Add to ORKGThe wetting of Sn3Ag-based alloys on Al{sub 2}O{sub 3} has been studied using the sessile-drop configuration. Small additions of Ti decrease the contact angle of Sn3Ag alloys on alumina from 115 to 23 degrees. Adsorption of Ti-species at the solid-liquid interface prior to reaction is the driving force for the observed decrease in contact angle, and the spreading kinetics is controlled by the kinetics of Ti dissolution into the molten alloy. The addition of Ti increases the transport rates at the solid-liquid interface, resulting in the formation of triple-line ridges that pin the liquid front and promote a wide variability in the final contact angles
In this work, we reported a novel method that is flexible to metallize alumina ceramics with complex...
Reactive spreading, in which a chemically active element is added to promote wetting of noble metals...
Wetting and reactivity were studied for molten Cu-Cr, Cu-Zr and Ag-Zr alloys on two nitride ceramics...
The purpose of this study was to investigate the wetting behavior and interfacial reactions of Sn-Ti...
The wetting of TA2 pure Ti by two industrial grade Al alloys (i.e.,6061 Al and 4043 Al alloys) was s...
International audienceThe isothermal wetting and spreading of liquid Sn on Ag and Ag3Sn substrates a...
Monocrystalline alumina, known as sapphire, is one of the most commonly used ceramics in electronic ...
International audienceMany pure metals and alloys do not wet covalent or ionocovalent ceramics and a...
International audienceThe initial stages of spreading of CuAgTi alloys on alumina are investigated b...
Purpose - This research aims to provide a theoretical method and data supports for a future study on...
This paper deals with a well known puzzling observation that sometimes the wetting is improved by a ...
Reactive wetting processes of molten Sn-3.5Ag on Cu substrates at elevated temperatures were investi...
International audienceThe substrate of com. available vitreous C was polished. The surface roughness...
In this work, there are three research hypothesizes: First, the active element Ti only adsorbs at th...
Wetting of Al and Ni substrate by Sn-Zn eutectic-based alloys with 0.5 (wt.%)of Ga and 0.2 (wt.%) of...
In this work, we reported a novel method that is flexible to metallize alumina ceramics with complex...
Reactive spreading, in which a chemically active element is added to promote wetting of noble metals...
Wetting and reactivity were studied for molten Cu-Cr, Cu-Zr and Ag-Zr alloys on two nitride ceramics...
The purpose of this study was to investigate the wetting behavior and interfacial reactions of Sn-Ti...
The wetting of TA2 pure Ti by two industrial grade Al alloys (i.e.,6061 Al and 4043 Al alloys) was s...
International audienceThe isothermal wetting and spreading of liquid Sn on Ag and Ag3Sn substrates a...
Monocrystalline alumina, known as sapphire, is one of the most commonly used ceramics in electronic ...
International audienceMany pure metals and alloys do not wet covalent or ionocovalent ceramics and a...
International audienceThe initial stages of spreading of CuAgTi alloys on alumina are investigated b...
Purpose - This research aims to provide a theoretical method and data supports for a future study on...
This paper deals with a well known puzzling observation that sometimes the wetting is improved by a ...
Reactive wetting processes of molten Sn-3.5Ag on Cu substrates at elevated temperatures were investi...
International audienceThe substrate of com. available vitreous C was polished. The surface roughness...
In this work, there are three research hypothesizes: First, the active element Ti only adsorbs at th...
Wetting of Al and Ni substrate by Sn-Zn eutectic-based alloys with 0.5 (wt.%)of Ga and 0.2 (wt.%) of...
In this work, we reported a novel method that is flexible to metallize alumina ceramics with complex...
Reactive spreading, in which a chemically active element is added to promote wetting of noble metals...
Wetting and reactivity were studied for molten Cu-Cr, Cu-Zr and Ag-Zr alloys on two nitride ceramics...