UK-based P2i has developed a waterproof nano-coating that protects smartphones such as the Alcatel One Touch, and Motorola's RAZR and XOOM. We think the company should develop the technology for consumers who want to apply it to the devices they already own. (Source: P2i)
I'm inclined to think that it's highly likely from what I've read, plus for two additional reasons: one is concerned communications engineers talking off record to me about this problem back in the very early days of cell phone design (mid- and late 1990s). The second is the fact that the CTIA managed to get federal legislation passed to make it illegal to complain about/sue cell phone companies based on health reasons.
There's a lot of evidence of links between cell phone and other wireless radiation and cancer. There are also lots of studies that conclude the opposite. The subject is highly politicized, and there are way too many studies with radically different research designs to make them easy to compare, or to make this a quick, easy-to-grasp subject. The bottom line is we don't know but there's a possibility, and one that could affect millions of people.
Chuck, that's my understanding of the definitions, also. That's why I queried the use of the term "immersion." How complete the "immersion" is, and how long it takes place, are key. I agree, this coating appears to make the item water resistant.
I had to go to the Internet (uh-oh) to find out the difference between waterproof and water-resistant. The prevailing logic seems to be that a waterproof product prevents water from coming in at all, even when submerged (think of a diving watch). Water resistant (here's wher the definition seems to get fuzzy) describes the ability to repel water, up to a point. Given those descriptions, I would assume this material makes the phone water-resistant.
Jenn, that would be retrofitting, which we were discussing earlier in the comments. So far, we haven't seen any plans for that, but it sure sounds like a great idea. OTOH, as someone pointed out, those refrigerator-sized machines may be on the pricey side for an operation like Kinko's. And that's an entirely different business model from selling the coating to a company like Motorola. I was expressing more of a wish than a prediction.
Last week, the bill for reforming chemical regulation, the TSCA Modernization Act of 2015, passed the House. If it or a similar bill becomes law, the effects on cost and availability of adhesives and plastics incorporating these substances are not yet clear.
The latest crop of coating and sealant materials and devices has impressive credentials. Many are designed for tough environments with broad operating temperature ranges, and they often cure faster, require fewer process steps, and produce less waste.
A new program has been proposed for testing and certify 3D printing filaments for emissions safety. To engineers who've used 3D printers at home this is a no-brainer. It's from a consumer on Kickstarter, and targets use in homes and schools.
For the last 50 years, the Metal Powder Industries Federation (MPIF) has sponsored an awards competition for creative solutions to designing and fabricating near-net-shape parts using powder metal (PM) technologies. Here are the seven Grand Prize winners of the 2015 contest.
Graphene 3D Lab has added graphene to 3DP PLA filament to strengthen the material and add conductivity to prints made with it. The material can be used to 3D print conductive traces embedded in 3D-printed parts for electronics, as well as capacitive touch sensors.
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