Since they are doing a dual target of industrial and home use, I'm surprised that they are using the capacitive touch. Many industrial plant are now requireing gloves as a standard safety precaution, which don't work that well with capacitive.
Yes, tablets and cells could definitely use more ruggedized screens. I've never smashed up a screen myself but I have seen iPhones with smashed screens that are virtually rendered useless. That's a pretty expensive piece of useless machinery! I think in this case, the glass suits the design pretty well.
That's true, Cabe, plastic is a lot more durable. But I think glass looks a lot nicer. And how often do you really drop a screen or a computer? Hopefully not that often! (Although of course, dings do happen.)
AAEON has released this for the aesthetically conscious automation deployment, and it actually looks quite nice as well as being rugged enough to hold up in a pure industrial environment. And with home automation becoming more prevalent, it can also fit in there as part of a contemporary design.
Researchers have been working on a number of alternative chemistries to lithium-ion for next-gen batteries, silicon-air among them. However, while the technology has been viewed as promising and cost-effective, to date researchers haven’t managed to develop a battery of this chemistry with a viable running time -- until now.
Norway-based additive manufacturing company Norsk Titanium is building what it says is the first industrial-scale 3D printing plant in the world for making aerospace-grade metal components. The New York state plant will produce 400 metric tons each year of aerospace-grade, structural titanium parts.
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