Add to ORKGCopper sintering is a potential alternative to silver sintering and transient liquid phase soldering. In this paper, an innovative approach for copper sintering is investigated using brass powder, which is etched by HCl. Due to the acid biting action, Zn is selectively removed from the binary copper-zinc system. The dissolving of Zn causes a modification of the brass particles and an efficient increase of the exposed surface area, which enhances the sinterability. The focus of the work is to investigate the effects on sinterability of the initial zinc concentration in the powders. Two commercial brass powders, from the same supplier, with equal particle size and shape but different zinc concentration, i.e. ca. 10 wt% Zn and ca. 30 wt% Zn, w...
The conditions in which the sintering of the brasses from mechanical Cu-Zn powder mixtures, without ...
Advanced materials, like sintered silver, are key to robust and efficient power modules at high powe...
This article provides a detailed discussion of 1-hexanoic-acid-stabilised copper nanoparticles with ...
Copper pastes suitable for low temperature and low pressure die-attach bonding were developed to ena...
Sinter pastes for rapid and low-temperature die-attach bonding are developed to enable sintering und...
High temperature power electronics based on wide-bandgap semiconductors have prominent applications,...
Die-attach bonding is a key process to realize high-temperature operation of power semiconductor dev...
Highly reliable microparticle sinter paste based on etched brass flakes is developed. A low temperat...
There is a high demand for the implementation of metallic nanoparticle (NP) sintering technology for...
Copper paste is considered as a promising candidate for printed electronics in replacement for silve...
Sintering under pressure has been in the forefront of the research and development over the past dec...
ABSTRACT. The conditions i n which the s in te r ing of the brasses from mechanical Cu-Zn powder mix...
The machinability of high strength lead-free brass was investigated in this study. Copper-40mass%zin...
Power electronics demand miniaturization, integration, higher electrical and ther-mal conductivities...
External electric field-activated sintering techniques have been widely investigated and applied for...
The conditions in which the sintering of the brasses from mechanical Cu-Zn powder mixtures, without ...
Advanced materials, like sintered silver, are key to robust and efficient power modules at high powe...
This article provides a detailed discussion of 1-hexanoic-acid-stabilised copper nanoparticles with ...
Copper pastes suitable for low temperature and low pressure die-attach bonding were developed to ena...
Sinter pastes for rapid and low-temperature die-attach bonding are developed to enable sintering und...
High temperature power electronics based on wide-bandgap semiconductors have prominent applications,...
Die-attach bonding is a key process to realize high-temperature operation of power semiconductor dev...
Highly reliable microparticle sinter paste based on etched brass flakes is developed. A low temperat...
There is a high demand for the implementation of metallic nanoparticle (NP) sintering technology for...
Copper paste is considered as a promising candidate for printed electronics in replacement for silve...
Sintering under pressure has been in the forefront of the research and development over the past dec...
ABSTRACT. The conditions i n which the s in te r ing of the brasses from mechanical Cu-Zn powder mix...
The machinability of high strength lead-free brass was investigated in this study. Copper-40mass%zin...
Power electronics demand miniaturization, integration, higher electrical and ther-mal conductivities...
External electric field-activated sintering techniques have been widely investigated and applied for...
The conditions in which the sintering of the brasses from mechanical Cu-Zn powder mixtures, without ...
Advanced materials, like sintered silver, are key to robust and efficient power modules at high powe...
This article provides a detailed discussion of 1-hexanoic-acid-stabilised copper nanoparticles with ...