Add to ORKGCrack initiation and propagation along the Cu/Si interface in multilayered films (Si/Cu/SiN) with different thicknesses of the Cu layer (20 and 200 nm) are experimentally investigated using a nano-cantilever and millimeter-sized four-point bending specimens. To examine the cohesive zone model (CZM) criterion for interfacial delamination along the Cu/Si interface in nanoscale stress concentration, an exponential type of CZM is utilized to simulate the observed delamination processes using the finite element method. After the CZM parameters for the Cu/Si interface are calibrated by experiment, interface cracking in other experiments is predicted. This indicates that the CZM criterion is universally applicable for describing cracking along the...
Interfacial properties of Cu/SiO2 in semiconductor devices has been a challenging study for many yea...
Interfacial properties of Cu/SiO2 in semiconductor devices has continued to be the subject of challe...
Due to their superior mechanical and electrical properties, multiwalled carbon nano-tubes (MWCNTs) h...
Improving the interface stability for nanosized thin films on brittle substrates is crucial for tech...
Improving the interface stability for nanosized thin films on brittle substrates is crucial for tech...
AbstractThin metal films deposited on polymer substrates are used in flexible electronic devices suc...
Numerous mechanisms have been identified as fundamental to the adhesion of thin metallic films. The ...
AbstractA preliminary theoretical study is carried out of the role of micron-scale patterning on the...
Over the last years, miniaturization caused increasingly complex thin film combinations and geometri...
Cohesive zone models have been widely used to model interface crack initiation and propagation both ...
Cohesive zone models have been widely used to model interface crack initiation and propagation both ...
In this study, film interfacial fracture is induced by nanoindentation to quantify the practical wor...
Cohesive zone models have been widely used to model interface crack initiation and propagation both ...
Abweichender Titel nach Übersetzung der Verfasserin/des VerfassersDelamination related failure cause...
Due to their superior mechanical and electrical properties, multiwalled carbon nano-tubes (MWCNTs) h...
Interfacial properties of Cu/SiO2 in semiconductor devices has been a challenging study for many yea...
Interfacial properties of Cu/SiO2 in semiconductor devices has continued to be the subject of challe...
Due to their superior mechanical and electrical properties, multiwalled carbon nano-tubes (MWCNTs) h...
Improving the interface stability for nanosized thin films on brittle substrates is crucial for tech...
Improving the interface stability for nanosized thin films on brittle substrates is crucial for tech...
AbstractThin metal films deposited on polymer substrates are used in flexible electronic devices suc...
Numerous mechanisms have been identified as fundamental to the adhesion of thin metallic films. The ...
AbstractA preliminary theoretical study is carried out of the role of micron-scale patterning on the...
Over the last years, miniaturization caused increasingly complex thin film combinations and geometri...
Cohesive zone models have been widely used to model interface crack initiation and propagation both ...
Cohesive zone models have been widely used to model interface crack initiation and propagation both ...
In this study, film interfacial fracture is induced by nanoindentation to quantify the practical wor...
Cohesive zone models have been widely used to model interface crack initiation and propagation both ...
Abweichender Titel nach Übersetzung der Verfasserin/des VerfassersDelamination related failure cause...
Due to their superior mechanical and electrical properties, multiwalled carbon nano-tubes (MWCNTs) h...
Interfacial properties of Cu/SiO2 in semiconductor devices has been a challenging study for many yea...
Interfacial properties of Cu/SiO2 in semiconductor devices has continued to be the subject of challe...
Due to their superior mechanical and electrical properties, multiwalled carbon nano-tubes (MWCNTs) h...