Add to ORKGThe properties of metalized ceramic substrates, e.g. used in power electronic devices, are mainly influenced by the metallization layer and the interface metal/ceramic. This study presents results from microstructural analyses and mechanical characterization of Direct Aluminum Bonded (DAB) substrates in comparison to Direct Copper Bonded (DCB) substrates. High resolution electron (SEM) and transmission electron microscopy (HRTEM) characterization in combination with crystallographic microanalysis using electron backscatter diffraction (EBSD) show the formation of cupric oxide areas in combination of a complex copper, manganese aluminate system at the aluminum oxide/copper (DCB) interface. For DAB substrates the formation of a ternary Al-Fe-...
Alumina substrate has been widely used as a substrate material for ceramic packaging technology. Thi...
It is known that it is difficult to bond dissimilar metals such as aluminum and copper or aluminum a...
Aluminum and copper are widely used for microelectronic interconnect applications. Interfacial oxide...
The reliability of power electronic devices is significantly related to the material properties of t...
The active development of the power electronics market and a constant increase in the prices of comp...
There is a growing interest in metal/ceramic bonding for a wide range of applications from electroni...
There is a growing interest in metal/ceramic bonding for a wide range of applications from electroni...
There is a growing interest in metal/ceramic bonding for a wide range of applications from electroni...
Alumina has been bonded via copper/niobium/copper interlayers, and correlations have been made betw...
DAB are a new kind of substrates in which the copper layer was replaced by an aluminum layer. In [1]...
Ceramic/metal brazing can be carried out either directly using active metal filler alloys or indirec...
The evaluation of bonding mechanisms between magnetron sputtered copper (Cu) thin films and a cerami...
The evaluation of bonding mechanisms between magnetron sputtered copper (Cu) thin films and a cerami...
To understand the underlying phenomena when characterizing material performance, we must know the ch...
With the development of power electronics, metallizing of ceramics has been developed and employed i...
Alumina substrate has been widely used as a substrate material for ceramic packaging technology. Thi...
It is known that it is difficult to bond dissimilar metals such as aluminum and copper or aluminum a...
Aluminum and copper are widely used for microelectronic interconnect applications. Interfacial oxide...
The reliability of power electronic devices is significantly related to the material properties of t...
The active development of the power electronics market and a constant increase in the prices of comp...
There is a growing interest in metal/ceramic bonding for a wide range of applications from electroni...
There is a growing interest in metal/ceramic bonding for a wide range of applications from electroni...
There is a growing interest in metal/ceramic bonding for a wide range of applications from electroni...
Alumina has been bonded via copper/niobium/copper interlayers, and correlations have been made betw...
DAB are a new kind of substrates in which the copper layer was replaced by an aluminum layer. In [1]...
Ceramic/metal brazing can be carried out either directly using active metal filler alloys or indirec...
The evaluation of bonding mechanisms between magnetron sputtered copper (Cu) thin films and a cerami...
The evaluation of bonding mechanisms between magnetron sputtered copper (Cu) thin films and a cerami...
To understand the underlying phenomena when characterizing material performance, we must know the ch...
With the development of power electronics, metallizing of ceramics has been developed and employed i...
Alumina substrate has been widely used as a substrate material for ceramic packaging technology. Thi...
It is known that it is difficult to bond dissimilar metals such as aluminum and copper or aluminum a...
Aluminum and copper are widely used for microelectronic interconnect applications. Interfacial oxide...