Study of the influence of chemical composition of the
electrolyte on microhardness of the layer formed by anodic
oxidation of Aluminium

J 2013

Study of the influence of chemical composition of the electrolyte on microhardness of the layer formed by anodic oxidation of Aluminium

BADIDA, M, M GOMBÁR, Ján KMEC, L SOBOTOVÁ, A VAGASKÁ et. al.

Základní údaje

Originální název

Study of the influence of chemical composition of the electrolyte on microhardness of the layer formed by anodic oxidation of Aluminium

Autoři

BADIDA, M, M GOMBÁR, Ján KMEC, L SOBOTOVÁ, A VAGASKÁ a P MICHAL

Vydání

Chemicke Listy, Czech Society of Chemical Engineering, 2013, 0009-2770

Další údaje

Jazyk

angličtina

Typ výsledku

Článek v odborném periodiku

Obor

20506 Coating and films

Stát vydavatele

Česká republika

Utajení

není předmětem státního či obchodního tajemství

Organizační jednotka

Vysoká škola technická a ekonomická v Českých Budějovicích

Štítky

KSTR5, NAM_1

Změněno: 8. 4. 2014 13:33, Mgr. Václav Karas

Anotace

V originále

With the aim to improve mechanical properties of the layer formed by anodic oxidation of Al on the material EN-AW-1050-H24 the microhardness of the layer was investigated as a function of physical and chemical factors acting in the anodic oxidation at constant current density JA = 1 A dm-2. The electrolyte was a mixture of H2SO4 and oxalic acid. Emphasis was put on the effect of H2SO4 concentration ranging from 0.09 to 2.76 mol dm-3 on the microhardness. In the experiment were carried out 44 separate attempts with the change of the current values of the individual factors under defined levels for each implementation. With this in mind, the surface treatment processes are multifactorial systems where, except the main effects, reciprocal interactions are also very significantly influenced. Failure to respect these mutual relations of the operating agents, often leads to misconceptions and misinterpretations. Therefore, the paper also addresses the interaction of the chemical composition of the electrolyte with physical factors: time of anodizing, voltage and temperature of the electrolyte.

Citovat

BADIDA, M, M GOMBÁR, Ján KMEC, L SOBOTOVÁ, A VAGASKÁ a P MICHAL. Study of the influence of chemical composition of the electrolyte on microhardness of the layer formed by anodic oxidation of Aluminium. Chemicke Listy. Czech Society of Chemical Engineering, 2013, vol. 107, č. 12, s. 973-977, 4 s. ISSN 0009-2770.

@article{23822,
   author = {Badida, M and Gombár, M and Kmec, Ján and Sobotová, L and Vagaská, A and Michal, P},
   article_number = {12},
   language = {eng},
   issn = {0009-2770},
   journal = {Chemicke Listy},
   title = {Study of the influence of chemical composition of the electrolyte on microhardness of the layer formed by anodic oxidation of Aluminium},
   volume = {vol. 107},
   year = {2013}
}

TY  - JOUR
ID  - 23822
AU  - Badida, M - Gombár, M - Kmec, Ján - Sobotová, L - Vagaská, A - Michal, P
PY  - 2013
TI  - Study of the influence of chemical composition of the electrolyte on microhardness of the layer formed by anodic oxidation of Aluminium
JF  - Chemicke Listy
VL  - vol. 107
IS  - 12
SP  - 973-977
EP  - 973-977
PB  - Czech Society of Chemical Engineering
SN  - 00092770
N2  - With the aim to improve mechanical properties of the layer formed by anodic oxidation of Al on the material EN-AW-1050-H24 the microhardness of the layer was investigated as a function of physical and chemical factors acting in the anodic oxidation at constant current density JA = 1 A dm-2. The electrolyte was a mixture of H2SO4 and oxalic acid. Emphasis was put on the effect of H2SO4 concentration ranging from 0.09 to 2.76 mol dm-3 on the microhardness. In the experiment were carried out 44 separate attempts with the change of the current values of the individual factors under defined levels for each implementation. With this in mind, the surface treatment processes are multifactorial systems where, except the main effects, reciprocal interactions are also very significantly influenced. Failure to respect these mutual relations of the operating agents, often leads to misconceptions and misinterpretations. Therefore, the paper also addresses the interaction of the chemical composition of the electrolyte with physical factors: time of anodizing, voltage and temperature of the electrolyte.
ER  -

BADIDA, M, M GOMBÁR, Ján KMEC, L SOBOTOVÁ, A VAGASKÁ a P MICHAL. Study of the influence of chemical composition of the electrolyte on microhardness of the layer formed by anodic oxidation of Aluminium. \textit{Chemicke Listy}. Czech Society of Chemical Engineering, 2013, vol. 107, č.~12, s.~973-977, 4 s. ISSN~0009-2770.

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