Chinese Company '3D-Prints' 10 Buildings In One Day

Lucas123 writes: A company in China has used additive manufacturing to print 10 single-room buildings out of recycled construction materials in under a day as offices for a Shanghai industrial park. The cost: about $5,000 each. The company, Suzhou-based Yingchuang New Materials, used four massive 3D printers supplied by the WinSun Decoration Design Engineering Co. Each printer is 20 feet tall, 33 feet wide and 132 feet long. Like their desktop counterparts, the construction-grade 3D printers use fused deposition modeling (FDM), where instead of thermoplastics layer after layer of cement is deposited atop one another. The cement contains hardeners that make each layer firm enough for the next. Yingchuang's technique builds structures off site in a factory one wall at a time. The structures are then assembled onsite. The technique is unlike U.S.-based Contour Crafting, a company whose 3D printing technology to form the entire outer structure of buildings at once, The Yingchuang factory and research center, a 33,000 square foot building, was also constructed using the 3D printing manufacturing technique. It only took one month to construct.

Is it safe?

Do we know how safe it is to work or live in a building made of these chemicals?

I remember when portables started being added to schools, it was determined all the various chemicals in them were making kids and teachers sick.

They need to determine the potential effects on health first.

Re:Is it safe?

[NoKaOi]

The possibility of it collapsing is probably more of a concern than "chemicals." (FYI water is a chemical, and concrete generally contains water, so I guess they're screwed).

Re:Is it safe?

[Bodhammer]

You know this is in China, right? They don't worry too much about stuff like that.

Re:Is it safe?

[K.+S.+Kyosuke]

Isn't concrete a pretty durable material?

Re: Is it safe?

[tibit]

Well, if they can solve the problem of rebar, then buckling won't be an issue anymore, since rebar has proper strength from the get-go. I don't really see a slower machine being much better than a fast one. The overall size of the machine depends on what you fabricate, not how fast you go about it (within reasonable limits of concrete pouring).

If I were to make a product out of it, I'd have a 5 axis machine with switchable heads. One head with an extra axis or two that can put out, restrain, cut and spot-weld rebar. Another head that can print concrete. With a 5 axis machine you can trivially print concrete on the surface of rebar going in any orientation. Heck, if they use a mix with fast initial cure, they can do skin/infill just like plastic 3D printers do, except that the infill uses a less viscous mix that self-levels. This could dramatically speed it up, and you wouldn't need to print around every piece of rebar but only some trickier ones.

This could be very much a breakthrough technology, but it would need a bit of capital investment as those machines wouldn't be cheap. For very large constructions, instead of X-Y-Z linear actuators you would need a delta-style arm. Even a big one could be assembled on site and print an entire highway overpass in a week or two, starting with nothing but a hole in the ground.

Re: Is it safe?

[tibit]

Once you have a positioning system (a manipulator) good enough for 3D printing concrete, then adding rebar functionality is peanuts in comparison. Heck, not doing so would be silly, since you should try to leverage the heck out of the expensive manipulator. I personally don't see much housing uses for non-reinforced concrete. As the ground settles, it will crack. Rebar is a relatively cheap fix for that.

Re: Is it safe?

[dbIII]

Actually, what I had in mind was smaller buildings that don't need rebar,

I wouldn't be comfortable even making a concrete driveway without reinforcing.

I'd be willing to bet with these things there's bits of rebar standing up and linking the different layers.

and tackling the problem of concrete hardening

Pretty well understood chemically for the last century with a lot of variations for different conditions.

This thing sounds like a more flexible version of the sort of thing used to make concrete beams offsite before trucking in to construction sites and it's just got the "3D printer" label because that's what's cool this year (although I've thought 3D printers were cool since the 1990s :) ).

Re:Is it safe?

[mikael]

Back in the 1960's, we used to build high-rise buildings using pre-fabricated blocks. Bits of geometry like stairwells, floors, blank walls and window frames. The only problem was that these structures were completely air-tight with no ventilation or air conditioning. Combine that with people cooking, drying off laundry in their living room and airing closets, there wasn't anywhere for the moisture to go. So it just condensed into the walls creating mold and other health problems.

Re:I for one...

[Vermonter]

They can't be any worse than the corrupt politicians we have in power now.

Bigger than a tiny house

[HangingChad]

Those structures are bigger and sturdier than a tiny house with the added advantage of being made from recycled building materials.

The real question is structural strength and integrity and what agents are they using to make the mix dry fast. The Chinese could be using some nasty chemicals that wouldn't fly in building materials over here (Chinese drywall anyone?).

Still, if the units end up being even roughly equivalent to poured concrete, I could see living in a printed house, no problem.

Re:Bigger than a tiny house

[mythosaz]

In the photos, it looks like they're hanging sheets of pre-printed concrete.

I'm not sure this is anything novel, other than how they "printed" the Lego pieces and then drove them to the site.

Re:Bigger than a tiny house

[tibit]

No different from a brick building, really. You can use brick in some places, in some other places you can't. Hopefully here they could use brick :)

Not sure

[ArcadeMan]

As the future president of the U.S.A. would say, I'm not sure.

I would trust Contour Crafting constructions since they're built in a single run. But not this method of printing half walls in a factory which are then assembled on-site, I'm not sure what they're gaining by doing it this way. Looks more like a 3D printed puzzle to me.

Re:Not sure

[amicusNYCL]

But not this method of printing half walls in a factory which are then assembled on-site, I'm not sure what they're gaining by doing it this way.

I assume you missed the part about building 10 single-room buildings in a day for $5,000 each.

Re:Not sure

[rtb61]

Well you see the whole show was technically an illusion. The extrusion process for the material is really neither here nor there. The computer control of a concrete pump and the outlet of a house. The real important information that everyone is ignoring is the concrete mix. What is in it, how are they achieve higher extrudability with low slump http://en.wikipedia.org/wiki/C..., what is the compressive and tensile strength of the concrete, how is it being reinforced, what are it's insulative properties, how is moisture movement being controlled, what happens when ice forms and how does it handle cracking. Exactly how toxic is the mix and how safe is it to use. What happens when you cut and drill into it.

Everyone loves to focus on 3D printing whilst ignoring the material the is used to do the printing and how it actually performs.

What does this solve?

[l0ungeb0y]

Seems they could have simply created some "molds" with a some 2x4s and a couple plywood sheets and just dumped the cement formula in to make the individual walls instead of this elaborate process. How has the process of making a cement slab been improved by using an expensive industrial grade 3D printer? Smells like "we did it because we could" rather than "doing it because you should".

little pig, little pig, LET ME IN!

[Thud457]

that one caught on fire, burned down, fell over then sank into the swamp

Re:Can you say...

[MrNickname]

Actually, I'm pretty sure I can't.

Re:Plumbing & electrical ?

[richy+freeway]

From the article : "The machines can also automatically embed all the conduits for electrical, plumbing and air-conditioning, as well as place electronic sensors to monitor the building's temperature and health over time."

Advantage?

[SlayerofGods]

While 3d printing is cool and all what advantage does 'printing' concrete slabs offer or normal precast molds and just pouring the concrete in the old fashion way?
The article doesn't make it clear, but since this is a company and not an experiment one has to assume they see sort of useful reason in doing it this way, but for the life of me I don't see what it is.
If you're using a mold for concrete it's almost literally as fast as you can pour the concrete when using one...

Re:Advantage?

[AK+Marc]

This is a process for pre-fab walls. Not on-site pouring.

No, They Didn't

[CanHasDIY]

RE: the headline

No. From TFA:

Yingchuang New Materials Inc. was able to print the shells of 10 one-room structures in 24 hours

The way this summary is worded, they make it sound like this company actually printed the buildings in place. Which did not, in fact, happen.

Re:Plumbing & electrical ?

[TWX]

I still don't get how it's supposed to be more efficient than setting up prefabricated moulds, hanging the conduits and placing the rebar, then pouring concrete from trucks... Yes, the moulds have to be taken off after waiting for the walls to cure enough to support themselves, but typically mass-construction of even identical buildings will see staggered stages including rough ground prep, survey for foundation positioning and marking that, installing the in-ground utilities/services/piping, pouring the foundation and slab, finishing off the stub-ups through the slab, building the load-bearing walls, building the roof, roughing-in the interior wall studs, putting in electrical/plumbing/etc, then finishing the interior walls and exterior of the building.

That process can be staggered across several buildings so that the time to build ten buildings in-tandem isn't a lot worse than if two buildings were built, each start-to-finish before the next. I don't see how using a 3d printer really helps. 3d printers are great for prototyping and small-batch work, but it's almost always more cost effective to build special-purpose to make things in volume if the volume is enough to pay for the machines. 3d printing would work great at home or in a boutique shop, but I don't see it being a major factory process for finished goods.

Re:Can you say...

[kruach+aum]

...read the headline, not the summary?

Or perhaps you have an idiosyncratic understanding of the word "concrete".

cool inner-wall structure? Re:Plumbing & elect

[Fubari]

Well... the tfa had a video (t=20sec) showing a latice-work inside the wall's exterior surfaces. I suspect that lattice would:
1) offer strength-to-weight savings (vs. solid slab cement walls)
2) use less material for a given surface area (yeah, this follows #1),
and 3) allow some extra insulation if warranted by the destination environment.

Also it would probably allow different configurations depending on how tall one wanted to stack (thicker lower-flow pieces; thinner upper-floor pieces). And the other point about embedding services cabling & plumbing stands; I could see them using standard interconnects to splice things together as they get assembled. *shrug* Maybe all that is common place today with prefab walls; don't know ianapfba (pre-fab building architect).

My first thought was "Big deal, another kind of prefab building" but the design + deposit is pretty interesting. This gets into some of the same things for machining I've read about where casting and/or subtractive (cnc milling) runs into limitations; additive manufacturing can create nested structure that were just not possible before. *shrug* It is cool to see people doing neat things with cement++.

And maybe - at some point - it would be cost effective for larger & taller structures to print segments on-site (and possibly at elevation for multi-story units). I don't know that they need to print in-situ; having useful-sized freshly printed & cured components (think just-in-time lego-blocks for the construction crew) could still be useful.

(One downside: I wonder about the "quick-set" additives and how nice (or not-so-nice) it would be to breath anything that off-gassed after it was all put together.)

Just wait till they start printing AVEs

[Baldrson]

The primary cost of building a tropical doldrum Atmospheric Vortex Engine is a huge hollow structure called the "arena" that contains the low pressure created by the vortex. The low pressure is relieved through compact, high speed turbines at the base of the arena. Since the turbines are compact they don't have to be costly and since they are high speed they don't have to be numerous.

What good is a tropical doldrum Atmospheric Vortex Engine?

It can generate its own building material from the ocean and atmosphere -- so if you can print them rapidly you can have rapid doubling time exponential growth in clean baseload electric production that within a decade dwarfs all energy use by civilization.

Oh, and it also provides tropical atoll seasteads sufficient to feed and house the total population of the world.

Seastead this.