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3D-Metal-Printer-Project.md
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This project consists of an Open source, low-cost 3D Metal Printer for developing and low income countries, using an electron beam to sinter the metal powder. This project have an extreme affinity in philosophy with Monero and would not be possible without this grant. Making 3D printers affordable can help decentralize production of various mass produced items.
This printer uses an electron beam to selectively melt each layer of metal powder, causing the powder particles to fuse together. After one layer is complete, the build platform is moved down one layer in height. The re-coater comes in again with a fresh layer of powder, and the electron beam starts to induce the fusion of powder particles, causing the new layer to form. This process is repeated until the entire part is finished, making a solid metal part. Each layer height is around 0.05mm to 0.1mm thickness.
-Software collaboration: The 3D Metal Printer project will create a GitHub page, so anyone can browse and download software repositories but only registered users can contribute content to repositories. With a registered user account, users can have discussions, manage repositories, submit software contributions to others’ repositories, and review code changes.
-Hardware collaboration: The project will create a parent category for open science hardware project in GOSH Open Hardware website, where Hardware and operational tests will be fully documented, so anyone can browse and download the schematics, designs, etc. Only registered users can have discussions and submit hardware contributions to others.
The targets are professionals and amateurs, particularly in low incomes countries. Participation is not restricted to any particular background, country, race, sex, religion, etc. The use of 3D printing in a healthcare system for rural developing communities allows for a unique insight into product and technology adoptions processes in developing communities.
For hospitals located away from major cities, 3D Metal Printing will be practical when supplies run low. This is especially important in farming communities where patients from the nearby fields who come in with work-related injuries could be outfitted with custom splints that are 3D Metal Printed as needed.
We find that entrepreneurs will benefit from this project. Especially early stage entrepreneurs that are not yet financially secure enough to easily afford a 3D Metal Printer. Increasing access for these entrepreneurs ensures greater representation and impact, paving pathways to get these deep-tech innovations more efficiently into the market. Adopting open-source approaches play a key role in this process. The 3D Metal Printer design, plans, videos, schematics will be open and free for any person in the world.
At this time the prototype is capable of generating a 0.5mm diameter electron beam, focusing it on a metal surface and moving it in XY axis. In this way, it is possible to heat a metal piece using the electron beam. Currently, optimization of the electron gun is being worked on, evaluating different configurations to reduce the size of the spot from 0.5mm to 0.1mm in diameter or less.