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

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.

Cost and workability vs strength

[Hadlock]

Generally solid wood is a good choice for many projects due to three key reasons:

1. Cost

2. Workability; can be worked with hand tools and power tools, glues easily and strong

3. Water safe for years with no significant prep work

Steel is a lot stronger per pound, but to join it you either need to use mechanical fasteners or weld it. This requires expensive ($300+) specialized equipment like a welder and/or drill press. Wooden boats are generally good from 15-20 years without major renovations, and are serviceable with major repairs every 10-15 years up to 60-75 years after initial construction. Steel needs to be galvanized, or painted, or sanded and resurfaced every 2-5 years, especially in a saltwater environment (most of the things in your house arrived from asia in a big steel boat).
 
Super dense wood that's lost most of it's lignin likely is hyper brittle and doesn't machine well. Also, I can only imagine what happens when it's immersed in water. There's a non-zero chance it swells up like a dry sponge when it comes in contact with water or even regular humidity.

Re:Cost and workability vs strength

[ColdWetDog]

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.

How is killing trees more eco-friendly, than ...

just recycling an infinitely renewable inorganic compound or metal?

I never followed that "logic".

Trees grow ridiculously slowly. And no, you can't just plant a few fast-growers (in a mono-culture even) and call it the same as an ancient complex forest eco system that sustained tens of thousands of species in an elegant balance of cycles!

Meanwhile, metals and generally crystals and materials made from ore are easily recycled in a single day, with some smelting and forging, using only solar energy from places where nothing lives anyway.

"Stronger than steel" is silly anyway. Steel is not very strong. And what do you mean with that word anyway? There's half dozen things that that can mean, and in none is steel quite the best we have. Steel is only popular, because it is very abundant and very cheap, with acceptable properties.

Using trees for building things (apart from decorative furniture and the likes) is as stupid as using fields to grow crops to then turn them into gasoline instead of food.