marble is less resistant to heat but might work if it's not directly in contact with the ambers and a little away from the fire. Chemically it is CaCO3 and if you heat it enough it will start to decompose to CaO and CO2 and crumble. It is a similar process to what you would see in a cement kiln :); not exactly stable but also not dangerous if it happens outside.
do you want natural rock or is synthetic also ok? also do they need to be resistant to freezing water as well? its not clear if there will be any kind of roof above…
very conservative answer would be something like granite, diorite or similar dense rock.
if you have protection from water you can also use more porous rocks like sandstone.
Are the parts both made of PLA? Silicone caulking would be elastic and easy to break but it might also become unstuck on its own since the adhesion to plastics is not great.
Rubber cement would also work in principle but it might not be reversible at all and depending on the solvent and what plastics you used it might damage the plastic parts while the solvent is drying. Acetone can damage ABS plastics for instance.
Would a low-temp hot melt gun work? They can operate as low as 120°C which might be low enough to not destroy the plastic parts.
In general waste glass and metals can be recycled easily and effectively and in many cases it is energetically efficient to do so compared to making new glass or metals form natural resources. There are a couple of caveats to this though that might be important:
Not all kinds of glass can be recycled, the type of glass used for single use containers can be recycled though (soda-lime glass)
Glass making currently does not work with pure recyclate (broken up reclaimed glass), but 50% recycling material is possible and common
colour defects in recycled glass are a problem, so make sure you know what colours of glass can be recycled by your local recycling company and how they need it separated. this is especially important for white glass and brown glass. some glass recycling processes don't need colour separation though.
ferrous metals, aluminium, copper, precious metals and many of their alloys can be recycled effectively and the percentage of products made from recycled metals is going up. for other metals its a bit more tricky: for example titanium is too niche to recycle from a consumer waste stream, lithium is hard to process from a waste stream in general, zinc is usually only recycled as a byproduct when recycling galvanised steel.
There is also the issue that composite materials may not be fully recyclable. metal plated plastics are typically not recycled. tetra paks are only partially recyclable – the aluminium liner is typically lost because recycling it is not economical right now. the plastic liner in tetra paks is also typically lost – only the paper fibres are recovered.
There is a lot of research into metal recycling going on right now though, so that might change soon. :)
Just because the technology exists to recycle something does not mean that somebody is doing it unfortunately. Even if it is economical to recycle something – meaning the recycled material would cost less than the virgin material – it is still possible that it isnt done because the market is too niche. For instance borosilicate glass can be recycled and it would be very energy efficient to do so but the market would be too small for anybody to invest in it. I guess energy is still too cheap.
Plastic liners in general are not typically recycled, if there is no easy method to separate them from the base material. This applies to cans, paper cups, metal bottles, furniture and lots of other things. In most cases they still allow the base material to be recycled though. For instance in ferrous metal recycling (cans) the plastic liners might simple be burned away in the electric arc furnace.
On the short term: maybe
On the long term: makes absolutely no difference. Some of the soot from those fires might actually settle in the soil and stay there for 100 - 1000 years, which is probably the least harmful way petro chems could be converted. The portion that would have been converted to plastics and rubber might be a grey zone, but not a large one, since a large portion of that is burned at the end of its useful life.
How many PSUs are installed in the Poweredge server? In the manual it says it could be 1 or 2 and the power per PSU could be 1100W so if it is 2 * 1100W then that could explain why the UPS has problems with it.
Check out their road map and the videos of their prototypes. It is very much not a tech bro project :). The first goal isnt event maglev but magnetic propulsion.
Also very often overlooked: the Amazonas as we know it today is NOT wild in any way. It is a cultural landscape that started around the time when humans settled that area but not later than 11tya
a surrender condition that lets Russia retain all the land they’ve taken
A while ago there was a prediction about the true intentions of the russia negotiating: they want to stop Ukraine from succeeding as a state, since that would be a bad omen for a neighbouring kleptocracy.
If this prediction comes true the outcome you describe is actually very unlikely, because the russia would rather continue fighting just to keep the region in shambles.
NetworkManager's Gnome GUI works with wireguard config files. If you are using Plasma you would need to install some alpha software to do that in the gui but you can always fall back to nmcli which also supports wireguard configs via the import command.
marble is less resistant to heat but might work if it's not directly in contact with the ambers and a little away from the fire. Chemically it is CaCO3 and if you heat it enough it will start to decompose to CaO and CO2 and crumble. It is a similar process to what you would see in a cement kiln :); not exactly stable but also not dangerous if it happens outside.