The "cheap, uniform, and free of defects" story is partly a story about coal. The drywall industry scaled on the back of an abundant, nearly free waste stream from the energy sector. It's a classic example of industrial symbiosis — one industry's pollution abatement becomes another's feedstock.
And it cuts the other way now: as coal plants shut down across Europe and North America, synthetic gypsum supply is shrinking. The drywall industry is facing a real raw material squeeze, with manufacturers having to shift back toward mined gypsum or find alternative sources. There's ongoing work on using phosphogypsum (from fertilizer production) but that comes with its own radioactivity concerns.
For someone in your position this is particularly relevant — the "wonder" of drywall is entangled with the fossil fuel economy in a way that makes earth-based construction methods look increasingly attractive as that supply chain unwinds.
It's similar to how car heaters work on waste heat from ICE and have to be accounted for in electric cars.
https://apnews.com/article/tennessee-valley-authority-coal-p...
I keep thinking of that scene in Brazil where the hero, Harry Tuttle, opens a modular wall panel in Sam's apartment.
We standardized on 16 inch stud spacing here in the US a long time ago when we likely still used cement with a plaster skim coat on wood lath. Cutting up a board of nearly the same stuff feels primitive. You have to break open the wall to fix things.
To me the next logical step is a standard for modular walls that are laid out on a grid structure. I get that no one wants exposed screw holes but I can think of ways to hide them or make them part of a decorative pattern to blend them in. The coverings would be made to be cut to size as well. Wall panels would have to be environmentally friendly so wood is a first choice in natural and/or composite forms.
If you think this will look boxy then look up the passive house and notes on home building. Homes with a winding structure are difficult to seal reliably and roof so a boxy home is actually more economically friendly in terms of insulation to reduce HVAC energy consumption.
It's wood that is nailed up in such a way that you can pretty easily remove and repair something and replace it.
However, inside wall things get done so rarely that the cost savings by using drywall more than covers paying someone to patch the drywall after a repair.
A middle ground is to run all utilities at the bottom or top of the wall, and use large baseboards/crown molding to cover it up.
The best is to build in such a way as to not have to fix them in the first place. European standards mandate passing all wiring through corrugated tubes. Builders add spare empty ones for future expansion, which makes it unnecessary to open the walls in most cases.
Wouldn't bother me. But I'm an engineer. But I think the holes can be plugged with removable plugs.
I'm currently in an old house in Vietnam and I had to add exposed PVC piping to route around a leak inside a wall that was also feeding mold.
Half of the work involved each time I call someone is understanding the hidden stuff + getting stuff out of the way to see the hidden stuff.
"Engineering types" have built much of the world most of us actually live in. Yet a core piece of engineering——maintainability——is pathologically persistent.
The gypsum used in New Zealand is mined locally.
I recently saw some house building videos and it is somehow fascinating how different the building materials and methodologies are. North America obviously made it work, but still very odd to me.
The timber-stud and drywall model also works well for the modern world, where layout preferences and in-wall technology changes often. It was only about 20-25 years ago where having POTS lines/jacks in multiple rooms was cool, and now they're mostly useless.
It's mostly unused. I have PoE wifi access points around the house. And the sound system I hardly use.
I don't think of the walls as especially flimsy, though. Built correctly, they are totally fine. Yes you can punch a hole in one if you are sufficiently motivated (and you better miss the stud...), but the only times I've ever punched any hole in drywall it was because the door stop was removed for whatever reason and a dumb teenager threw the door open with no regard for propriety. At least drywall is trivial to fix.
Over a lifespan of 100+ years that's very well expected in the US given that cities aren't growing much any more and infill has been made almost illegal in most places, using long-lasting materials and techniques like in Germany becomes a lot cheaper, and more convenient. It always surprises my US colleagues when I told them that in 20 years living in the house I grew up in, the only thing that ever broke were once the roof gutters due to very heavy rain. Otherwise, houses are expected to just go on and maybe need repairs every 50-60 years.
* drywalls are inherently sensitive to humidity, which makes it necessary to cover them with wall paint which is essentially a waterproof layer of plastic, which makes it not breathable and thus drywalls develop mold rather easily (even worse, it's often invisible mold). In contrast, walls made of stone, cement or brick (or a mix thereof) and covered in stucco are breathable and much more resilient to humidity and mold issues.
> I may be biased, because I live in a city filled with houses over 100 years old, and we get incessant rain. They seem to hold up fine
I wouldn't be so sure.
Earthquakes are a factor where we are, but also, if NZ can find a way to do something cheaper, we will always do it. Quality be damned.
This is what I meant with "flimsy". If I hit my wall my hand breaks. But as I said It seems to work. I am just used to the massive nature of our houses and I admit a part of me prefers it that way but I don't think it's the one true way.
What is your definition of "often"?
Of course you might say that durable materials exist in North America, but almost nobody chooses them. The likelihood of being able to move somewhere and be able to buy a modern durable house is ~0% in NA, and 30-90% in Europe depending on country and location. So you can do it in NA if you have enough money to rebuild a house. Good luck with that.
Here's a timelapse of a Swedish house being built: https://www.youtube.com/watch?v=KbSm0Zw00Cs
I watch a lot of building videos from the US, it’s eyeopening watching for someone used to better construction methods.
The construction of UK inner walls is even better, it”s often plaster applied on plasterboard/drywall usually by skilled trades. Very strong.
Sure it's not as strong as brick or concrete blocks, but it's strong enough for normal, every day use.
Where it does pale in comparison is hanging heavy objects on the wall. You do need to secure heavy loads to a stud, instead of just drilling and anchoring anywhere in the wall. However what it lacks there it more than makes up for in ease of routing low-voltage cables in an existing home.
Also, if I really wanted it, I could knock out almost all of my interior walls and completely change the layout of my home. Not something you do on a whim, but you can absolutely do so when renovating a home.
Yea, if we’re hit hard enough, the stucco may or drywall may crack, but, big picture, those are cheap cosmetic fixes compared to anything more structural being damaged.
Back during the Northridge quake, my friend was buying a second floor condo in Santa Monica (which was hit pretty hard). It resulted in several drywall cracks, but nothing worse than that. Even better, the closing day was scheduled for the day after the quake.
Concrete or brick buildings are much nicer to live in, but expensive, so they are not very common among new constructions.
That said, plenty of steel-framed apartments are effectively sound-proof. I’ve lived in them. You don’t need masonry, just wall mass.
Masonry can be engineered to US seismic standards but it is extremely uneconomical to do so. In my city, my house must be engineered to survive without structural damage an earthquake stronger than any in European recorded history. That’s not over-engineering, large parts of the US just have earthquakes that strong. It limits your material choices.
Similarly, US construction must also be engineered for extreme wind loading. Some of the buildings in my area are designed to withstand 300+ km/hr winds. Because that is a thing that can happen here.
Just about everything about US construction style can be explained by the necessity of engineering to survive extreme seismic and/or wind loading. Which it demonstrably does for the most part.
I've lived in pretty large buildings (eg dozens of units and four floors high) that were largely made of wood in both the northeast of the US and California.
They aren't high-rise buildings but I wouldn't argue they aren't apartment buildings, and they're far from uncommon.
Those stigmas are also odd for most of our heritage-like old towns that are full of still-intact "Fachwerk"-Wooden-Constructions - which basically use the same technique, should give us a hint or two. Also wooden constructions do allow to comply with our ever climbing ecology standards, without complicated venting mechanisms to keep mold out (as you need for stone). Those two stigmas are also odd, given, that drywall and wooden construction sectors are actually huge in Germany. Knauf is one of the worlds largest companies in the wallboard sector.
This led to the highly evolved wood-frame and steel-frame structures used in all construction in the US you see today. There are still a few old brick and masonry buildings from before these building codes, but most of the buildings from those eras collapsed in one disaster or another.
As much as I don't want to be a stereotypical German thick walls feel right to me. But I honestly don't think that our building style is the true one. It is just what I am used to.
They're not. The long-term reduction in maintenance costs more than make up for it. Tell a German that the "normal" North-American "common sense" is saving 1-2% of the house value every year for repairs and you'll be considered a madman.
> and the dry-wall stigma here is just one aspect of it, wood construction stigma is another
Both stigmas are very well justified.
I personally like houses that use Insulated Concrete Forms for the exterior walls.
It cheap to buy and cheap to install, easy to cut and installs fast. It's tolerant with imperfect walls and is surprisingly flexible. It can also be seamlessly repaired.
It can also act as a primary air barrier.
I do not like moisture resistant drywall, moisture control is more important as well as using proper materials in high humidity areas.
In my humble opinion, they are significantly better than pounding a nail into drywall. Of course, I also have an absurdly large collection of framed photographs and other art, all of varying sizes, and I love swapping frames around throughout my home. Having picture rails throughout my house means I don't have to keep pounding holes in the wall every time I replace that 20x20" photograph of my toddler shot in a square aspect ratio with a 16x20 shot on my 4x5, or whatever.
This is way better than arguing with partner about the proper height, making a destructive hole, then having to cover/patch when opinions or artwork change. My walls are not drywall, so that was a big factor, but the freedom to arrange/rearrange is a major benefit.
No damage to paint so far, though we've only had them on the walls for about a year.
I was at the Rijksmuseum recently and they use a wire system like this for all manner of configurations
I think the market forces have simply dominated our natural, economically inefficient, home-dwelling instincts. I think this article means well, but it is written from the perspective of a landlord basically.
It costs a few thousand bucks to do a whole house (during construction), even in areas with high labor costs. You can usually tack it on to the cost of insulating the exterior walls (which is basically the same process, but with a more expensive material).
This is basically similar to how leaded drywall is used to shield X-rays. Of course, there are additional costs associated with the hazards of lead.
yikes
Also wrong:
> By eschewing the lath lattices, buildings now have way more room in wall cavities for improved insulation and conduits
The cavities are exactly the same size, plaster+lath, or drywall.
Most residential construction won't use conduit anywhere, and commercial construction would never bury a conduit inside a wall, regardless of wall covering.
These are weird things to get wrong.
The recommended approach for anything with moderate weight or above is to anchor to the studs and never rely on the drywall itself for retention.
An uneven wall material (plaster on lathe, or even plaster on drywall as we have in most of our house) can be quite a hassle to find the actual timbers/studs behind.
On a related note, if you can find a strong rare earth magnet, you can use it as a stud finder. It'll be attracted to the nails used to hold up the drywall / plaster backer boards. They sell purpose built ones with felt backs + built in bubble levels if you want to get fancy.
but, yeah, his videos are great. i've done more than my share of everything from sound abatement channels/glues/etc, hanging rock on vaulted ceilings, to level 5 finishes, but I still like to flip though his videos every now and then and pick up logistical / speed tips.
Modern plaster has backing boards that are similar to drywall, so you get most of the construction advantages (except for the labor intensive step of plastering), and can hand pictures / toggle bolts in the same way. Unlike plaster, drywall gets moldy + needs to be replaced after water damage. I think this is why films with old buildings set in Europe often show peeling paint / water damaged plaster, but people are still living in them, and it seems fine. In the US, buildings with that level of wear would be so moldy they'd need to be gutted to studs, at minimum.
The article touches on mold resistant drywall, but I'll believe it when I see it. Also, apparently, it is much easier to create long-lasting patches for plaster than drywall.
Drywall is great, its cheap and easy to repair.
I would not want to live in any water damaged house without remediation due to the risk of mold.
it is a bitch and a half for hanging anything (just like plaster on lath), plus it screws up wifi.
Pro tip for finding a stud, if you have access to the bare floor -- stick a drywalling knife / spatula under the bottom trim and poke. you can find the studs that way, and then measure off since 16" is pretty common. Measuring off the edge of an electrical box can work too, but you have to figure out what side of the stud the box is on...
I'm not sure I would want a plaster skim in any case. I grew up in a house built in 1914 that had lath & plaster, and I've cursed the brittle plaster many times. We even had actual picture rails but my mom never liked to use them to actually hang pictures, amusingly enough.
[0] To be brutally honest, the texturing isn't for any particular reason aside from how well it hides minor imperfections. Having someone skim coat the walls and ceiling with a perfectly smooth finish is definitely a thing, but it's a good bit more labor intensive.
I'm not sure about the exact numbers, but I'm pretty certain this is a vast overestimate.
I've painted a more than average number of interior walls in the US (both personally and professionally) and except for a few that were wood, adobe, or lath and plaster, all the rest involved painting directly on drywall. Sometimes the base paint was applied with a thick nap roller to achieve a degree of texture, but I never textured one with something else before painting.
All I can guess is that there are large regional or cultual differences here, and each of us is having a very localized experience.
The trick for this is to just find the stud. Same thing you'd have to do in drywall. For light stuff like photos, you can get away with putting a nail right into the lathe without having to find a stud. If you miss the lathe (you can tell) just move the nail up a half inch.
That is my piece of advice for anybody who is buying a house at least a hundred years old. Old lath is like iron, and you can do more damage than you expect if you just try to put a screw into it without pre-drilling.
2) Why emphasize asbestos when talking about plaster? My understanding is you likely have more to worry about if you have a house from say the 40s-70s, which almost universally have some sort of drywall product.
Pipes will fail. Wires will fail. Ducts will fail. Maybe not in 5 years, but over the span of 20, they will. Why make them so frustratingly inaccessible?
I have seen another method for making walls that were accessible though, from a homesteader/ hand tool woodworker and carpenter. His walls were 24” thick with huge areas for piping and electrical and had 4x4’ removable wood panels.
And then you have to match the surrounding paint, which is all but impossible since even if you have the same color, the original will have likely faded over the years, making your newly applied coat a mismatch, so now you have to paint the entire wall (no fun when it's a big wall). And if you had wallpaper instead of paint, good luck to you unless you saved some extra scraps.
All in all, an access panel would make the job much simpler.
But there really aren’t many walls you need to open in a house. There is probably 2-3 wet walls, so unless you need to retrofit some ducting why are you opening a wall? Code says there are no hidden wire junctions, so you’ve just got continuous runs of romex that are secured before they terminate… what do you open a wall for?
Most of the drywall repair is just physical damage to the drywall itself.
This would let us avoid stapling electrical lines + network cables to studs inside walls. Fixing shorts, adding circuits and upgrading network lines would be trivial.
We'd have to buy what, 1000' of conduit? There's no way that's a sufficient fraction of the cost of a house.
Drywall is not too bad to deal with. And 99% of the wall surface doesn't need to be opened for a -long- time.
Drywall is manageable and cheap, I agree. But it's more painful than it should be for something that _will_ require maintenance.
There are a lot of downsides though. You lose airsealing, if you don't have an airtight building envelope on the outside of the drywall. You lose fire resistance. You often lose aesthetics, although I've seen this done extremely tastefully. You lose childproofing, and run the risk of a kid electrocuting themselves or destroying your plumbing or dropping stuff in the wall. You impose constraints on what can go on the walls and where your furniture can go.
Given that drywall is pretty easy to cut and replace, most people figure it's just not worth the costs for something you do infrequently.
And for telecom / low voltage, you have a lot of freedom of how you do it.
Personally I've been printing snap in access panels whenever I have to get into a wall these days - in white PETG they pretty much disappear into the wall for me.
I've patched quite a bit of drywall, and I'm about mediocre at it. But it seems so silly and unnecessary to me.
Everything else in this world that requires maintenance comes with access panels and other means of easy access. In our living spaces, some of which should ideally last tens of years (mine is from the 1890s), we seal it all away.
Something less heavy, easier to fix without expertise, doesn't require applying some surface pattern to hide imperfections when used on a ceiling.
I guess something conceptually like a drop-ceiling (which has a "finished" look, but is very accessible for maintenance), except for walls. That's what we need.
It just takes one rat.
As I recall, wasn't PB basically a single vendor, too? Finding PB-to-anything-else adapters at Home Depot was like going on a treasure hunt. Sizing is different, so you really need something actually built for PB. And probably end up with sharkbites. If I were shopping for a house right now and found it had been plumbed with PB, I'd just turn around and walk away.
In addition to being much more attractive than exposed infrastructure, drywall and the insulation that gets put behind it help make your house much more energy efficient.
Conduit all the things and paint to match?
It is more expensive, by more than you'd think, and so it's rarely done.
It also allows all of the trades save the drywaller/painter to be rough and tumble with what they're doing; it doesn't have to look nice behind the walls.
In the UK it used to be common for pipework to be exposed and painted. Electrical conduit is pretty common in "industrial" places like garages but the number of sockets people expect now would mean you'd barely have a flat wall anywhere.
The current preference is definitely for clean looking, square rooms. When pipes don't fit in the walls themselves, like soil pipes or around boilers, they are boxed in or hidden away in a cupboard.
> Some buildings standing today still have wattle-and-daub panels from 700 years ago.
Will any drywalled building survive even a tenth of this time?
> The plaster mixture used then was a homegrown concoction, with recipes matching the climate needs and vernacular material availability.
The wonder of wattle-and-daub (clay) and plaster-and-lath (lime) is that the materials are breathable, move with the structure, and can even self-repair small cracks. I don't know of any old house that suffers from black mold...
My last big gripe with gypsum drywall is disposal. Demolish a property with clay or lime walls, and they'll naturally degrade into the environment. Drywall needs proper disposal: "Do not burn: Drywall releases toxic fumes. Do not bury: It can create dangerous hydrogen sulfide gas in landfill."
Does anyone want to live with that?
For much the same reason they don't suffer from low heating bills, either.
Wonder if in the future there will be incentives for proper disposal since you can extract hydrogen from it, other than that I agree with you.
> a method of constructing walls that has been a mainstay for at least 6,000 years, predating mud bricks
To be fair the article is about drywall and its history, not the history of all walls in general.