A watertight 3D model of an individually-customized mouthguard that provides better protection and comfort for the athlete. Using 3D digital technologies, creation time is reduced from a day to an hour or less.
It's amazing how much dental care has evolved over the years, this is yet another revolution in dental health. We all want better teeth, you can learn more here about ways to keep them clean and healthy, there really isn't any excuse for bad teeth anymore considering the online resources we all have access to.
Chuck, the type you mention is pretty old, just past the ones you heat in boiling water and bite into. The next stage, which comes before the one described in this article, is what I've got. I bite into some truly disgusting gloppy pink stuff in a form and almost choke on it for a minute or two while it's hardening--but that's only the mold. Then I wait two weeks while a lab does I don't know what--twiddle their thumbs?--and then I get the clear plastic, looking just like the one in the photo to this story. The one described here would be a lot better than what I've got for the speed alone, and much better than the earlier-stage ones (I've used them, too).
I'm waiting with bated breath for this to come to dentists for mouth-guards. Two weeks, the standard time for making them from molds, is much too long if you're having trouble sleeping due to snoring or teeth grinding.
3D scanning is a critical part of this whole effort. With it, companies like Fight-Bite no longer have to go through the time consuming and messy mold making process required by mouth guards and other products. The customization angle is huge--that's why this has traditionally been a manual, one-off development process.
Because of the increasing ubiquity of wearable technology, it would be easy to think that design of wearable devices is routine and involves common design and engineering knowledge. Missed efforts in development will be remembered once the devices are used in the field
As governments, associations, and NGOs around the world seek to protect consumers, national and regional standards are becoming mandatory, challenging manufacturers and making testing and certification necessary for any product developed and brought to market.
Manufacturers of plastic parts recognize the potential of conformal cooling to reduce molding cycle times. Problem is, conformal molds require additive manufacturing (AM), and technologies in that space are still evolving. Costs also can be high, and beyond that, many manufacturing organizations lack the knowledge and expertise needed to apply and incorporate additive technologies into their operations.
Machine vision and video streaming systems are used for a variety of purposes, and each has applications for which it is best suited. This denotes that there are differences between them, and these differences can be categorized as the type of lenses used, the resolution of imaging elements, and the underlying software used to interpret the data.
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