Conductive Gel Has Potential

There are some technologies first imagined in the Star Trek universe have already come to exist in the modern day. Communicators, tablet computers, and computer voice recognition are nearly as good as seen in the future, and other things like replicators and universal translators are well on their way. Star Trek: Voyager introduced a somewhat ignored piece of futuristic technology, the bio-neural gel pack. Supposedly, the use of an organic gel improved the computer processing power on the starship. This wasn’t explored too much on the series, but [Tom] is nonetheless taking the first steps to recreating this futuristic technology by building circuitry using conductive gel.

[Tom]’s circuitry relies on the fact that salts in a solution can conduct electricity, so in theory filling a pipe or tube with a saline solution should function similarly to a wire. He’s also using xanthan gum to increase viscosity. While the gel mixture doesn’t have quite the conductivity of copper, with a slight increase in the supplied voltage to the circuit it’s easily able to be used to light LEDs. Unlike copper, however, these conductive gel-filled tubes have some unique properties. For example, filling a portion of the tube with conductive gel and the rest with non-conductive mineral oil and pushing and pulling the mixture through the tube allows the gel to move around and engage various parts of a circuit in a way that a simple copper wire wouldn’t be able to do.

In this build specifically, [Tom] is using a long tube with a number of leads inserted into it, each of which correspond to a number on a nixie tube. By moving the conductive gel, surrounded by mineral oil, back and forth through the tube at precise intervals each of the numbers on the nixie tube can be selected for. It’s not yet quite as good as the computer imagined in Voyager but it’s an interesting concept nonetheless, not unlike this working replica of a communicator badge.

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Making Printed Food More Palatable For Those Who Need It

Most foods when pureed become pretty unappetizing to look at. For that reason, patients who have trouble swallowing are often given pureed food that’s been molded into fun shapes to make it more appealing. The problem with molding food is that it’s labor-intensive, time-consuming, and the resulting edible toys require a lot of storage space.

When 3D printing came along, it was poised to solve the problem, but in the quest to make foods printable, they became even worse. Printable food paste typically starts with dehydrated and/or freeze-dried vegetables, and then hydrocolloids like xanthan gum and locust bean gum are added so the paste holds together after extrusion. Unfortunately, these additives are a big step backward; they change the texture for the worse, and make the food smell and taste bad, too.

The solution is one of those things that sounds obvious in hindsight: some researchers in Singapore tried using fresh and frozen foods instead of freeze-dried, and figured out the minimum amount of hydrocolloids they could get away with for a given food. In their research they categorized all the feasible foods this way. Some vegetables like garden peas which have higher starch and lower water percentages don’t need any hydrocolloids to be printable. As the starch level falls and water rises, more hydrocolloids are needed. So carrots can get away with using just one type of hydrocolloid, while things like bok choy need two types to print effectively. Even so, results of the study show that fresh vegetable printing calls for far less than their powdered counterparts to the extent that it no longer affects the taste of the end product.

The researchers envision a future where every hospital and elder care facility has a food printer to churn out carrot boats and spinach skylines on demand. We think this tasty development is totally awesome — it’s just too bad the carrot boats don’t look more like Benchy.

In the mood for printed food? Our own [Tom Nardi] sampled the menu of additive edibles a while back.

Thanks for the tantalizing tip, [Qes]!

Restoring Yellowed Computer Plastics

retr0brite1

Many of our cherished computers and consoles from the past have not stood up well over time. It’s not the hardware as much as the color. From Commodores, Apples, to Super Nintendos, the machines have slowly drifted towards a sickly yellow and even brown. The culprit appears to be the fire retardant chemicals used in the plastics. Amiga enthusiasts have spent the last year perfecting a technique that restores the plastic of these machines to its original splendor. Dubbed ‘Retr0brite‘ it’s a gel made from hydrogen peroxide, xanthan gum, glycerine, and ‘Oxy’ style laundry booster. The results are really impressive. If you do start restoring your own machines, caution should be used since it requires strong concentrations of hydrogen peroxide typically employed in bleaching hair.

[via Waxy]