if chep enough to make at 3D volume laser diffraction grating machine, and just 1% of
compares very favorably to a 55% Ni or Cr stainless steel and is much much more affordable, approaching 50 times more affordable. One idea is that dendritic octopuses that span grain boundries are so good at making characteristics better, they replace
the high-expense metals at steel alloys. Graphically, if you had nuggety eggs of Fe Fe/alloy in partial, occasional egg cartons (or those wavy dip u~u~u~u produce mats, and you think of the produce mats as being dendritic octopi, then the New steel is
better.

What’s the cheapest way to make dendritic octopuses and ~~~ wavy egg carton/produce mats for alloy grains?

Cheapness goes with size; for some sizes of MEMs making a MEMS that holds 10-1000 Fe alloy grains is smaller than an “inclusion” but could be beneficial. A produce mat that has a little dip for each Fe Grain likely has great proerties, and a makes
rooty tough-clumps (just like root clumps) dendritic octopus could span anything from 4 grains to, at a kind of wet felting, or load the flask with 1% cotton candy (ultra long dendrite felt) manufacture, dendrites and jacks that are hundreds or thousands
of metal grains long. Finding optimal characteristics goes well with software simulation, that is supported by figuring out the very cheapest dendritic octopuses


The Octopus dendrite MEMs could be not only ceramics (metal wettabel seramics)like where-the glass of a lightbulb seal meets the metal of a conductor to attach well enough to stay together. Or at metal wettable polymers, silicone bonded to metal is
already published https://www.sciencedirect.com/science/article/pii/S0300944015001010, PEEK Polyether ether ketone (PEEK) is a 482 (melts 649.4) F plastic, deuterate it,
aluminum 865 33% more than peek

Try deuterated PEEK,


I can find, and deuterated silicone,

where the doily graphene replaces the carbon at a steel, and the wad of graphite wool (octopus looks like crochet blob of graphene with arms)


hole the laser shape is an asterisk, the arms consendense between the radiating lines of the asterisk, and at the core of the laser diffracted light form is a perforation or scoring mark - - - - - , angle brackets _| and “square and MEMS rain”


or Sort of like


Thread is a clue; socks at alibaba at 3 cents a pair, so synthetic fibers can pass through a nozzle cheap enough to make “socks” volume for say 1/3 cent (1/3 plastic, 1/3 making a thread 1/3 knitting a sock, 20% markup), the thinnest thread produced
online is

broadcast a wire coil in 3D space with light and have it condense into existence;

levitate a bead with a tail

if double and fold makes optically transparent gold, you can just miilifiore the nanowire dendritic octopus could be made from

peltier @ 1 trillion nanometers long and however wide you want at a CVD cahmber builds height and girth fast but nothing atick to sides;

2D
pancake maker: lasers illuminate peltier sheet in CVD environment; space betweenlasers condenses into wires, shapesm and (*) (puck with a mold form cut out of it for

1/2 3D

300 mm wafer or much bigger peltier element has layers of undulating hills [~~] photolithographed to make half a mold onto it. Lasers slice away anything except preferred bottom of mold shapes.

Raving Looney party members wouldsay that based on 1/10nm AFM positioning stages make it possible to take two wafers, put a trillion little octopi and dendritic jacks, and high wall TV dinner tray molds CDV a metal into them, combine mold halves; fuse
the molds; disslove the back of the molds; and have trillions of forms. It is possible it could work, but keeping things hypercheap

The internet says there are 40 nmmolds, so going with the idea that you can make dendritic ocotpuses and 1/2 jack-dendrites, and undulating produce aisle polygon shapes of 40 nm diameter how much do you get, and how fast can you make them?
1-10 minutes to grow
Sloppy growth 10x faster
very sloppy growth 100x faster (cooled (peltier or just set it on a compresion fridge) mold base, superheated CVD
Array of 10 wafers at a grid of manufacturing stations

2 grams of molded materail per wafer 200g-2 Kg per 1 -110 seconds.

But, transit time and demolding could take a full minute, so that’s actually

continuous nanbatch circular molding CVD ->demold ->loop back to CVD; 1 minute; 400 trays(like a wafer each) on the circle-line, 2.5 grams per tray, 1kg/minute

10 lines, 10Kg/minute

Cost comparison: DRy ice 50 cents a pound, that covers the Gamut of refrigerating the molding process to using electricity to do the CVD
Reagents

Is an electroplating of 40nm molds possible? If it is then the cost of the metal chloride for electrodeposition is near this.
if not then CVD


Better would be to

That’s only

a single layer of mold hollows, CVD or even rinsable chemical on peltier mold landscape,

Mass: Ok, so you dip a 300 mm wafer in gallium, you scrape it off,




soak tube in
TRinucleic acids, and possibly some proteins I do not know about

lessvibration conductive,

Just a thing: doily graphene as the carbon in steel, what does it do compared with other grainsizes?


How puffy can a latex paint be, and still be acceptable for home and builsing use? Dewar microbeads at 1-80% (with peanuts smaller than the eye can see peanut brittle paint) in latex paint could make rooms, schools, factories quieter.

If it is cheap enough, you could dewar paint/quiet dewar polymer film coat HVAC metal ducts to see if they actually become quieter; same energy efficiency from absence of baffles.

antithrum, macroscopic inkjet printed dewwar paints could make like a big millimeter element ((O)) fresnel lens from absorptionality stuff, and the effect could be to absorb sounds at lower frequencies;
better might just be casting a tile, or embossing a overhead-transparency sheet or sticker of flat dewar polymer peanut brittle/rice krispie treat polymer with the ((O)) acoustic decresing fresnel lens

genetic algorithm
intra HVAC ductwork ][ connector or 1 cm bridgepiece with accordion polds or dewar polymer, or silicone (durable) earplug foam, or high temperature dewar beads as peanut brittle contained in low melting metal bracket/connector; example: some metals melt
at 400; silicone polymer can handle 2000; dewar silicone beads as rice krispie treat/peanut brittle fill at 1-90% of the mas of metal at a duct bracket make a use-like regular duct bracket during installation that is also a vibrationblucking “thrum”
reducing acoustic isolator;




dewar carpet keeps things quiet. Quallofill, but with IR reflective mirroization (mylar chip bag, tin oxide, deluxe version is layers of polymer for optical mirror), and not just quallofill, ==]==]==]
[88][88][88]; laser/ultrasonics at production welds plenum walls shut; fabric is made in a room that is at a vacuum; result is 1/10-1/100 of a mm string of microdewar capsules; This material is likely to be particularly warm and insulative (coats and
sleeping bags and carpet fibers), and particularly quietness producing as acoustic insulation, a fluffy blob of it could be stufff

the glass version of dewar quallofill could have a much higher R value than pink fiberglass insulation

milliofiore construction of IR reflective layer of glass could make a big stack of refractives to make cheaper better easier IR mirror than metal or other chemical IR reflective vapor deposition way of doing it.



Some google scholar things mention using mutil


of

laser chin whisker on boats cleans hulls. I can imagine this as a rental, or just like a pull =in carshwash a pull in boat *hull)wash)

COmmercial applications to improve mileage are obvious;

a flying drone that lasers crud (rain crust, bird poop) off wind turbine blades might make sense.




making cement is 3% of globabl energy use.

The beads can all be

time and machines to make nanopowder from micropowder may matter more than energy to make

Icelandic nanogrinding of micro and nanopowders with some of the worlds cheapest electricity; anywhere they mine bitcoin they could make a nanopowder factory. It might be 2-4 times cheaper.

CPP to cornea and eye muscles, a pill that reaches these and relaxes or tightens them to adjust vision to 10/10 or 20/15 like photorefractive keratotomy can.

contact lens as drug delivery factor align dots, different side drufs on different sides of eye (10 and 2 to cure a particular astigmatism; look in the opticians machine to find out if you are fully normal vision or at preferred 20/10 or 20/15 lens
reshaping
botox, antibotox, screen a library; two stage; the 10-20 minutes to look at the optician’s machine to get the test it temp contacts; then the actual

12.99 alibaba pc projector could be medical optical diagnostic; $9-54 inkjet printer makes contacts; then print permanent change contacts and wear them for 5-10 minutes (botox soak in)

alternate version; cheaper: put in drug contacts with three frequency responsive drugs; laserpointer plays over contact realeasing just the right amount of drug at the right spot for permanent vision correction;

reversible; either inentional relaxation/muscle building steroids or

conatacless, put in an eydrop of the three frequency drug cocktail; laser zaps just perimeter of eye far from pupil; relaxation or tighteneing result; eye drops every day for a week is one option

or, look in the box, get the geometry based prediction, instill the eyedrops (or CPP nasal spray or pill) and modify the eye muscles.


inkjet print the pattern of drug on the contacts (10/2) etc

inkjet mucous strong

ω

screen a library, flow cytometry of yeast

size, and longevity

duckweed, size, longevity, fecundity (generation time), nutritional quality

But why these organisms, why seek to amp up something you've heard of when you can screen a library of a million things, find the ones that amp up, then modify and breed them to do something useful under electromagnetic control, making electromagnetic
control of living organisms a real useful, engineered thing.

fungi at rainforest soil samples from 11 locations around earth

Daring to make a custom RFID repeater tag/chip. broadcast known to be harmless power frequency, then have RFID tag/inductor/or better translate it to a new RF frequency and waveform, put a camera chip and IoT on the tag, see if it grows different.
engineering, chemistry, computer ic, computer fab, longevity, longevity technology, treon, treon verdery, physics, lasers, laser, emiconductor, dimension, math, IT, IL, pattern resonance, time travel, chronotechnology, circile, eric the circle, cartoon,
healthspan, youthspan, cpi, manufacturing, fiscal, money, software, petroleum, archive at deviantart com user treonsebastia

All technologies, ideas, and inventions of Treon Sebastian Verdery are public domain at JUly 8,2023AD and previously, as well as after that date

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