Slashdot Mirror
Alcohol Powered Muscles
ianchaos writes "In an article on ScienCentral News, Scientists at the University of Texas are using alcohol to power artificial muscles. From the article: 'Usually the only alcohol-powered muscles are the ones in barroom brawls, but one scientist is adding alcohol to artificial muscles to power robots and more.'"
Or these researchers have been watching just a bit too much Cartoon network.
Finally a fuel for Congressman other than self-righteous indignation.
And that, children, was when Slashdot's ratio of non-Bender-related comments to Bender-related comments began its inexorable slide toward zero.
xkcd.com - a webcomic of mathematics, love, and language.
I could have told you that alcohol makes you stronger and more confident. Do they really need a scientist to figure that one out?
"Beer, stat! There's too much blood in my alcohol supply!"
...Chuck Norris' sweat must be like 198 proof.
Ginga no Rekshiya Mata Each page.
Wanted: A surgeon who will replace my muscles with the ones mentioned in TFA so I have a legitimate excuse to drink as much as I do.
This sig is false.
I Got your Alcohol Powered Muscle Right Here
Well, 2 out of 4 isn't bad...
Ah, the things college students will think of when they've had a bit too much to drink...
Use 'slashdot stuff' in the subject line in any email you send me if you want to get past the spam filter.
There's a blanket term for this, we're called Irish.
The slashdot submission is wrong; the muscles are being developed at the University of Texas at Dallas. "University of Texas" is our satellite campus in Austin. >:(
For many years I've thought of a mechanism for artificial muscles which didn't perfectly mimic either natural muscles, arthropods (hydraulics) or typical electrical motor joints.
It's based on the idea of muscles, that they exist in perpetual tension, so that to create motion via contraction you don't create more tension on one side of the bone, instead you simply relax the tension on one side and allow the existing tension on the other side to fully exert itself.
One way of achieving this would be to use thousands of taut wires each attached at one end to the 'bone' via a ligament like structure that would reinforce them... basically you could just braid them all together near the attachment point, and also attached to a motor that would wind or unwind them along it's circumference... thereby tightening or loosening the 'muscle'. This first muscle would be counterbalanced on the opposite side of the bone by a muscle with attachment points inverted, so that for an arm there would be a motor at the elbow and one at shoulder, each controlling one muscle in the arrangement. By rotating each motor only slightly for the degree of motion desired, you could pivot the arm at the shoulder with the strength and force of the movement only limited by the tensile strength of the materials used. By keeping the muscles under tension 'while at rest' there would be a very fast reaction time, similar to any spring based mechanical movement... think hard drive coil... ie: very fast quick twitch response... and at the same time the tension would also provide stiffness and immediate torque for heavy lifting type movements.
I'm sure other more sophisticated arrangements could be conceived, some using hydraulics or next gen materials like this memory wire... but the point is to use constant tension to produce very controlled, precise, quick, strong movements or long elastic fluid movements as desired... rather than no tension single point of torque/force which leads to poor control, etc.
my 0.2 on artificial muscles
A fool throws a stone into a well and a thousand sages can not remove it.
While the whole alcohol bit makes for a great article, the technology is really in the wire. The only purpose for the alcohol here is in an exothermic reaction that causes the memory wire to heat up and contract. Don't we already have a million ways of doing that that don't prompt the requisite Futurama jokes?
I also fail to see the promise in this technology. It apparently has its advantages over fluid power (at least enough to warrant researching), but lacks reliability and efficiency? A quick venture to Wikipedia tells us "these materials are not currently appropriate for applications such as robotics or artificial muscles, due to energy inefficiency, slow response times, and large hysteresis." AFAICT there are still far too many questions keeping this tech from prime time.
For instance, how many contractions do you get before the material is exhausted? Is it like a rechargable battery where after a certain number of contractions you get ever diminishing returns from the wire?
What effect do the chemical reagents have on the physical properties of the wire? Is there a pair of exothermic reagents that will not corrode or degrade the wire over the long term?
What about the strength of the wire? Can you accurately fine-tune it to exert a controlled force over a given distance? What about releasing the tension in the wire? Would that require another force acting in an opposite direction, or do you just have to wait for the wire to cool off?
Sounds cool. Just not terribly promising.
I only mod funny =D
Now, artificial intelligence powered by alcohol would be ... no wait, that already exists. Pretty much all alcohol-powered intelligence is artificial.
Some see the vessel as half full; others see it as half-empty; We pour it out on the floor and laugh
I do believe you haven't read the first 100 posts then.
Obviously the solution is grain production robots.
We already have this technology, it's called Teamsters!
Here's some Simpsons:
"One for you, one for me. One for you, one for me."
(Scene - Local pub, 20 years from now)
... so I said that's no cell phone, it's a lobster.
MagicDude:
Bluto: Arrgh, your jokes suck, and I'm taking your woman.
MagicBabe: Help me MagicDude. Heeeeeeeelllllp
(Cue Popeye Music)
(Reach inside shirt, pull out beer can. Squeeze contents into air and drink in one gulp).
MagicDude: Time to open up a Beowolf Cluster of Pain on your butt.
Bender? Who cares about Bender... I for one, bow down to our new constantly barfing alcohol burnin' Myomer driven BattleMechs!
Online backup with Mozy, sounds like Ozzie, but more!
"Whiskey is carried into committee rooms in demijohns and carried out in demagogues." - Mark Twain
"Against the assault of laughter nothing can stand." - Mark Twain
"Does this mean I can finally have my very own Bender!?"
Why? You got a metal ass biting fetish you're willing to drop a few thousand $$$ on?
"I like to lick butts!" by MobileTatsu-NJG (#32700246) (Score:5, Informative)
Anyway this kind of technology is far far away from production. I had the chance to work with these shape memory alloys (I made a small walking robot for a resaerch project at University) , and what we can read in the article is only the good side of them. In fact there are too many downsides yet :
1. The contraction speed is very fast, but the decontraction is very slow. This is because it's really easy to heat a metal at a high speed, using eather a heat source or electricity (I used electricity cause it's simpler), but to cool it at the same speed, you would need a cool liquid to flow through the wire. And to use two liquids in alternance means that you must have a hydraulic system for each fiber you want to contract/release.
2. The article says these "muscles" are strong. This is not the case. At least they could be used to move a tiny robot insect, but if you need to put the hydraulic cooling thing, forget it.
3. It's really hard to control the exact length of the muscle. Other than "completely long" or "completely short", you have a great time setting exactly the good temperature for a specific length. That is because these muscles have a great hysteresis curve, and two temperatures can give two lengths.
4. That is enough.
For those you are interested and french speaking, here's the article I wrote on the robot I made : http://www.polymtl.ca/lrn/chenier/MuscleWires.pdf
I hate all sigs, mine included.