Thin Ni and Cu films with fine-grained structures have been electrodeposited from self-made sulphamate-based and sulphate-based electrolytes, respectively. DC electrodeposition of Ni films was performed on single crystal Si wafers with different orientations named (100) and (111), and electrodeposition of Cu films was performed on massive electrodeposited Ni films as the substrates. In order to investigate the influence of the microstructure of the substrates and Ni and Cu thin films on mechanical properties of these composite structures, Vickers microhardness testing for different loads was done. For any composite system of thin film on a substrate, there is a critical indentation depth,1 when a measured hardness value is not the hardness of the electrodeposited film, but the so-called "composite hardness", because the substrate also participates in the plastic deformations during the indentation process. Composite hardness model of Chicot-Lesage was chosen and applied to the experime...ntal data in order to analyse and determine the absolute film hardness. Further analysis of work hardening parameter (t/d)m, that can express the difference in tendency of the composite hardness with the indentation load, was performed for the above-mentioned composite systems.
Кључне речи:
composite hardness / Vickers microhardness / composite hardness models / electrodeposition / thin films / work hardening parameter
Извор:
Proceedings - 5th International scientific conference on defensive technologies-proceedings, Belgrade, Serbia, 2012, 570-575
TY - CONF
AU - Lamovec, Jelena
AU - Jović, Vesna
AU - Mladenović, Ivana
AU - Sarajlić, Milija
AU - Radojević, Vesna
PY - 2012
UR - http://www.vti.mod.gov.rs/oteh12/index.htm
UR - https://cer.ihtm.bg.ac.rs/handle/123456789/3831
AB - Thin Ni and Cu films with fine-grained structures have been electrodeposited from self-made sulphamate-based and sulphate-based electrolytes, respectively. DC electrodeposition of Ni films was performed on single crystal Si wafers with different orientations named (100) and (111), and electrodeposition of Cu films was performed on massive electrodeposited Ni films as the substrates. In order to investigate the influence of the microstructure of the substrates and Ni and Cu thin films on mechanical properties of these composite structures, Vickers microhardness testing for different loads was done. For any composite system of thin film on a substrate, there is a critical indentation depth,1 when a measured hardness value is not the hardness of the electrodeposited film, but the so-called "composite hardness", because the substrate also participates in the plastic deformations during the indentation process. Composite hardness model of Chicot-Lesage was chosen and applied to the experimental data in order to analyse and determine the absolute film hardness. Further analysis of work hardening parameter (t/d)m, that can express the difference in tendency of the composite hardness with the indentation load, was performed for the above-mentioned composite systems.
PB - Belgrade : Military Technical Institute
C3 - Proceedings - 5th International scientific conference on defensive technologies-proceedings, Belgrade, Serbia
T1 - Microindentation hardness testing of different composite systems with thin electrodeposited nickel and copper films
SP - 570
EP - 575
ER -
@conference{
author = "Lamovec, Jelena and Jović, Vesna and Mladenović, Ivana and Sarajlić, Milija and Radojević, Vesna",
year = "2012",
url = "http://www.vti.mod.gov.rs/oteh12/index.htm, https://cer.ihtm.bg.ac.rs/handle/123456789/3831",
abstract = "Thin Ni and Cu films with fine-grained structures have been electrodeposited from self-made sulphamate-based and sulphate-based electrolytes, respectively. DC electrodeposition of Ni films was performed on single crystal Si wafers with different orientations named (100) and (111), and electrodeposition of Cu films was performed on massive electrodeposited Ni films as the substrates. In order to investigate the influence of the microstructure of the substrates and Ni and Cu thin films on mechanical properties of these composite structures, Vickers microhardness testing for different loads was done. For any composite system of thin film on a substrate, there is a critical indentation depth,1 when a measured hardness value is not the hardness of the electrodeposited film, but the so-called "composite hardness", because the substrate also participates in the plastic deformations during the indentation process. Composite hardness model of Chicot-Lesage was chosen and applied to the experimental data in order to analyse and determine the absolute film hardness. Further analysis of work hardening parameter (t/d)m, that can express the difference in tendency of the composite hardness with the indentation load, was performed for the above-mentioned composite systems.",
publisher = "Belgrade : Military Technical Institute",
journal = "Proceedings - 5th International scientific conference on defensive technologies-proceedings, Belgrade, Serbia",
title = "Microindentation hardness testing of different composite systems with thin electrodeposited nickel and copper films",
pages = "570-575"
}
Lamovec J, Jović V, Mladenović I, Sarajlić M, Radojević V. Microindentation hardness testing of different composite systems with thin electrodeposited nickel and copper films. Proceedings - 5th International scientific conference on defensive technologies-proceedings, Belgrade, Serbia. 2012;:570-575
Lamovec, J., Jović, V., Mladenović, I., Sarajlić, M.,& Radojević, V. (2012). Microindentation hardness testing of different composite systems with thin electrodeposited nickel and copper films.
Proceedings - 5th International scientific conference on defensive technologies-proceedings, Belgrade, SerbiaBelgrade : Military Technical Institute., 570-575.
Lamovec Jelena, Jović Vesna, Mladenović Ivana, Sarajlić Milija, Radojević Vesna, "Microindentation hardness testing of different composite systems with thin electrodeposited nickel and copper films" (2012):570-575
