Научная статья на тему 'ANODIC BEHAVIOR OF ZN0.5AL ZINC ALLOY DOPED WITH NEODYMIUM'

ANODIC BEHAVIOR OF ZN0.5AL ZINC ALLOY DOPED WITH NEODYMIUM Текст научной статьи по специальности «Биотехнологии в медицине»

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Ключевые слова
ZN0.5AL ALLOY / NEODYMIUM / POTENTIOSTATIC METHOD / SPEED OF CORROSION / ANODIC BEHAVIOR

Аннотация научной статьи по биотехнологиям в медицине, автор научной работы — Hamroqul Firuzi, Jobirov Umed, Ganiev Izatullo, Obidov Ziyodullo

The article discusses the experimental results on the study of the effect of neodymium additives on the anodic behavior of the Zn0.5Al zinc alloy.

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Текст научной работы на тему «ANODIC BEHAVIOR OF ZN0.5AL ZINC ALLOY DOPED WITH NEODYMIUM»

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METALLURGY AND MATERIALS SCIENCE

ANODIC BEHAVIOR OF Zn0.5Al ZINC ALLOY DOPED WITH NEODYMIUM

Firuzi Hamroqul

Doctoral student (PhD, Institute of Chemistry named after V.I. Nikitin of the NAST, Republic of Tajikistan, Dushanbe city E-mail: [email protected]

Umed Jobirov

Doctoral student (PhD), Institute of Chemistry named after V.I. Nikitin of the NAST, Republic of Tajikistan, Dushanbe city

Izatullo Ganiev

doctor of Chemical Sciences, Professor, Academician of NAST, Institute of Chemistry named after V.I. Nikitin of the NAS of Tajikistan,

Republic of Tajikistan, Dushanbe

Ziyodullo Obidov

Doctor of Chemical Sciences, Professor, Tajik Technical University named after academician M.S. Osimi,

Republic of Tajikistan, Dushanbe

АНОДНОЕ ПОВЕДЕНИЕ ЦИНКОВОГО СПЛАВА Zn0.5Al, ЛЕГИРОВАННОГО НЕОДИМОМ

Фирузи Хамрокул

докторант (PhD), Институт химии им. В.И. Никитина НАНТ, Республика Таджикистан, г. Душанбе

Джобиров Умед Рустамович

докторант (PhD), Институт химии им. В.И. Никитина НАНТ, Республика Таджикистан, г. Душанбе

Ганиев Изатулло Наврузович

д-р хим. наук, профессор, академик НАНТ, Институт химии им. В.И. Никитина НАН Таджикистана, Республика Таджикистан, г. Душанбе

Обидов Зиёдулло Рахматович

д-р хим. наук, профессор, Таджикский технический университет имени академика М.С. Осими,

Республика Таджикистан, г. Душанбе

ABSTRACT

The article discusses the experimental results on the study of the effect of neodymium additives on the anodic behavior of the Zn0.5Al zinc alloy.

АННОТАЦИЯ

В статье рассматриваются экспериментальные результаты по изучению влияния добавок неодима на анодное поведение цинкового сплава Zn0.5Al.

Библиографическое описание: ANODIC BEHAVIOR OF Zn0.5Al ZINC ALLOY DOPED WITH NEODYMIUM // Universum: технические науки : электрон. научн. журн. Firuzi H. [и др.]. 2022. 3(96). URL: https://7universum.com/ru/tech/archive/item/13247

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Keywords: Zn0.5Al alloy, neodymium, potentiostatic method, speed of corrosion, anodic behavior. Ключевые слова: сплав Zn0.5Al, неодим, потенциостатический метод, скорость коррозии, анодное поведение.

Introduction. The particular importance is the use of means and methods of combating various types of corrosion, which is important for ensuring the prospects for the development of technical progress in the field of modern industry. [1]. Zinc and aluminum-zinc protective coatings today occupies a leading position in the field of coating the surfaces of structures and various products made of low-, medium- and high-carbon steels, therefore, they will protect these structures from corrosion [2, 3]. The results of the development and study of various properties of Zn-Al alloy coatings with a number of elements of the table of the periodic system are discussed in [4-6]. Also in [7-9] some information is given about the significant behavior of these alloys as an anode-coating in various corrosive environments.

Objective. The purpose of this work is to study the effect of neodymium additives on the anodic behavior of Zn0.5Al zinc alloy in an acidic environment.

Methods. When conducting corrosion studies of alloys with the participation of neodymium of various concentrations, a potentiostatic method was used [10].

Results. The time dependence of the free corrosion potential of alloys plays an important role in establishing surface passivity in acidic environment. Changes in the free corrosion potential of the Zn0.5Al zinc alloy doped with neodymium, in time, in environments of the HCl electrolyte, were recorded for one hour. They indicated the potential shift to the positive side which is observed for all studied groups of alloys. Stabilization of alloys occurs by 35 minutes of the corrosion process (table 1).

Table 1.

Changes in the free corrosion potential (-Ef.corr., V) of the Zn0.5Al alloy doped neodymium, in time

Medium of HCl, n Additives Nd in the alloy, wt% Alloy holding time, minutes

1/3 2/3 1 5 15 35 50 60

Q.QQ1 0.0 1.Q32 1.Q32 1.Q31 1.Q29 1.Q25 1.Q25 1.Q25 1.Q25

0.01 Q.917 Q.916 Q.915 Q.913 Q.91Q Q.897 Q.897 Q.897

0.05 Q.913 Q.91Q Q.9Q8 Q.9Q4 Q.9Q1 Q.883 Q.883 Q.883

0.1 Q.876 Q.874 Q.874 Q.868 Q.864 Q.852 Q.852 Q.852

0.5 Q.95Q Q.95Q Q.945 Q.942 Q.94Q Q.929 Q.929 Q.929

1.0 Q.964 Q.963 Q.961 Q.958 Q.953 Q.945 Q.945 Q.945

Q.Q1 0.0 1.Q56 1.Q55 1.Q5Q 1.Q5Q 1.Q48 1.Q48 1.Q48 1.Q48

0.01 Q.974 Q.974 Q.972 Q.963 Q.958 Q.949 Q.949 Q.949

0.05 Q.956 Q.955 Q.954 Q.942 Q.939 Q.927 Q.927 Q.927

0.1 Q.922 Q.92Q Q.919 Q.913 Q.9Q7 Q.9Q5 Q.9Q5 Q.9Q5

0.5 Q.976 Q.973 Q.972 Q.97Q Q.966 Q.957 Q.957 Q.957

1.0 1.QQ1 Q.999 Q.998 Q.994 Q.985 Q.974 Q.974 Q.974

Q.1 0.0 1.216 1.215 1.213 1.213 1.21Q 1.21Q 1.21Q 1.21Q

0.01 1.QQ1 1.QQQ Q.992 Q.991 Q.987 Q.975 Q.975 Q.975

0.05 Q.992 Q.991 Q.988 Q.983 Q.976 Q.967 Q.967 Q.967

0.1 Q.986 Q.986 Q.984 Q.971 Q.962 Q.953 Q.953 Q.953

0.5 1.Q25 1.Q24 1.Q13 1.QQ7 1.QQQ Q.99Q Q.99Q Q.99Q

1.0 1.Q27 1.Q25 1.Q23 1.Q18 1.Q1Q 1.QQ8 1.QQ8 1.QQ8

However, the potentials of corrosion, pitting formation and repassivation shift into the positive area resulting in a further increase in the amount of the doped components before 0.5 wt% neodymium. It was found that with an increase in the concentration of hydrochloric acid

electrolyte and doped component, the corrosion potential desrease, which indirectly indicates a desrease in the anticorrosion resistant of alloys as the aggressiveness of the corrosive environment increases (table 2).

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Table 2.

Anode characteristics of Zn0.5Al zinc alloy doped with neodymium

Medium of HCl, n Content of Nd in the alloy, wt% Electrochemical potentials, V Corrosion rate

-Ef.corr. -Ecorr. ^pf. -Erep. icorr.-1Ü2 K1Ü3

А/m2 g/m2 • h

0.001 - 1.025 1.033 0.845 0.853 0.116 1.41

0.01 0.897 0.915 0.802 0.813 0.090 1.10

0.05 0.883 0.901 0.795 0.802 0.086 1.05

0.1 0.852 0.873 0.788 0.793 0.089 1.08

0.5 0.929 0.930 0.818 0.823 0.093 1.13

1.0 0.945 0.950 0.820 0.830 0.098 1.19

0.01 - 1.048 1.058 0.892 0.900 0.127 1.55

0.01 0.949 0.963 0.850 0.861 0.101 1.23

0.05 0.927 0.945 0.845 0.851 0.095 1.16

0.1 0.905 0.913 0.835 0.838 0.083 1.01

0.5 0.957 0.964 0.860 0.874 0.109 1.33

1.0 0.974 0.981 0.866 0.877 0.113 1.38

0.1 - 1.210 1.216 0.920 0.936 0.133 1.62

0.01 0.975 0.980 0.885 0.886 0.112 1.36

0.05 0.967 0.970 0.880 0.888 0.106 1.29

0.1 0.953 0.960 0.873 0.894 0.104 1.27

0.5 0.990 1.000 0.891 0.901 0.120 1.46

1.0 1.008 1.022 0.896 0.909 0.123 1.50

Generally, alloys with additives neodymium within

0.0.0.1 wt% have low values of anodic corrosion rate

as compared to the initial Zn0.5Al zinc alloy.

References:

1. Uhlig H.H., Revie R.W. Corrosion and corrosion control. An Introduction to Corrosion Science and Engineering. -Leningrad: Chemistry, 1989. - 456 p. [In Russian].

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2. Kechin V.A., Lyblinskii E.Ya. Zinc alloys. - Moscow: Metallurgy, 1986. - 247 p. [In Russian].

3. Vitkin A.I., Teindl I.I. Metal coverings of a sheet and strip steel. - Moscow: Metallurgy, 1971. - 493 p. [In Russian].

4. Lin K.L., Yang C.F., Lee J.T. Correlation of microstructure with corrosion and electrochemical behaviours of the bach-type hot-dip Al-Zn coatings: Part 2. 55% Al-Zn coatings // Corrosion. - 1991. - Vol. 47. No 4. - P. 17-30.

5. Mazilkin A.A., Straumal B.B., Borodachenkova M.V., Valiev R.Z., Kogtenkova O.A., Baretzky B. Gradual softening of Al-Zn alloys during high-pressure torsion // Materials Letters. - 2012. - Vol. 84. - P. 63-65.

6. Lin K.L., Yang C.F., Lee J.T. Correlation of microstructure with corrosion and electrochemical behaviours of the bachtype hot-dip Al-Zn coatings: Part 1. Zn and 5% Al-Zn coatings // Corrosion. - 1991. - Vol. 47. No 4. - P. 9-13.

7. Amini R.N., Irani M., Ganiev I., Obidov Z. Galfan I and Galfan II Doped with Calcium, Corrosion Resistant Alloys // Oriental Journal of Chemistry. - 2014. - Vol. 30. No 3. - P. 969-973.

8. Obidov Z.R. Effect of pH on the Anodic Behavior of Beryllium and Magnesium Doped Alloy Zn55Al // Russian Journal of Applied Chemistry. - 2015. - Vol. 88. No 9. - P. 1451-1457.

9. Obidov Z.R. Anodic Behavior and Oxidation of Strontium-Doped Zn5Al and Zn55Al Alloys // Protection of Metals and Physical Chemistry of Surfaces. - 2012. - Vol. 48. No 3. - P. 352-355.

10. Kolotirkin Ya.M. Metal and corrosion. - Moscow: Metallurgy, 1985. - 88 p. [In Russian].

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