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A Chemical Bath and a Hot-press Can Transform Wood Into a Material That is Stronger Than Steel, Researchers Find (nature.com)

Posted by msmash on from the closer-look dept.

The process, and others like it, could make the humble material an eco-friendly alternative to using plastics and metals in the manufacture of cars and buildings, Nature reported this week. From the report: "It's a new class of materials with great potential," says Li Teng, a mechanics specialist at the University of Maryland in College Park and a co-author of the study published on 7 February in Nature. Attempts to strengthen wood go back decades. Some efforts have focused on synthesizing new materials by extracting the nanofibres in cellulose -- the hard natural polymer in the tubular cells that funnel water through plant tissue. Li's team took a different approach: the researchers focused on modifying the porous structure of natural wood. First, they boiled different wood types, including oak, in a solution of sodium hydroxide and sodium sulfite for seven hours. That treatment left the starchy cellulose mostly intact, but created more hollow space in the wood structure by removing some of the surrounding compounds. These included lignin, a polymer that binds the cellulose. Then the team pressed the block -- like a panini sandwich -- at 100C (212F) for a day. The result: a wooden plank one-fifth the thickness, but three times the density of natural wood -- and 11.5 times stronger. Previous attempts to densify wood have improved the strength by a factor of about three to four.

6 of 251 comments (clear)

  1. Re:Cost and workability vs strength by ColdWetDog · · Score: 5, Interesting

    I'd also wonder how 'eco friendly' this is. Heated sodium hydroxide baths followed by pressure and more heat. Lots of extra joules and eco unfriendly chemicals in there. I suppose it could be recycled easily but so can steel and aluminum.

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  2. Re:Cost and workability vs strength by ravenshrike · · Score: 5, Informative

    There's a reason you should have read the fucking article.

    Hu says that his study’s main finding is that removing the right amount of lignin is key to maximizing performance. In his team’s experiments, removing too much of the polymer resulted in less-dense, brittle wood, suggesting that some leftover lignin is helpful in binding the cellulose fibres when they are hot-pressed. The wood was strongest when roughly 45% of the lignin was removed.

  3. Re:Cost and workability vs strength by quonset · · Score: 5, Informative

    Steel and aluminum in particular are NOT "easily recycled" - in fact that's a much more expensive process than creating engineered wood of any type by a factor nearing 100x

    To use a French term: bullshit. Recycling aluminum is as easy as tossing it into the furnace. Unless you're going to claim mining the bauxite, transporting it, refining it, THEN heating it into ingots is somehow less expensive than transporting flattened cans to a mill and dumping them in the furnace.

    Oh wait, you don't have to make up more bullshit. Recycling scrap aluminium requires only 5% of the energy used to make new aluminium.

    For steel, only 25% of the energy needed to process raw ore is needed to remelt steel.

  4. Re:Trabant by BlueStrat · · Score: 5, Informative

    Trabants were partially made of plywood, weren't they?

    Yes. Also, many WW2-era German, Russian, and British aircraft of many types including fighters, especially early in the war for the Soviets and late in the war for the Germans, used various types of laminated and/or compressed wood, some as a major percentage of the vehicle. The British Mosquito was one of the fastest aircraft in the WW2 sky and made the first bombing runs on Berlin due to it's speed, payload capacity, long range, and was made largely from wood. It served many different roles from heavy fighter, to twin-engine fast bomber, to fast reconnaissance, and more. Pilots loved the "Mossy". It was such a great aircraft the Germans tried to copy it, but with only limited success.

    Strat

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    Progressivism (aka US 'Liberalism'): Ideas so good they need a police/surveillance-state to enforce.
  5. Re:Trabant by hey! · · Score: 5, Informative

    In WW2 the British built a multi-role military aircraft called the "Mosquito" out of plywood. Originally conceived as a very fast lightweight bomber, it was a brilliant success at a wide variety of tasks: night fighter, high altitude interceptor, ground attack craft, photo-reconnaissance craft, torpedo bomber.

    Basically it was the anti-F35: designed to do one thing well, it ended up doing everything pretty well.

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  6. Re:Fire resistance by rerogo · · Score: 5, Informative

    Yes and no. The 2x4s used in standard residential framing burn quite readily. Larger timbers form a protective char, which, as long as it remains on the wood, protects the inner core from fire. If the timber has been specced correctly, the char does not penetrate deeply enough to compromise the structure for some time.

    Steel, meanwhile, is an excellent heat conductor and therefore will start to sag as soon as the outer edge of the steel has reached a temperature that will cause sag.