Mechanické vlastnosti spojů vytvořených nanočásticemi Ag

Mechanical properties of joints created by silver nanoparticles

článek ve sborníku ve WoS nebo Scopus

en

The increase in temperature causes the decomposition of the oxide shell of silver nanoparticles. The subsequent nanoparticle aggregation effect has the potential for soldering. Silver nanoparticles were prepared by wet chemical synthesis and characterized by standard methods of electron microscopy. The substrates were made in the different temperature regimes to simulate the solder joints. In this paper microstructures and mechanical properties of joints were studied.

Nárust teploty způsobuje rozklad oxidické obálky obklopující jednotlivé nanočástice. Tím dochází k sintračnímu efektu a možnosti využití nanočástic v oblasti pájení. Nanočástice byly charakterizovány TEM, vzniklé spoje SEM.

The increase in temperature causes the decomposition of the oxide shell of silver nanoparticles. The subsequent nanoparticle aggregation effect has the potential for soldering. Silver nanoparticles were prepared by wet chemical synthesis and characterized by standard methods of electron microscopy. The substrates were made in the different temperature regimes to simulate the solder joints. In this paper microstructures and mechanical properties of joints were studied.

Ag nanočástice, nanosintrace, měděný substrát, agregace

Ag nanoparticles, nano sintering, copper substrate, aggregation

2012

28.10.2012

978-3-901509-91-9

Annals of DAAAM for 2012 & Proceedings of the 23rd International DAAAM Symposium

1

139–143

5