High Temperature (Braze Alloy) Sputtering Target Bonding, with NanoFoil®
In an earlier post I mentioned one of the presentations we gave at the 2013 SVC TechCon. The other presentation that our team delivered at t...
In an earlier post I mentioned one of the presentations we gave at the 2013 SVC TechCon. The other presentation that our team delivered at t...
In a somewhat recent post, I mentioned that my favorite NanoFoil® application note was “NanoBond® of Ceramic and Metal Sputtering Target...
One of our most demanding customers is … the Indium Corporation! While we supply the world with NanoFoil®, we also use a large amount for t...
The attachment of concentrated photovoltaic (CPV) cells is the perfect application for NanoFoil®. Due to the isolated heating during bonding, less...
NanoFoil®requires a threshold of energy to activate. What happens if that energy value is not met?: Interdiffusion and inhibition of the NanoBond&...
I recently noticed something that appeared in a 3rd party lab report that a customer shared with me. This lab report was an analysis of a NanoBond®...
A NanoBond® acts like a traditional solder bond in many ways. After reaction, the bulk properties of NanoFoil® are similar to that of many sol...
I’m not the only one presenting new NanoFoil® data at this year’s SVC (Society of Vacuum Coaters) Conference. Another member of o...
There are many sputtering target materials that are tricky to solder to. For those alloys we ‘bring out the big guns’ – in this case...
In order to NanoBond® parts that are made out of copper, nickel, or platinum, we must first apply solder to the bonding surface. This......
Aluminum is a very common material to bond to, although it is a little tricky to solder to with traditional methods. The method that we......
NanoFoil® is a great localized heat source, but it can cause some ugly looking aesthetic defects if the process is not set up correctly. Let̵...