Wood Pulp Extract Stronger Than Carbon Fiber Or Kevlar

Zothecula writes "The Forest Products Laboratory of the US Forest Service has opened a US$1.7 million pilot plant for the production of cellulose nanocrystals (CNC) from wood by-products materials such as wood chips and sawdust. Prepared properly, CNCs are stronger and stiffer than Kevlar or carbon fibers, so that putting CNC into composite materials results in high strength, low weight products. In addition, the cost of CNCs is less than ten percent of the cost of Kevlar fiber or carbon fiber. These qualities have attracted the interest of the military for use in lightweight armor and ballistic glass (CNCs are transparent), as well as companies in the automotive, aerospace, electronics, consumer products, and medical industries."

Transparent Aluminum

[Anonymous Coward]

Who needs transparent aluminum when you've got transparent, bulletproof wood?

Re:Transparent Aluminum

[ciderbrew]

That's a proper boast right there.

Re:

[ackthpt]

That's a proper boast right there.

Ever eat a burger in a high school cafeteria? You'd alreayd know how tough cellulose can be.

Re:Transparent Aluminum

[mk1004]

Who needs transparent aluminum when you've got transparent, bulletproof wood?

Women might be impressed with bulletproof wood, but transparent?

Re:Transparent Aluminum

[Forty Two Tenfold]

Women might be impressed with bulletproof wood, but transparent?

With transparent they'd be surprised.

Re:

[K. S. Kyosuke]

Sounds like a great name for a trendy new movie: The Invisible Superpinocchio.

Re:Transparent Aluminum

[Jane Q. Public]

"With transparent they'd be surprised."

Well, they wouldn't see you coming, that's for sure.

Re:

[X0563511]

"Surprise buttseks?"

Sorry. Couldn't help it. It practically wrote itself.

Re:

[Pav]

Women might be impressed with bulletproof wood, but transparent?

With transparent they'd be surprised.

So in other words it would be considered rape in Sweden?

Re:

[ethanms]

That's the ticket laddy.

Time to Pledge my ride

[virgnarus]

So I take it we'll be seeing the next president riding around in a wood-sided grocery getter?

Re:

[spauldo]

How, exactly?

Woodie wagons cost more than other cars of the time, and most people who know of them today associate them with the '60s surfer craze. They were never associated with any particular race, other than Frankie Avalon-type surfer dudes.

Stiffness an issue?

[Anubis IV]

It seems as if being stiffer than Kevlar may limit its usefulness in certain applications, such as body armor and the like. That said, the summary mentioned composite materials that simply use it as a component. Any material scientists around who can comment on whether its an issue or how this stuff might change things?

Re:

[Forty Two Tenfold]

being stiffer than Kevlar may limit its usefulness in certain applications, such as body armor and the like

Scale mail.

Re:

[Ogive17]

I'm sure a mold could be used to form it into a shape that would be comfortable as a body armor. Think of Batman's suit.

Re:Stiffness an issue?

[Beardo the Bearded]

I'm always thinking of Batman's suit.

Re:

[Beardo the Bearded]

Nope, Adam West.

Re:

[X0563511]

It's not the shape that he's concerned about. You want some give and flexibility, else all the kinetic energy of a projectile will be absorbed.

Sure, it might not penetrate you, but neither does a sledgehammer. You still wouldn't want one of those to the gut, would you?

Re:

[Whorhay]

That depends. If the plates are contoured to fit the soft tissues underneath and spread the impact it would help a lot. Absorbing the kinetic energy of a bullet or bit of shrapnel and spreading it out over your entire torso would be much prefered to the alternatives. Flexibility doesn't magically stop all that energy from being absorbed, it does however slow down the punch so that it might not be as catastrophic.

Re:Stiffness an issue?

[Scarred Intellect]

Current body armor (and I'm talking about the Interceptor vest, MTV (Modular Tactical Vest) and the Plate Carrier) don't have anything to do with the word "flexibility". The armor plates (Small Arms Protective Inserts, or SAPI) are stiff; they're slightly contoured, the front being the same contour as the back, which makes sense if you're disfigured I suppose...I digress...

Since current vests don't provide flexibility at all, then the CNC being stiffer won't have much of an effect. It will, however, be wonderful to save on weight, those vests get cumbersome fast. But those are ceramic. Replacing those would be much more effective than replacing the Kevlar, I would think, in terms of weight-saving.

The Kevlar itself is light enough (disclaimer: I was an infantry machine gunner), it's the SAPI plates that were/are horrible to deal with.

Re:

[Jumperalex]

"Stiff" in this case doesn't have to mean that the final textile product and garment is actually inflexible. There is a lot more to the design of the textile that determines that. A lot of factors come into play in the design of the textile and then the final garment. Stiffness is one, but so is ultimate strength, elongation or stretch ratio, density and toughness not to mention fiber size (the "nano" here is the real important part").

Paper armor

[K. S. Kyosuke]

I *knew* I should have patented the paper armor I made for myself when I was a kid.

Re:

[sexconker]

I *knew* I should have patented the paper armor I made for myself when I was a kid.

Mythbusters did it - they made effective (for some uses) paper armor that fit descriptions of such from ancient China.

Built-in emergency ration

[mapsjanhere]

The product possibilities are endless, but I think bullet proof west with integrated brew station will be the greatest hit. Survive the tough battle, add water and yeast - instant celebratory beverage.

Cheaper & Stronger than Carbon Fiber?

[Zibodiz]

One of the biggest problems with building a race car/truck is often the cost of the materials. The stiffer frames built from carbon fiber are insanely expensive. Imagine if we could build a frame out of this for around the cost of steel --the technology could then be used in ordinary cars, with a huge weight savings, and a safer, stronger frame. It could revolutionize the automotive design industry.

Re:

[RicktheBrick]

I was driving a 10 year old Geo Metro. I was having steering problems so I took it to a mechanic. After putting the car on a lift, I was informed that the car should be sold for scrap since the frame was so rusted that the passenger front wheel had broken off. So if they could make a frame that did not have any problems with rust, I would be very interested in it. Twice a year I had the oil changed and not 6 months before it broke, I had the muffler system replaced. Not one of those mechanic said anyt

Re:Cheaper & Stronger than Carbon Fiber?

[Zerth]

So instead of rust it will be "oh, looks like you've got termites in the bodywork. Might as well chop it up for firewood."

Re:

[Bill, Shooter of Bul]

I mourn your loss. For never a greater car was ever built than the Metro. However, they are not strangers to rust. My second Metro died from a tire change in much the same way.

Re:

[SuricouRaven]

s/rust/rot/

Actually, I imagine it'll just be treated with fungicide. Fungi love cellulose.

Re:

[bkaul01]

Unibody vehicles still have "subframes" consisting of structural steel reinforcing parts of the chassis. The front suspension (everything the wheel mounts to) and the engine/transmission bolt to the front subframe, which handles all the loads of cornering, acceleration, braking, etc. and distributes them to the unibody structure of the main vehicle cabin. The subframe is welded to the unibody, and integral to the structure of the vehicle chassis. It's probably entirely accurate to say that the frame rusted,

Re:Cheaper & Stronger than Carbon Fiber?

[drinkypoo]

The vulnerability to moisture makes it unsuitable for use in street vehicles unless stringent safety regulations are backed by frequent inspection. It would be dandy for high-end race vehicles, though.

Re:

[gl4ss]

I'll bet you can rinse it in resin to make it waterproof.

Cold molding

[Kupfernigk]

Far from it. Many boats are made by "cold molding", in which you start with a mold and build up your own plywood layers on top using thin veneers and epoxy resin. The result is light, strong, and very water resistant indeed if done properly. Some woods such as mahogany and utile are already extremely strong and stiff (comparing equivalent mass/area) compared to e.g. aluminum and fiberglass, and this looks like it would be more of the same, only much easier to form.

Re:

[drinkypoo]

Boats are monocoque and you can inspect them visually pretty trivially, since water damage changes the color of the wood. With that stuff tucked up under a car and covered in undercoating an inspection will not be so easy to carry out.

Re:

[ArsonSmith]

This was tried in the past but fell out of fashion:
CNC car body [artprintimages.com]

Re:

[GameboyRMH]

Usually the frames are made of chromoly or stainless steel, body panels are made from CF - the big exception being F1 where they use a CF monocoque.

CF body panels actually give very poor value for money...but if there's a lot of money to spend...

On regular production cars on the other hand, CF or a substitute could be very useful because they have to meet safety standards and you don't get the benefit of 6-point harnesses or helmets with HANS devices.

Re:

[Zibodiz]

I'm not very familiar with Nascar, etc., but in the off-road race truck world, there's nothing more popular than a carbon fibre tube frame. Since that's my area of interest, that's what I'm familiar with; but I'm surprised other racers don't use it as well. It seems like what's good for the goose would be good for the gander.

Re:

[GameboyRMH]

Huh I've never seen a CF tube frame (unless you mean a metal one with CF reinforcement). I've competed in offroad rallies and never heard of them. Got any links?

Re:

[Zibodiz]

My cousin got one made for his sandrail, but for the life of me, I can't seem to find any reference to such an animal. This was about a decade ago, and I've since lost touch with him -- now you've gotten me seriously curious. I have a few family members that have been competing for years to have 'the best', and last I'd heard, he was winning, but since I've moved elsewhere in the country, I'm not in contact with it much. At the time, I (being poor) was more of a Jeep guy, while most of the family focused

Re:

[Zibodiz]

All I can find is a single company that makes roll cages for Porsche 997/996s -- so it's undoubtedly available somewhere, but I got the impression it was being custom made. Roll cage [oakleydesign.eu] and a picture [bespokeventures.com].

Re:

[CastrTroy]

I don't think that there's anything inherently expensive about carbon fibre. The raw ingredients aren't really that expensive. I'm pretty sure a lot of the price has to do with patents on various polymers that are used, as well as other aspects of carbon fibre construction. I'm waiting for the day when carbon fibre actually becomes the cheapest method of creating a bike. With the rising price of metals, and the ever lowering costs of carbon fibre, it will eventually be the case that carbon fibre (or thi

Re:

[MrSenile]

Does this mean we'll need new car insurance for termites and weevils?

Re:

[The Grim Reefer]

One of the biggest problems with building a race car/truck is often the cost of the materials. The stiffer frames built from carbon fiber are insanely expensive. Imagine if we could build a frame out of this for around the cost of steel --the technology could then be used in ordinary cars, with a huge weight savings, and a safer, stronger frame. It could revolutionize the automotive design industry.

But how much of that insane cost is due to the materials? A large amount of it is due to the labor that is needed to coat and lay the different layers of material and vacuum bag it. There aren't a lot of automated systems for doing this. I'm sure there could be, but I would guess that larger manufacturers would not want this either. It becomes a lot harder to sell new vehicles when the structural components no longer rust or the body doesn't get dings like steel.

Still, the manufacturing aspect becomes qui

Real World Implications

[UnknowingFool]

So does this mean that Ikea furniture will now be bullet proof too?

Wood armor

[kwishot]

Wood armor - we're back to the medieval days!

As with most (all?) engineered wood products - what about when it gets wet?

From TFA:

Swelling introduces a large number of nano-defects in the cellulose structure. Although there is little swelling of a single CNC, water can penetrate into amorphous cellulose with ease, pushing apart the individual cellulose molecules in those regions. In addition, the bonds and interfaces between neighboring CNC will be disrupted, thereby significantly reducing the strength of any material reinforced with CNCs. To make matters worse, water can move easily over the surface/interfaces of the CNCs, thereby allowing water to penetrate far into a composite containing CNCs.

They suggest painting it. To be honest, I'm a skeptic. We wore body armor during my time in Iraq, and the abuse that our gear received cannot be overstated. Rain, heat, jumping over walls, dealing with mud. No thanks, I'll stick with Kevlar.

Re:

[darkmeridian]

It sounds like they will be using CNC to armor cars or windows rather than body armor. In such applications, you could paint it, then stick it somewhere it won't be touched on a day-to-day basis, such as between the car's body panels. If the CNC is so much cheaper, you probably could put a lot more of it if weight allows.

I'll note that Kevlar and Spectra also have problems with high humidity/high temperature conditions. Dragon Skin was supposedly revolutionary body armor that got stopped by the military. Th

Re:

[jandrese]

I guess you could cover it in a thin layer of epoxy after painting (adding weight), but yeah moisture control is going to be a problem in that situation from the sound of it.

Re:

[X0563511]

I can't see a sealant layer adding any weight of significance.

Re:

[jandrese]

You might be surprised how much paint can weigh. On a car the paint adds about 8-10lbs or so. On something like bodyarmor you could easily be looking at a pound or more of extra weight for a relatively scratchproof coat of epoxy. Body armor is already designed with a tradeoff of weight versus protection, so anything that adds weight without adding protection is going to be carefully scrutinized.

Re:

[Jarik C-Bol]

For a great example of paint weighing a lot, look at the space shuttle. Ever wonder why the external fuel tank was orange? well, if you look back at the footage, the first few external tanks where painted white. The orange is the sprayed on insulation on the tank. after the 3rd one, someone at Lockheed (who made the tanks) realized that they could save 600lbs of launch weight by not painting the foam after it was sprayed on.

Wrong way round

[Kupfernigk]

Look up Wood Epoxy Saturation Technique.

Water is an issue for Kevlar and Aramid fibers too

[drainbramage]

My (non wood) vest came with a notice to avoid water/moisture.
Don't know if it as big an issue for military grade vests because special coatings may be applied....
Too many Google hits to bother listing.

Re:

[Dinghy]

As with most (all?) engineered wood products - what about when it gets wet?

So it's not really bulletproof against a watergun?

Re:

[Bigby]

So logically, if it weighs the same as duck...

Re:

[Atzanteol]

Then it's... a witch?

Comparisons

[Sez Zero]

The chart from TFA is all you really need to know.

Material, Elastic Modulus, Tensile Strength
CNC, 150 GPa, 7.5 GPa
Kevlar 49, 125 GPa, 3.5 GPa
Carbon fiber, 150 GPa, 3.5 GPa
Carbon nanotubes, 300 GPa, 20 GPa

So a great compromise material when you take cost into account, if it comes to fruition.

Re:

[crizh]

It would be nice to know how strong it is in compression as well as under tension.

Those figures for Carbon fibre are bollocks BTW. Elastic Modulus varies from a third to five times that depending on how it's made. My gut tells me Elastic Modulus ought to be in MPa rather than GPa. Could be wrong but Wikipedia will know the truth of it....

Re:

[crizh]

I'll correct myself then.

Tensile strength should be in MPa. Those figures are all correctly adjusted but the Carbon Fibre ones are again wrong.

Typical figures are from as low as 0.25 GPa all the way up to 7.1 GPa.

Re:

[Thelasko]

Sorry, but elastic modulus usually isn't a big consideration, unless the structure has to be extremely rigid for some reason. Otherwise, you might as well let them flap in the breeze like airplane wings. [flightglobal.com]

The best way to compare materials is a plot of density vs. tensile strength. [cam.ac.uk](Java warning!) In this plot, the materials in the upper left corner are ideal. TFA states the material's density as 1.6g/cc (or 1600kg/m^3) and the tensile strength of 7.5GPa (or 7500 MPa) which would make it the best material

Re:

[Solandri]

The problem I see with that chart is it's comparing macroscopic material properties to microscopic material properties. The stats for kevlar, carbon fiber, and steel (which are in TFA but you omitted) are macroscopic measurements - sizes and lengths you'd use in real-life construction. The stats for CNC and carbon nanotubes are for microscopic samples. The sample crystalline cellulose given in TFA is only 5x300 nm in size.

For comparison, the crystalline grains of steel are a few to a hundred micromete

Wooden bicycles!

[macraig]

So when can I buy a "wooden" bike frame? Extra bonus points if it can be composted (along with me) when it gets totaled by a hit-n-run driver.

Re:

[Pope]

There are bamboo bike frames, go nuts.

Re:

[macraig]

The splinters from those suckers are a bitch!

Stronger

[ThatsNotPudding]

Stronger burn rate too, I assume.

When, please? :-)

[kheldan]

So when can I order my super-light, super-stiff CNC composite racing bicycle? Please? Is there a pre-order process? Can I put it on lay-away?

Project Habakkuk

[Ukab the Great]

Goes to show that Pykrete [wikipedia.org] was ahead of it's time.

In the future...

[N0Man74]

In the future, there will be a Legend of Zelda game where the Wooden Shield will be the best shield, rather than the starting shield.

Yes, but how long before...

[hAckz0r]

Yes, but how long will it be before I can run it through my reprap? You see, I need all my projects to be completly 'bullet proof concepts' before commiting them to physical models.

Ok, a little more searious question, how well does it hold up to long term water exposure? Will it rot from sustained moisture or degrade out in the environment, and more or less than kevlar? A super fiber material is only super if it lasts a long time out in the environment.

Performance of product - seems promising

[ace37]

This will require some years of development, but it certainly shows promise.

The strength and stiffness of a fiber are not the performance we'll directly obtain from the materials. It's more like a potential number. Typical 'carbon fiber' products have on the order of 60%-75% fiber and 40%-30% plastic by volume, where epoxy is one of the most common plastics. The carbon fibers contribute strength and stiffness, but it would fracture easily with a rigid binder. The softer plastic binder acts to share and redistribute loading efficiently (after some fibers break) to keep the carbon fibers more or less all carrying load effectively.

They'll have to go experiment until they find which plastics work well with this. That took a long time for composites since if the plastic binds too strongly to the fibers, the resulting composite is very brittle and loses a lot of potential strength. Also, to optimize the bond strength, carbon/kevlar/glass/etc fibers are typically treated with a 'sizing' that help the fibers bind optimally to a targeted plastic or set of plastics. Hopefully this new material can leapfrog off of the progress and work of the composites industry. Humidity will also be a concern that requires some testing and may cause some compromise on binder selection.

Also, 'typical' fiber properties really depend on the application. A typical aerospace carbon fiber is Hexcel IM7, which shows considerable improvement over the properties they reported in the article, and others can be a fair bit better or worse. The IM7 6k tow fiber is reported to have:
Ultimate Tensile Strength: 5.15 GPa
Elastic Modulus: 276 GPa
http://www.hexcel.com/resources/datasheets/carbon-fiber-data-sheets/im7.pdf [hexcel.com]

Sample properties of one finished product provide:
Ultimate Tensile Strength: 2.5 GPa
Elastic Modulus: 163 GPa
http://www.hexcel.com/Resources/DataSheets/Prepreg-Data-Sheets/8552_eu.pdf [hexcel.com]

A few years ago the least expensive carbon fiber would sell for ~$15/lb raw material with the epoxy typically around $9/lb, and the IM7 fiber above is probably an order of magnitude more costly. I don't know what figures they used for their cost comparison, but they can't really have the whole cradle to grave process figured out at this stage anyway, so we'll see what happens when they get some material fabricated.

There's a lot of work ahead, but this seems promising!

Bacteria that can eat this?

[seandiggity]

Seems to me a bacteria could be genetically engineered to eat this stuff, just like Duroplast. Could make its use in warfare untenable.

Re:

[Billy the Mountain]

I disagree. The Mosquito was one of the best twin engine planes made during WWII. It was made almost entirely of wood. Wood is subject to rot, insects and other problems but for it's purpose it was the best material for the job: Non-strategic, easy to work with--they had cabinet makers making the aircraft. Sure, you don't see many Mossies remaining today but they lasted as long as the needed to.

I think that even if a CNC-eating bacteria were to be developed, reasonable precautions could be made. I

They're looking for another way to use their trees

[bdwoolman]

Paper demand is very sluggish in the developed world. The slow death (or metamorphosis) of the newspaper industry that is directly related to the digital publishing revolution is clearly responsible. The less-paper world is coming. It's coming later than many thought it would, but the paper companies are really feeling it. A friend who follows the paper industry told me that projected paper demand is a full thirty percent lower now than expected in the developed world. Not that demand is actually shrinking, it is just growing slower -- a lot slower -- than earlier trends projected. The developing world is more robust. Corporate investments in forests are by nature long-term. And there is a glut due to demand not growing as projected. Hence intensive research -- as seen in this FA -- into other ways to use pulp in quantity.

I briefly looked for something comprehensive to make my point and found this article from Paper Age. [paperage.com] It is pretty general, but the writing is on the wall-mounted tablet display.

Re:Same transparent aluminum thought

[Sez Zero]

Transparent aluminum is ballistics-resistant so much so that it doesn't even scratch. It's also much more expensive.

Yeah, but its barter value isn't very high. A guy I know (Monty) only got a few big sheets of plexi in exchange for the transparent aluminum formula. Sheesh.

Re:Same transparent aluminum thought

[ackthpt]

Transparent aluminum is ballistics-resistant so much so that it doesn't even scratch. It's also much more expensive.

Yeah, but its barter value isn't very high. A guy I know (Monty) only got a few big sheets of plexi in exchange for the transparent aluminum formula. Sheesh.

Yeah, I heard some hospital patient grew a new kidney, too, but got run down months later by someone driving a car made of transparent aluminum, never saw it coming.

Re:

[NatasRevol]

Stupid, silent engines.

There oughta be a law!

Re:

[K. S. Kyosuke]

...or to start growing industrial hemp?

Re:

[mcvos]

You don't need to cut down trees from this. You can make it out of twigs or old furniture or any other kind of wood left-overs.

Re:

[X0563511]

Can paper be used?

Re:

[luis_a_espinal]

You don't need to cut down trees from this. You can make it out of twigs or old furniture or any other kind of wood left-overs.

Or just grow the trees like the paper industry does.

But if they do, then they would rob /.ers the opportunity to yell "tree killerssss!!!11".

Re:just what human beings need....

[afidel]

Uh, at least in the US and Canada the trees used for making pulp come from forests owned by the paper companies and they sure as hell replant them when they harvest. Mead Westvaco (as an example) has a fairly long term view of things, they own 3M acres and process them in a fashion that minimizes the amount of land they have to purchase to meet demand. The only bad thing about timber harvesting is that there's no old growth forests, but those were cut down generations ago and have little to nothing to do with modern forestry practices.

Re:

[ShieldW0lf]

Uh, at least in the US and Canada the trees used for making pulp come from forests owned by the paper companies and they sure as hell replant them when they harvest. Mead Westvaco (as an example) has a fairly long term view of things, they own 3M acres and process them in a fashion that minimizes the amount of land they have to purchase to meet demand. The only bad thing about timber harvesting is that there's no old growth forests, but those were cut down generations ago and have little to nothing to do with modern forestry practices.

Right... acres and acres of allelopathic monocrops... what harm could that do?

Around my neck of the woods, it's all about evergreens. They ship em around the world for Xmas trees, and the fact that they replant makes it seem like it's all ok.

Shame the soil is rendered so acidic you could put it under your tongue and take a trip to see lucy in the sky.

Re:just what human beings need....

[afidel]

Actually they generally don't do that, because one blight or beetle means they lose an entire plot for many years, plus their plants will have varying needs and having the cutting crews constantly moving equipment to meet demand is inefficient. Christmas tree farms are a different animal, there the trees are planted and harvested in a handful of years and the harvest season is very short so making things as monoculture as possible is seen as an advantage (plus if you lose a crop your downtime is significantly less).

Re:

[h4rr4r]

How is this different than fields of wheat or corn?

Do they not have any process to prevent competition?

Re:

[NEDHead]

Have you ever tried to put lights and ornaments on wheat? Duh.

Re:just what human beings need....

[ShieldW0lf]

How is this different than fields of wheat or corn?

Do they not have any process to prevent competition?

They don't damage the soil the same way... but yeah, they're pretty bad too.

For a smarter way, I'd suggest checking out Geoff Lawton's DVD "Establishing a Food Forest the Permaculture Way". You can view some decent excerpts searching Youtube for the term "Lawton's Guide To Permaculture Design and Strategy"

Food forests are complex and thus not friendly to automation, so it's not a profitable way for one man to establish himself as the gatekeeper to the cupboards of a million of his fellows.

However, they're less expensive in terms of materials, produce significantly more food in the same space, require no maintenance, and once they're built, they can and have lasted thousands of years.

Example: 300 year old food forest in Vietnam
http://www.youtube.com/watch?v=-5ZgzwoQ-ao [youtube.com]

Example: 2000 year old food forest in Morocco
http://www.youtube.com/watch?v=hftgWcD-1Nw [youtube.com]

I used his principles when designing a border of perennial food-bearing plants to protect our local urban garden society site from hungry homeless people. Now instead of raiding peoples personal plots, they feed themselves from the edge and go on their merry way. I'm determined to leave an oasis to my children when I die, and hope to be able to get the land and get started with the labour in the next couple of years.

Re:

[Artifakt]

In a way, it's very much the same. Before the US grain belt was developed and planted, the average biodiversity was very high, on the order of being able to find upwards of 1,000 different plant types in a given acre. The modern number for the region is only 6 different plant specie per acre. This doesn't mean that all those plants went extinct, just that they now often occur much less than once per acre on average, but many cases are definitely known to be extinctions. So yes, fields of wheat or corn are t

Re:

[spauldo]

A good chunk of the Okies ended up in California doing migrant labor (both sides of my family were involved in that, so no, I'm not just basing it off of The Grapes of Wrath). If they hadn't been there, then they probably would have just had Mexican migrant labor doing it, so there wasn't really any advantage from the Okie influx.

There was a major disadvantage - Oklahoma had just acheived statehood some 30-40 years before the dust bowl. Towns were growing, and new businesses were being built up. A lot of

Re:

[SuricouRaven]

True, in those regions. The paper industry has something of a reputation for environmental damage because this wasn't always the case. If you want to see some really destructive logging, try looking at hardwood for furniture.

Re:

[CastrTroy]

Actually, in Canada, the paper companies don't own the forests. They are harvesting crown land. The wood and paper companies pay only and "administrative fee" to allow them to cut down the trees. They do however have to replant after they are done. The good thing is that the government stays in control of the forests and can stop logging on certain areas if they deem fit. This is the reasoning for the softwood lumber dispute. Americans claim the Canadian forestry companies are receiving a subsidy, and th

Re:

[vlm]

....another crappy excuse to cut down trees.

Yeah... speaking of that, growing lumber trees and sawmills are not exactly new or high tech. Nor all manner of using wood as an industrial chemical feedstock. How come this is "new"? Perhaps, this is an interesting example of how something old and boring still has some exciting research potential in it.

The most interesting story related to this is probably why "we" haven't heard of this until 2012.

Re:just what human beings need....

[Jarik C-Bol]

No, this is not an excuse to cut down trees. Its an excuse to grow more, and cut down on the amount of waste that is discarded from what wood products we use. TFS even stated that CNC is made from 'wood chips and sawdust' which was, until this product was discovered, a trash byproduct of the lumber industry.

Re:

[mcvos]

You need way more tensile strength for that.

Re:

[X0563511]

Why? There should be little to no tension on the line at rest.

Re:

[mcvos]

I think we're talking about the space elevator here, aren't we? So tensile strength is really the only thing that matters. Or do you have some alternative ideas on its construction?

Re:

[spauldo]

The line isn't at rest - it's orbiting the earth.

The part of the line on the earth is essentially orbiting geosynchronously at sea level, so it tries to fall to the ground. The other end of the line is way out past geosynchronous orbit, so it's trying to escape Earth's gravity. The two balance each other out, but there's a lot of tension in the middle.

Re:

[Nikker]

I say we outlaw termites!!

Re:

[gl4ss]

"Perhaps the most practical approach will simply be to paint or otherwise coat CNC composite materials in some material that keeps water away. For such a prize - inexpensive strong and rigid materials - we can be sure that innovations will follow to make the theoretical practical."

just coat it, embed it in resin or whatever.

Re:

[similar_name]

They didn't need transparent aluminum, nor did they use it. They used their knowledge of it to pay for the late 20th century materials they did use.

Re:

[BattleApple]

But didn't they buy plexiglass for the tank? Why not just use aluminum?

Re:Transparent Aluminum

[Martin Blank]

They traded the formula for transparent aluminum for Plexiglas. It's less dense than aluminum, allowed the crew some capacity to actually monitor the whales directly (the Klingon vessel's internal sensors may have been limited or too unfamiliar), and most importantly allowed movie watchers to see the whales.