I had this effectively a shower thought idea - why don't we have ceramic 3d printing?
Let me clarify - before posting, I looked it up, and I could not find exactly what I was looking for. There are already commercial offereings for Clay 3D printing, but that is not forming the ceramic in situ, we are depositing what is effectively ceramic in a solvent, and drying it. What I was thinking was making the ceramic on site.
Here is a example setup
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Imagine a regular polymer 3D printing setup
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imagine instead of filament, we have a tank of Ca(OH)~2~ (calcium hydroxide, or slaked lime) (not necessarily just this, but for example, consider this combination)
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imagine we instead of droping a full thread like layer of semi-solid polymer, we form a trail of really tiny water drops
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we sprinkle in Ca(OH)~2~ onto the drops (or this step can be skipped if we can pre mix it with water, and then somehow figure how to deposit really tiny drops of what is effectively a very strong base
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now we let CO~2~ in, and form CaCO~3~
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deposit a layer to fill voids in this layer (we dropped a non continous strings of drops earlier)
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evaporate remainning water
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repeat this step until this layer is complete.
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repeat process for next layer
Now I can think of many problems here
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how to handle very strong base - maybe a tip of refractory alloys, or something like Inconnel (or Ni Cr alloys in general), or ceramic (maybe alumina) coated metal (probably cheapest, but hard to make)
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how to control solidification - we are effectively doing a solidification reaction, and growth of crystal would largely be dependant on the crystal facettes, and we would not be able to have any sharp angles. Also, we would not be able to have a very small width with this.
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surface tension of water will not allow to easily create uniform small dots - only thing I can think of is using something mechanical to hit the water droplets at tips to effectively launch tiny droplets. (Imagine shuriken (stars or blades) breaking droplet, and water landing) - still we would not have control
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how to control solidification rate in exothermic process - maybe easy, but we would need something like fans or coolant, otherwise we would form big drops at a spot due increased nucleation rate
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how to introduce CO~2~ fast enough - we would have to have a very strong CO~2~ environment, somehow not let it solidify at tip. Also this reaction is very slow (maybe that is only the case at bulk solidification). Maybe the whole process would be very slow
Does this process already exist? If it does - any resources related to it would be helpful. If not, Why? Is it because we have not been able to solve the issues I listed, something I did not list? Would this be practical (economically)? I can definitely see both artistic and engineering use cases, and both of those can allow some big budgets.
can you give more details about your system, what kernel you are using what distro? also, have you tried testing a live boot usb to do testing, and also (I am presuming that you changed motherboard, and kept rest same) can you replace 1 part at a time and check.
Usually random breakages mean memory or power errors, and even different modules breaking can be caused by corrupt storage (maybe the readheads of hdd are broken, or if ssd, something something something, maybe broken/damged contacts). But you say going back to older cpu fixed this. Can you check what speed does your menory work at, sometimes, stable ram speeds depend on cpu, maybe you had it lower/higher for older cpu (usually lower than stable is not issue, higher is the issue), or maybe, your newer cpu is drawing more power, or you have some kind of faulty contact and some stray currents are developing on your motherboard. A fey more details would be really helpful