Thin metallic multilayer films consisting of nanometer layer thickness deposited on different substrates have
shown promising mechanical, electrical and magnetical properties, especially for applications in fabrication of
microelectromechanical (MEMS) structures and wear-resistant applications.
Electrodeposition of Ni/Cu multilayer films on substrates of (111)-oriented single crystal Si and 100μm-thick
electrodeposited Ni film was carried out using dual-bath technique (DBT). The current density values was maintained
at 10 mA cm-2 and projected thickness of deposit was 5μm. Vickers microhardness of Ni/Cu thin multilayer films was
investigated. The substrate starts to contribute the measured hardness at penetration depths of the order of 0.07 - 0.20
times the film thickness. The measured “composite hardness” is a complex value that depends on the microstructure
and the hardness of the film and the substrate and their relative differences.
Ni/Cu films on (111)-oriented Si wafer a...nd 100μm-thick electrodeposited Ni film as the substrates can be thought as
“soft film on hard substrate” composite systems. Chicot-Lesage model based on the model for reinforced composites
can be applied to experimental data for all specimen and the film hardness was calculated for each indentation
diagonal. The values obtained for the film hardness HF are not constant for all types of these composite systems, but
influenced by the applied load.
TY - CONF
AU - Lamovec, Jelena
AU - Jović, Vesna
AU - Mladenović, Ivana
AU - Popović, Bogdan
AU - Radojević, Vesna
PY - 2014
UR - http://www.vti.mod.gov.rs/oteh14/index.htm
UR - https://cer.ihtm.bg.ac.rs/handle/123456789/3832
AB - Thin metallic multilayer films consisting of nanometer layer thickness deposited on different substrates have
shown promising mechanical, electrical and magnetical properties, especially for applications in fabrication of
microelectromechanical (MEMS) structures and wear-resistant applications.
Electrodeposition of Ni/Cu multilayer films on substrates of (111)-oriented single crystal Si and 100μm-thick
electrodeposited Ni film was carried out using dual-bath technique (DBT). The current density values was maintained
at 10 mA cm-2 and projected thickness of deposit was 5μm. Vickers microhardness of Ni/Cu thin multilayer films was
investigated. The substrate starts to contribute the measured hardness at penetration depths of the order of 0.07 - 0.20
times the film thickness. The measured “composite hardness” is a complex value that depends on the microstructure
and the hardness of the film and the substrate and their relative differences.
Ni/Cu films on (111)-oriented Si wafer and 100μm-thick electrodeposited Ni film as the substrates can be thought as
“soft film on hard substrate” composite systems. Chicot-Lesage model based on the model for reinforced composites
can be applied to experimental data for all specimen and the film hardness was calculated for each indentation
diagonal. The values obtained for the film hardness HF are not constant for all types of these composite systems, but
influenced by the applied load.
PB - Belgrade : Military Technical Institute
C3 - Proceedings - 6th International scientific conference on defensive technologies-proceedings, Belgrade, Serbia
T1 - Effect of substrate type on microhardness of multilayer thin film composite system
SP - 680
EP - 683
ER -
@conference{
author = "Lamovec, Jelena and Jović, Vesna and Mladenović, Ivana and Popović, Bogdan and Radojević, Vesna",
year = "2014",
url = "http://www.vti.mod.gov.rs/oteh14/index.htm, https://cer.ihtm.bg.ac.rs/handle/123456789/3832",
abstract = "Thin metallic multilayer films consisting of nanometer layer thickness deposited on different substrates have
shown promising mechanical, electrical and magnetical properties, especially for applications in fabrication of
microelectromechanical (MEMS) structures and wear-resistant applications.
Electrodeposition of Ni/Cu multilayer films on substrates of (111)-oriented single crystal Si and 100μm-thick
electrodeposited Ni film was carried out using dual-bath technique (DBT). The current density values was maintained
at 10 mA cm-2 and projected thickness of deposit was 5μm. Vickers microhardness of Ni/Cu thin multilayer films was
investigated. The substrate starts to contribute the measured hardness at penetration depths of the order of 0.07 - 0.20
times the film thickness. The measured “composite hardness” is a complex value that depends on the microstructure
and the hardness of the film and the substrate and their relative differences.
Ni/Cu films on (111)-oriented Si wafer and 100μm-thick electrodeposited Ni film as the substrates can be thought as
“soft film on hard substrate” composite systems. Chicot-Lesage model based on the model for reinforced composites
can be applied to experimental data for all specimen and the film hardness was calculated for each indentation
diagonal. The values obtained for the film hardness HF are not constant for all types of these composite systems, but
influenced by the applied load.",
publisher = "Belgrade : Military Technical Institute",
journal = "Proceedings - 6th International scientific conference on defensive technologies-proceedings, Belgrade, Serbia",
title = "Effect of substrate type on microhardness of multilayer thin film composite system",
pages = "680-683"
}
Lamovec J, Jović V, Mladenović I, Popović B, Radojević V. Effect of substrate type on microhardness of multilayer thin film composite system. Proceedings - 6th International scientific conference on defensive technologies-proceedings, Belgrade, Serbia. 2014;:680-683
Lamovec, J., Jović, V., Mladenović, I., Popović, B.,& Radojević, V. (2014). Effect of substrate type on microhardness of multilayer thin film composite system.
Proceedings - 6th International scientific conference on defensive technologies-proceedings, Belgrade, SerbiaBelgrade : Military Technical Institute., 680-683.
Lamovec Jelena, Jović Vesna, Mladenović Ivana, Popović Bogdan, Radojević Vesna, "Effect of substrate type on microhardness of multilayer thin film composite system" (2014):680-683
