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Don’t fuck with moon dust. No seriously, do not fuck with moon dust.

Absent any moisture or atmosphere, millennia of asteroid impacts have turned lunar regolith (soil) into a fine powder of razor sharp, glass-like particles. What’s more, the solar wind imparts an electric charge on the dust, causing it to cling to any and every surface it touches through static electricity. On earth, sand tends to get smoother over time as wind and water tumble the grains about, eroding their sharpness. Not so on the moon – lunar dust is sharp and deadly. This is
Not A Good Time if you’re an explorer looking to visit our celestial neighbor.

During Apollo, the astronauts faced a plethora of unexpected issues caused by dust. It clung to spacesuits and darkened them enough that exposure to sunlight overheated the life support systems. Dust got in suit joints and on suit visors, damaging them. It ate away layers of boot lining. It covered cameras. Upon returning to the cabin, astronauts attempting to brush it off damaged their suit fabric and sent the dust airborne, where it remained suspended in the air due to low gravity.

Inhaling moon dust causes mucus membranes to swell; every Apollo astronaut who stepped foot on the moon reported symptoms of “Lunar Hay Fever.” Sneezing, congestion, and a “smell of burnt gunpowder” took days to subside. Later Apollo missions even sent a special dust brush with the team to help clean each other and equipment. We don’t know exactly how dangerous the stuff is, but lunar regolith simulants suggest it might destroy lung and brain cells with long-term exposure.
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In fact the dust is so nasty that it destroyed the vacuum seals of sample return containers. We no longer have any accurate samples of lunar dust, “Every sample brought back from the moon has been contaminated by Earth’s air and humidity […] The chemical and electrostatic properties of the soil no longer match what future astronauts will encounter on the moon.”
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Whats worse, the solar-charged dust gets thrown up off the moon’s surface via electrostatic forces. The moon doesn’t technically have an atmosphere, but it does have a thin cloud of sharp dust itching to cling to anything it can find.

And it probably isn’t just the moon. “A 2005 NASA study listed 20 risks that required further study before humans should commit to a human Mars expedition, and ranked "dust" as the number one challenge.”
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The coolest solution I’ve heard about in next-gen spacesuit design is a mesh of woven wires layered into the suit. When activated, the wire mesh would form an anti-static electric field that repels dust. Quite literally a force field.
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A photo of the lunar rover vehicle taken from behind, centered on the right rear wheel. A replacement fender is haphazardly attached. A dust-coated originally blue box is mounted above the wheel, and a suited up astronaut is driving the vehicle. The astronauts suit is also covered in lunar dust. https://www.nasa.gov/history/alsj/picture.html An astronaut stands on lunar soil to the right of frame, tending to surface experiments filled with tubing and wires. The boots of their spacesuit are deeply blackened from a coating of lunar dust. https://www.nasa.gov/history/alsj/picture.html Astronaut Gene Cernan sits in his spacesuit, helmet off, inside the Apollo 17 module. Various knobs, tubes, and buttons can be seen behind him. His suit is completely covered in black lunar dust. https://en.wikipedia.org/wiki/Lunar_soil#cite_note-16 Two microscopic images of lunar dust particles. “Figure 13-1. Examples of lunar dust grains. – LEFT: Scanning electron microscope (SEM) image of a typical lunar agglutinate. Note the sharp edges, reentrant surfaces, and micro-craters. Smaller grains, which are less than 1 μm in diameter, are attached to this particle, and are also seen as loose grains in the upper portion of the image. RIGHT: SEM image of a lunar agglutinate fragment that was removed from the outer surface of Harrison Schmitt’s EVA suit.” https://humanresearchroadmap.nasa.gov/evidence/reports/lunar%20dust.pdf A large vertical pole holds metal panels aloft to the left of frame. In the center, a scientific instrument with a mirror covered in dust has had a single finger drawn across it, showing just how dusty it is. To the right of frame is an astronaut’s outstretched hand. https://www.nasa.gov/history/alsj/picture.html A color photograph of the Apollo 16 lunar rover, centering on some equipment. The object in focus at the center left is a dust brush. Footprints can be seen on the lunar surface behind the rover near the tool’s attachment point, implying the dust brush was recently in use. https://www.nasa.gov/history/alsj/picture.html Dust covers the central part of the lens in this photograph, obscuring the subject. The photo is of a dust-covered lunar rover. Dust can be seen caking the wheel rims and bodywork, as well as the astronaut’s suit in the top right of the image. https://www.nasa.gov/history/alsj/picture.html A side-profile photo of the lunar rover from Apollo 16. John Young stands at the front of the vehicle, to the right of the photo frame. He is using the lunar dust brush to clean regolith off of the vehicle. https://www.nasa.gov/history/alsj/picture.html

I would expect it to also be similar to silicosis.

My grandpa died of that, it's a terrible way to go. You end up having your lungs sliced up from the inside and the scar tissue slowly takes away your ability to breathe.
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