Plasma cutters: Difference between revisions
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=Challenges= | =Challenges= | ||
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Plasma Cutter Cutting Sequence.png|Plasma cutter cutting sequence | Plasma Cutter Cutting Sequence.png|Plasma cutter cutting sequence | ||
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=Approaches= | |||
==Electronics== | |||
==Firmware== | |||
[https://github.com/timschmidt/buildlog-lasercutter-marlin Github: Buildlog Lasercutter Marlin] | |||
==Software== | |||
=References= | =References= | ||
<youtube>EZY-6ROY13w</youtube><br> | |||
<youtube>vjCgKJYV2aI</youtube> | |||
* [https://gofabcnc.com GoFabCNC] | * [https://gofabcnc.com GoFabCNC] | ||
* [https://minihornet.com/ Hornet cutting systems] | * [https://minihornet.com/ Hornet cutting systems] |
Revision as of 16:41, 31 January 2023
Project: Plasma cutters
Designers: | Timothy Schmidt |
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Parts: | Laser cutters, Linear bearings |
Techniques: | Tri joints |
Introduction
Plasma cutting is a process that cuts through electrically conductive materials by means of an accelerated jet of hot plasma. Typical materials cut with a plasma torch include steel, stainless steel, aluminum, brass and copper, although other conductive metals may be cut as well. Plasma cutting is often used in fabrication shops, automotive repair and restoration, industrial construction, and salvage and scrapping operations. Due to the high speed and precision cuts combined with low cost, plasma cutting sees widespread use from large-scale industrial CNC applications down to small hobbyist shops.
Challenges
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Plasma cutter cutting sequence
Approaches
Electronics
Firmware
Github: Buildlog Lasercutter Marlin
Software
References