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Fly To Mars In A Plastic Ship

Posted by Zonk on from the wouldn't-go-any-other-way dept.

saskboy writes "NASA reports that an old polymer may be the spaceship material of the future. Polyethylene is in household garbage bags, and it is also an effective solar radiation shield. I learned three years ago in astronomy class that polyethylene is used in the sleeping quarters on current orbiting space vehicles, but now NASA has developed a way to toughen the polymer into a product they call RXF1 which is 'even stronger and lighter than aluminum'. As you may know, radiation in space is currently a major obstacle to manned missions outside of the Earth's magnetic field, so better radiation shielding is essential to planned manned missions to Mars and beyond. Get the mp3 podcast of the article here."

12 of 234 comments (clear)

  1. Plastic aluminum? by Anonymous Coward · · Score: 5, Funny

    but now NASA has developed a way to toughen the polymer into a product they call RXF1 which is 'even stronger and lighter than aluminum'.

    Is it transparent?? Plastic usually is/can be. Perhaps this is what they really meant by transparent aluminum. We should really make sure none of this time's whales have been recently stolen!

    Why, no I didn't read tfa.

  2. I want to say one word to you. Just one word. by Mr.G5 · · Score: 5, Funny

    Plastics.

  3. ...and when the mission is over by tinrobot · · Score: 5, Funny

    You can toss your spaceship in the blue bin for curbside recycling!

  4. a new fashion by igny · · Score: 5, Funny

    NASA has developed a way to toughen the polymer into a product they call RXF1 which is 'even stronger and lighter than aluminum'.

    Yeah, and polyester hats should be much more fashionable than the tin foil ones.

    --
    In theory there is no difference between theory and practice. In practice there is. - Yogi Berra
  5. Nasa by 3.09+a+hour · · Score: 4, Interesting

    Why in Bush's name are we cutting fuding to nasa? After this alumna-plastic and http://www.jpl.nasa.gov/news/features.cfm?feature= 490 aerogel, seems to me they are doing cutting edge USEFULL research.

    --
    Like the saying goes, never underestimate the bandwidth of a station wagon full of tapes. -Pyrotic
    1. Re:Nasa by FleaPlus · · Score: 4, Informative

      Why in Bush's name are we cutting fuding to nasa?

      Erm, where did you get that info from? Bush does many shitty things, but cutting NASA funding isn't one of them. In fact, NASA is one of the few non-defense government agencies which has actually seen funding increases. Bush even threatened to veto a huge appropriations bill unless legislators increased NASA's funding by a billion dollars.

      The official info on NASA's budget can be seen here.

  6. Re:But what's the point? by The+Master+Control+P · · Score: 4, Insightful

    Initially, it'll be the same point as the original manned missions to the moon: Proving that we have a bigger collective dick that the Soviets / Chinese while happenning to also do some science on the side. After that, our government and NASA will return to their usual psychotically-risk-averse stupor.

    We desperately need to get some competition going on in space exploration or nothing's going to get done. Come on China...

  7. Re:Nature's way... by khallow · · Score: 5, Informative
    I don't think so. Metals still have a series of characteristics that aren't matched by plastics and advanced fibres. For example, steel is much harder than plastics (or the resin portion of carbon fibre), chemically compatible with concrete (another unfashionable material that isn't going away), handles compression loads well, easy to work with and machine, cheaper (IMHO), and recyclable. Things that handle significant localized forces like most screws or nuts, probably will remain metal. Weight critical applications (cars and spacecraft) will probably eliminate most uses of metals.

    But most architecture just isn't that sensitive to weight. For example, steel frame houses have significant earthquake resistance and are just more durable overall. Most bridges cover modest spans and can continue to be steel and concrete. Further one has to consider the problem of wind force. If your structure is very light for its surface area, then it'll experience increased jostling due to wind. Then you need to engineer some sort of means for stabalizing the structure, maybe guy ropes or some sort of internal computer-controlled weight that counters these motions.

  8. Outgassing and thermal properties by G4from128k · · Score: 4, Insightful

    I'd want to see how the material handles long-term exposure to vacuum and large temperature swings before using it in any space-borne structural applications. Most plastics contain plasticizers that help improve flexibility and handling properties, but which slowly evaporate leaving the material brittle (anyone ever see what happens to a plastic milk jug left in the sun for a year?). Moreover, plastics tend to have structural properties that are very temperature sensitive -- at modestly high temperatures, plastics slowly stretch to failure, at modestly low temperatures, they fracture. The "temperature" in space is strongly dependent on whether the surface is facing the sun or not. It's baking hot on the sunny side and freezing cold on the shady side -- not a good environment for plastics.

    The history of material science is the history of failures such as the catastrophic failure discovered in Liberty ship hulls in cold North Atlantic waters (learning that some steel alloys are brittle in low temperatures) to the Comet airplane crashes (learning that aluminum fatigues from repeat cycles of stress). I can only hope that NASA does something like LDEF with this material before depending on it to hold its properties for several years of space-exposure.

    --
    Two wrongs don't make a right, but three lefts do.
    1. Re:Outgassing and thermal properties by back_pages · · Score: 4, Insightful
      Inferior steel and poor maintainance (rust) is the reason why fairly new merchant vessels are still routinely disappearing.

      This statement simplifies the problem to the point of being incorrect. I don't profess to have nearly the wealth of knowledge as the parent poster, but I have recently read and recommend The Outlaw Sea by William Langewiesche, which examines the modern merchant marine in fascinating detail.

      Strength of materials or maintenance procedures has basically nothing to do with the loss of merchant ships in modern times, except for the banal observation that both are involved when a ship sinks. So is water. The cause is closer to deregulation and an unchecked free market in the shipping industry.

      I don't think that a NASA-developed plastic space ship is going to experience deregulation or rampant capitalism. It seems pretty likely to me that someone is going to, oh, I don't know, check to see if the material is suitable for use in space before building a space craft from it. Just tossing that out there. By Slashdot standards, I'm probably insightful.

  9. Polyethylene by chroma · · Score: 4, Interesting
    Polyethylene is one of the most commonly used plastics in the world, and is found in plastic grocery bags, cutting boards, milk jugs, disposable cups, and about a million other things. It's very stretchy, and thus is unlikely to break. It's tough, so that when it gets a hole or crack, the structure keeps its integrity. That's why I use it for armor on my fighting robots.

    According to MatWeb, Ultra High Molecular Weight Polyethylene (UHMW-PE) has an ultimate tensile strength of about 40 MPa, while 7075 alloy aluminum has an ultimate tensile strength of 524 MPa . The article claims that this new PE-derived material has a tensile strength 3x that of aluminum. I find a 40x improvement in tensile strength a bit tough to believe.

    --

    Your design to a real part online: Big Blue Saw
  10. Re:But what's the point? by ZosX · · Score: 4, Insightful

    How is this even flamebait?! What the parent said is true. We would have never have sent a man to the moon if we were not in a technological superiority race with the Soviets. While I will admit that going to the moon is an AMAZING feat for humanity to marvel at for a long time into the future, the actual scientific value of such a mission when compared to its cost is greatly diminished.

    That being said, we need to go somewhere other than earth orbit. If we keep going on into the future without looking at ways to live without earth we will be doomed to eventually perish here. The planet keeps getting smaller and smaller and the population keeps increasing. Eventually in the relatively near future we will either die en masse from starvation, lack of resources, etc, and (hopefully) leave some survivors, but we could easily become extinct as well. Technology is only going to help us now. If such a mass extinction of humans occurs they will have little fertile land to live off of and very few animals to hunt. We need to kick ourselves out of the womb before we as a race die like a stillborn fetus.

    The mother can only sustain our greed for consumption of natural resources for so long.

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    zosxavius photography