icorr (mA/cm2)LICorrosion Type
Citric acid15-5PH608.01 × 10−46.49 × 10−40.0862Mixed
905.00 × 10−51.04 × 10−40.0308Mixed
17-4PH605.76 × 10−44.51 × 10−40.2492Localized
903.27 × 10−51.59 × 10−40.0900Mixed
Nitric acid15-5PH602.35 × 10−61.1 × 10−50.1871Localized
901.51 × 10−61.72 × 10−50.1077Localized
17-4PH601.03 × 10−62.52 × 10−50.1485Localized
901.34 × 10−61.94 × 10−40.1727Localized
Table
Table 4. Potentiodynamic polarization parameters in stainless steels passivated at 49 °C, in 5 wt. % NaCl.
Table 4. Potentiodynamic polarization parameters in stainless steels passivated at 49 °C, in 5 wt. % NaCl.
Passivated AgentStainless SteelTime (min)Ecorr (mV)Epit (mV)icorr (mA/cm2)C. R. (mm/year)
Citric Acid15-5PH60−323425.26 × 10−55.54 × 10−7
90−2661474.50 × 10−54.75 × 10−7
17-4PH60−335919.22 × 10−59.64 × 10−7
90−360975.38 × 10−55.63 × 10−7
Nitric Acid15-5PH60−2284672.16 × 10−52.28 × 10−7
90−2287652.27 × 10−52.39 × 10−7
17-4PH60−2714393.51 × 10−53.67 × 10−7
90−2793234.41 × 10−54.61 × 10−7
The authors would like to apologize for any inconvenience caused to the readers by these changes.

Reference

  1. Lara-Banda, M.; Gaona-Tiburcio, C.; Zambrano-Robledo, P.; Delgado-E, M.; Cabral-Miramontes, J.; Nieves-Mendoza, D.; Maldonado-Bandala, E.; Estupiñan-López, F.; Chacón-Nava, J.; Almeraya-Calderón, F. Alternative to Nitric Acid Passivation of 15-5 and 17-4PH Stainless Steel Using Electrochemical Techniques. Materials 2020, 13, 2836. [Google Scholar] [CrossRef]
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MDPI and ACS Style

Lara-Banda, M.; Gaona-Tiburcio, C.; Zambrano-Robledo, P.; Delgado-E, M.; Cabral-Miramontes, J.A.; Nieves-Mendoza, D.; Maldonado-Bandala, E.; Estupiñan-López, F.; Chacón-Nava, J.G.; Almeraya-Calderón, F. Correction: Lara-Banda, M., et al. Alternative to Nitric Acid Passivation of 15-5 and 17-4PH Stainless Steel Using Electrochemical Techniques. Materials 2020, 13, 2836. Materials 2020, 13, 5322. https://doi.org/10.3390/ma13235322

AMA Style

Lara-Banda M, Gaona-Tiburcio C, Zambrano-Robledo P, Delgado-E M, Cabral-Miramontes JA, Nieves-Mendoza D, Maldonado-Bandala E, Estupiñan-López F, Chacón-Nava JG, Almeraya-Calderón F. Correction: Lara-Banda, M., et al. Alternative to Nitric Acid Passivation of 15-5 and 17-4PH Stainless Steel Using Electrochemical Techniques. Materials 2020, 13, 2836. Materials. 2020; 13(23):5322. https://doi.org/10.3390/ma13235322

Chicago/Turabian Style

Lara-Banda, María, Citlalli Gaona-Tiburcio, Patricia Zambrano-Robledo, Marisol Delgado-E, José A. Cabral-Miramontes, Demetrio Nieves-Mendoza, Erick Maldonado-Bandala, Francisco Estupiñan-López, José G. Chacón-Nava, and Facundo Almeraya-Calderón. 2020. "Correction: Lara-Banda, M., et al. Alternative to Nitric Acid Passivation of 15-5 and 17-4PH Stainless Steel Using Electrochemical Techniques. Materials 2020, 13, 2836" Materials 13, no. 23: 5322. https://doi.org/10.3390/ma13235322

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