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Gari_305 OP t1_iwue1wx wrote

From Article

>“Additive manufacturing can help reduce the size and cost of accelerators, shorten their construction time and enhance their performance. Used at a wider scale, additive manufacturing could make accelerators more affordable for use outside of large scientific laboratories, such as in hospitals for isotope production and cancer treatment, in airports for cargo screening or in laboratories for industrial analysis,” explains CERN’s Maurizio Vretenar, I.FAST project coordinator. “Over 30 000 accelerators are currently in use worldwide, the vast majority of them in healthcare and industry.”

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ConfirmedCynic t1_iwug8a7 wrote

By "accelerators" they mean particle accelerators. And some extra text so the bot doesn't mindlessly delete this.

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FuturologyBot t1_iwuh971 wrote

The following submission statement was provided by /u/Gari_305:


From Article

>“Additive manufacturing can help reduce the size and cost of accelerators, shorten their construction time and enhance their performance. Used at a wider scale, additive manufacturing could make accelerators more affordable for use outside of large scientific laboratories, such as in hospitals for isotope production and cancer treatment, in airports for cargo screening or in laboratories for industrial analysis,” explains CERN’s Maurizio Vretenar, I.FAST project coordinator. “Over 30 000 accelerators are currently in use worldwide, the vast majority of them in healthcare and industry.”


Please reply to OP's comment here: https://old.reddit.com/r/Futurology/comments/yyj8po/first_3d_printing_of_crucial_component_to_bring/iwue1wx/

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OliverSparrow t1_iwuy5f8 wrote

Why would "society" want accelerators in their kitchen?

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Gari_305 OP t1_iwv4v0a wrote

u/OliverSparrow

Where you think shrink wrap derives from ?

>Worldwide, hundreds of industrial processes use particle accelerators -- from the manufacturing of computer chips to the cross-linking of plastic for shrink wrap and beyond.

Electron-beam applications center on the modification of material properties, such as the alteration of plastics, for surface treatment, and for pathogen destruction in medical sterilization and food irradiation. Ion-beam accelerators, which accelerate heavier particles, find extensive use in the semiconductor industry in chip manufacturing and in hardening the surfaces of materials such as those used in artificial joints.

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