And ultimately, it could be possible to 3D print reinforced obsidian or something even better. And with AI, they could be robotically napped (though that will only raise the price – with low quantities, building a “flint-napping” robot with AI software would cost more to build than building a human). With more interest pushing more experimentation, perhaps a way to reinforce them will be invented. No doubt as interest in obsidian scalpels increases, there will be more research in design and manufacture, and the best design(s) become standard. Modern obsidian scalpels look nothing like the decorative flint-knapped knives of Neolithic man, often resembling their modern counterparts in everything except for the blade edge, but Green said.
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What would happen with something sharp in the body that couldn’t be enveloped in scar tissue? Hopefully more research will be performed, including on how to monitor for breakage, and find and retrieve them. They are extremely sharp, even sharper than surgical steel scalpels. To continuously increase the administration process by virtue of the rule of 'sincerely, good religion and excellent are the base of company development', we commonly absorb the essence of linked goods internationally, and continually build new solutions to fulfill the requires of shoppers for Manufactur standard Obsidian Scalpel Surgery - Manufacturer Dispossible Carbon Steel Surgical Blade.
Indeed, I’m kinda curious what an ultra-sharp obsidian edge would do if left in, since the finest obsidian edges supposedly don’t leave scars. The obsidian rock will show a unique flaking pattern that tapers to the blade. It’s not a matter of if it will happen, but how often. Even the cheapest steel blade is unlikely to break even if a surgeon tried to do it. Still, even at the same price point, they are available with what appears to be a more stable design.īut you’ve got a good point.