Add to ORKGNanostructured metallic multilayers with carefully designed mechanical and functional properties are omnipresent in cutting edge technological applications. To ensure the mechanical integrity of such coatings, the Mode I critical Stress Intensity Factor KIC is used to quantify their fracture toughness in order to avoid material failure by appropriate design. In this article, we present a novel approach for the KIC determination of thin and ultrathin films on compliant substrate, based on micro-displacement field analysis using Digital Image Correlation within SEM. Using this method, KIC of a Cu/W nano-multilayer with a total coating thickness of 240 nm was determined as KIC=4.8±0.05MPam, showing excellent agreement with the values publ...
Delamination between the copper leadframe and the epoxy molding compound of microelectronic devices ...
Abstract—Nanoindentation for measuring thin film mechanical properties is probably the most popular ...
Driven by the ongoing miniaturization and increasing integration in microelectronics devices, very t...
Nanostructured metallic multilayers with carefully designed mechanical and functional properties are...
AbstractNanoscale metallic multilayers based on Cu/W have been considered as a potential material fo...
Nanoscale metallic multilayers based on Cu/W have been considered as a ...
When thin metallic multilayers deposited on a compliant polymer substrate are subjected to stretchin...
International audienceAn experimental method for a single layer is extended to determine the elastic...
Thin films and multilayered structures are increasingly used in the industry. One of the important m...
This paper presents a comprehensive study on determining the interface adhesive strength of the poly...
Development of flexible thin film systems for biomedical, homeland security and environmental sensin...
Over the last years, miniaturization caused increasingly complex thin film combinations and geometri...
Thin brittle coatings with thickness of a few nanometres deposited on flexible polymer substrates fo...
Abstract ─ For the polymer-supported metal thin films that are finding increasing applications, the ...
Cu Nb nanoscale metallic multilayers have been extensively investigated to understand how their mech...
Delamination between the copper leadframe and the epoxy molding compound of microelectronic devices ...
Abstract—Nanoindentation for measuring thin film mechanical properties is probably the most popular ...
Driven by the ongoing miniaturization and increasing integration in microelectronics devices, very t...
Nanostructured metallic multilayers with carefully designed mechanical and functional properties are...
AbstractNanoscale metallic multilayers based on Cu/W have been considered as a potential material fo...
Nanoscale metallic multilayers based on Cu/W have been considered as a ...
When thin metallic multilayers deposited on a compliant polymer substrate are subjected to stretchin...
International audienceAn experimental method for a single layer is extended to determine the elastic...
Thin films and multilayered structures are increasingly used in the industry. One of the important m...
This paper presents a comprehensive study on determining the interface adhesive strength of the poly...
Development of flexible thin film systems for biomedical, homeland security and environmental sensin...
Over the last years, miniaturization caused increasingly complex thin film combinations and geometri...
Thin brittle coatings with thickness of a few nanometres deposited on flexible polymer substrates fo...
Abstract ─ For the polymer-supported metal thin films that are finding increasing applications, the ...
Cu Nb nanoscale metallic multilayers have been extensively investigated to understand how their mech...
Delamination between the copper leadframe and the epoxy molding compound of microelectronic devices ...
Abstract—Nanoindentation for measuring thin film mechanical properties is probably the most popular ...
Driven by the ongoing miniaturization and increasing integration in microelectronics devices, very t...