From iron waste to mushrooms, the world of concrete alternatives is exploding with innovation. Here's what's out there now, and what's to come.
Concrete is literally the foundation of our civilization. We use twice as much of it as all other building materials combined. curved patchwork
But concrete is also a major contributor to global warming, producing 8% of carbon dioxide emissions annually. As such, scientists, the U.S. government and the concrete industry have been racing to find alternatives.
“There’s been this influx of innovation during the last five years,” says Mija Hubler, co-director of the Center for Infrastructure, Energy and Space Testing at the University of Colorado.
“A lot of the push is coming from the government, for sea level rise and other environmental changes. But there is also a lot of interest from home builders. From the engineers I’ve talked to, it’s their dream to cater to the home builder, because that’s where the passion is.”
Hubler is working on creating self-healing concrete that can repair existing structures so they don’t have to be torn down. Her product should be available in a couple of years. That’s also the case for a number of new concrete innovations and alternatives.
“I expect there will be a sudden explosion of products on the market in the next year or two, because right now we’re seeing demonstration projects,” she says. “Then we’ll be able to scale up production.”
Cement (aka Portland cement), the main ingredient in concrete, is one of the most energy-intensive products we make.
Manufacturing requires super-heating of limestone, fired by fossil fuels. The resulting chemical reactions produce more carbon dioxide. Add in emissions from transporting the heavy material, and creating one pound of cement releases one pound of carbon dioxide into the atmosphere.
Concrete has good compressive strength, but some alternatives offer better tensile strength, which makes them more crack resistant.
“Imagine something that is cast into a form like concrete, but it behaves more like a piece of wood,” says Hubler. “You could actually design unique archways and things like that.”
Some new technologies harken back to old-school earthen concepts like adobe, but modernized to make them more commercially viable. These work well for insulating homes from extreme temperatures, reducing the energy spent on furnaces and air conditioning.
Quarrying limestone for cement rips up the landscape and causes dust pollution. Making concrete is also water intensive, accounting for around 10% of worldwide industrial water use. Concrete alternatives alleviate many of these problems.
Here are some of today’s more readily available greener concrete alternatives for home building and improvement projects.
Hempcrete is made from the woody cores of hemp plants (aka hemp hurd), mixed with lime, sand and water. The resulting product is one-eighth the weight of concrete and resistant to mold, insects, fire and earthquakes. It can’t be used as a foundation or in load-bearing walls, but works for interior walls.
It comes in prefab panels, bricks, cinder blocks and insulation. Its insulation R-value runs between 2.4 and 4.8, compared with fiberglass batts at 2.2 to 4.3. It’s also an environmentally friendly replacement for drywall.
Hempcrete is ultimately a carbon-negative product, because the plants sequester CO2 while they’re growing, and the products sequester CO2 once they’re installed in buildings. Hempcrete production also uses much less water than concrete production. Prices vary widely depending on local availability, but are typically more expensive than standard concrete.
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Several variations of compressed or rammed earth blocks can be found on the market.
While similar to adobe and other centuries-old processes, modern earth blocks often have fibers, bamboo or rebar in them for added strength. They’re also fire-resistant, with great insulating properties. Higher-performing earthen blocks can be used in lieu of any standard masonry products.
Environmentally, they’re a climate-conscious choice because they’re unfired, don’t have lime and are often made locally from already mined materials, like overburden (i.e. the extra soils above quarries that would otherwise be discarded). Cost ranges widely, but can be as cheap or cheaper than concrete.
In several hybrid concretes on the market, like ashcrete and fiber cement, more eco-friendly materials replaced some of the energy-intensive ones.
Ashcrete uses fly ash from coal combustion. This strategy hearkens back at least as far as the Romans, who used volcanic ash to build aqueducts and other long-lasting buildings. In some cases, ashcrete is stronger than standard cement and cures more quickly.
Ashcrete can be a general substitute for Portland cement for everything from masonry blocks to columns and road construction. It’s often less expensive than standard concrete.
Fiber cement uses wood pulp, which is lower maintenance in coastal climates because it resists cracking and warping. Typically used as roofing and siding panels, it’s a little more expensive than vinyl siding.
Ferrock uses 95% recycled materials, combining industrial steel dust waste and silica from ground-up glass. Those are mixed with water and exposed to high concentrations of CO2. The result: A carbon-negative concrete alternative up to five times stronger than regular concrete.
It also has better compressive strength and flexibility, which makes it good for earthquake-prone regions. Ferrock can be used as slabs and bricks in load-bearing situations, as well as for pavers and walkways. Because it’s relatively inert, it’s also fine for marine-based projects.
Environmentally, Ferrock is carbon negative because it absorbs more CO2 from the air than it releases in production. While not super expensive for small-scale projects, it’s not yet widely available for consumer purchase. Check with local contractors to see if they can get their hands on some for you.
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Mycelium structures, aka mushroom block, are grown from fungi fibers. They’re one of a growing number of biomass building materials in development and on the market.
Mycelium is a lightweight, versatile material that can be grown into any shape. It’s fire, water and mold resistant, plus self-healing. It’s not easy to find in large quantities on store shelves, and costs vary widely. But you can actually grow your own mycelium for walkways, driveways and bricks.
Biomass ingredients like fungi and bacteria are also used as binders in more traditional cements. “They are providing a cemented product that you can mix with sand or rocks, but using natural processes like we see in coral reefs and so forth,” says Hubler.
This millennia-old building material got a reboot in the 1970s. Straw bale construction is essentially stacks of tightly baled straw, anchored with rebar, bamboo or wood, then covered with plaster or plywood.
Straw-bale walls are effective temperature and sound insulators, with up to three times the fire resistance of traditional homes. They’re also good for earthquake and wind resistance, but often not ideal for humid climates.
Straw is a renewable, nontoxic, carbon-friendly material that’s also affordable. While straw-bale construction is not embraced everywhere, some building codes do recognize it, and some local banks offer financing for straw-bale-home construction loans.
While concrete alternatives are the greenest choices, the concrete industry hasn’t been sitting on the sidelines. Hubler says they’ve been under a lot of pressure lately to revamp their traditional products.
“The concrete you buy right now already includes waste products to reduce the amount of cement it needs,” she says. “The ordinary Portland cement you get off the shelf is no longer just cement. It has a lower impact on the environment already because the whole industry is reimagining.”
Beyond ingredient shifts, other additives are being introduced into regular concrete as well.
“You may have noticed sometimes a crack in the sidewalk looks a little fuzzy,” says Hubler. “That’s because in some areas we’ve started putting polymer fibers in them. Pretty soon those fibers will be replaced with something that’s solid carbon, to sequester carbon into those products.”
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