Somewhat unrelated: If you use epoxy for repairs, particularly of plastics (though I just used some for a wood repair), get yourself some fiberglass tape/fabric to use with it. Sometimes I'll lay the tape over the repair, sometimes I'll cut it up into little fragments and mix it directly in the epoxy (depending on if the epoxy is the bulk of the repair, like filling in a hole, or if I'm trying to repair a crack.
Also, if you are repairing plastic, consider "hot staples". A friend of mine just educated me on that 6 months ago, and I'm using them all the time, a starter kit costs around $50 though. This is a good, quick demo of them: https://youtube.com/shorts/43TDecNqTco?si=xsDJ3n7KMjpg8NVw
I mostly use the square pins from SIL headers, bent into an appropriate shape. I use a pointed tip but I don't think it matters much, as long as it can transfer heat into the pin.
I most recently used this to repair a snapped headband on some sony headphones. I'd previously tried to superglue it, but the glue eventually came undone - but my "staples" are still going strong.
OT: It's difficult for me with my imperfect vision to read this web page because of inadequate contrast between body-text and background. Firefox dev tools measures a 3.52 contrast ratio — WCAG guidelines recommend 7:1 (AAA rating) or 4.5:1 (AA rating). However, viewing the page in reader mode seems to work as a solution.
When a general study was made back in the 1970s of the limits of substitutability and recyclability of mineral resources, it was found phosphorus likely dictates the minimum amount of mining needed in steady state. It occurs at an average concentration of about 0.1% in the continental crust.
I worry just a bit about this in reference to LFP batteries.
I think that was a core plot point of a series of books by Niven I think. Humans are on a planet that has almost no phosphorus or maybe potassium in it's biosphere. Humans have to take it artificially by sprinkling a special salt on every meal. But it's very limited and expensive and so a significant part of the population are mentally handicapped to lesser or greater degrees, generation after generaion.
Ah, Destiny's Road, and it was Potassium.
"...dooming humanity to a slow mental extinction."
Star Trek episode 2 the creature removes all your salt. There are a lot of examples of a creature extracting all of something like that but these are kind of a different idea.
The potassium one is particularly horrible to think about because it's insideous. The problem removes your very ability to respond to the problem. The entire race just gradually devolving back to stupid, especially if it was from the result of our own actions consuming it all for some industrial or consumer purpose. And before that happens, for untold generations there would be rich people who could afford their kids to grow up with enough and perpetuate the permanent ruling class, and a permanent poverty class that physically can not ever escape or compete regardless of their attitude or effort.
Fertilizer returns to the sea or is consumed by people and then returned to the sea. I think GP was worried about something that permanently locks phosphorus away.
There seems to be a memory hole about what follows. Probably not the "key limiting factor for life" you had in mind.
There have been various incidents where soldiers or people generally in third world countries have developed neurological diseases when machine oil contaminates (or is mistaken for) cooking oil. This isn't new, it's been happening for 100 years. There have also been cases of pilots becoming, or allegedly becoming, disabled due to inhalation of jet engine lubricants which find their way into the cabin air supply (passengers are notably not mentioned in most reporting).
Although intentional use of the more toxic compounds is generally avoided, machine oils are subjected to harsh environments and compounds can change, new compounds created. Kind of like dioxin contamination in herbicides, I don't see much evidence that oil additives are rigorously tested for unusually toxic compounds incidentally occurring during the manufacturing process.
I'm glad they're burning that shit under an exhaust hood in the picture in the article, hope it's turned on!
Apropos the memory hole remark above, here are some articles I found briefly looking around although none of them were ones I remember previously seeing / reading (such as the "famous" case of the British machinegunners in North Africa).
> After use, the material can simply be ground into powder and pressed into a new shape while heated, causing the bonds to rearrange themselves. This is known as thermomechanical recycling.
> it can also be chemically dissolved
I wonder whether either of these opens up any practical durability issues for this variety of epoxy.
I saw that passage, which addresses that durability doesn't degrade through recycling cycles. But what I was curious about was whether this epoxy is more susceptible to weakening when exposed to heat in working environments, perhaps at lower threshold temperatures than common epoxy. Similarly, I wondered whether there were any chemicals which are commonly encountered in working environments which could serve as dissolving agents and damage this epoxy.
This looks like recycling fetishism. It's perfectly fine to burn such materials, if they were obtained from non-fossil sources to start with, so there would be no net CO2 addition to the atmosphere.
“The raw materials for epoxy resin production are today largely petroleum derived, although some plant derived sources are now becoming commercially available (e.g. plant derived glycerol used to make epichlorohydrin).”
> Also, what you said isn’t necessarily true even with plant based resins. What is the carbon cost of producing new resin vs recycling old?
In the post-fossil fuel age, where is the net carbon supposed to be coming from? Unless we're using limestone, it's from the air, so there can't be net emission.
In the not-yet post-fossil fuel age, what matters is displacing fossil fuels as quickly as possible, not the relatively very minor amount of carbon embodied in the renewable energy machinery.
It seems to me you’re thinking of this in wayyy to much of a binary. It’s not pre-fossil fuel vs post fossil fuel - it’s how do we transition each thing we use fossil fuels for.
Like if we end fossil fuels for energy, the cost of plastics will skyrocket. They maybe don’t contain enough carbon on their own to drive global warming, but we still need alternatives because otherwise that’s a many-billion dollar industry that is going to oppose stopping burning fossil fuels for energy.
we are having an existential marine crisis due to the millions of tons of essentialy non recyclable "plastic" bieng dumped in our oceans, a fully recyclable alternative is worth trillions over the long haul.
The switch will happen when a viable alternative is discovered, and a material that has inherent value will be a key requirement.
If this new epoxy is a true engineered material that is suitable for say, vacume infusion molding of things like wind turbine blades,and smaller ships, and injection molding of buckets and computer chasis etc, etc , then it will become universal for those things.
the known consequences of polluting the the entire base of the planets food web isn't existential?
"scientists", politicians, beurocrats, lawyers, and the mega wealthy have kept moving the agread upon limits to environmental exploitation, with zero sign that they have any other intent, than to take more³
what you are missing is that no one will ask for permission, to fix that.
I had hoped the use of the word was based on some actual specific world-ending effect I didn't know about, so I could learn something new and important. But apparently it's just untethered anxiety.
Will the phosphorous in said epoxy also encase CNTs if there is combustion?
> The hypothesis in your text is chemically sound. The phosphorus [(polyphosphonates)] in the EMPA epoxy functions as an "intumescent" or char-promoting agent.
This is a presser (disguised as a science piece) from the company behind this; take it all with a grain of salt.
Also, epoxy already contains harmful endocrine disruptors, adding forever chemicals like those found in almost all flame retardants is just adding fuel to the fire (pun not intended).
Also, if you are repairing plastic, consider "hot staples". A friend of mine just educated me on that 6 months ago, and I'm using them all the time, a starter kit costs around $50 though. This is a good, quick demo of them: https://youtube.com/shorts/43TDecNqTco?si=xsDJ3n7KMjpg8NVw