Palmiga Analog Keyboard
thingiverse
Please respect the license and give credit to the creator. Designing a simple analog keyboard brings up an interesting idea - why not integrate force sensors into robotic fingers? Perhaps a design like this one from Thingiverse would work well: http://www.thingiverse.com/thing:549023 I used a PI-ETPU 95-250 Carbon Black filament to print this, which is a professional 3D printer material known for being UV-stable, flexible, and conductive. You might not need conductivity in your design, but this filament has many other great benefits that could still make it an excellent choice. Here are just a few advantages of using PI-ETPU 95-250 Carbon Black: The unique material composition eliminates stringing and webbing issues during the printing process. With its hardness rating of 95 shore A and added carbon black filler, this filament makes for high-quality prints with excellent properties. This same filler is also an excellent UV stabilizer, which means your prints can withstand even the toughest environmental conditions. Not to mention the incredibly durable matte black finish, which adds a touch of luxury to any design. Plus, the texture is nice and dry to the touch - a great quality for designs where tactile experience matters. And finally, this filament isn't too stretchy either, making it perfect for applications like timing belts. Check out Rubber 3D Printing's Instagram and Twitter profiles: @instagram.com/rubber3dprinting, https://twitter.com/rubber3dprint To see some examples of projects made with this material in action, be sure to check out the following links: Rubber 3D Printing - http://rubber3dprinting.com PI-ETPU - http://www.palmiga.com
With this file you will be able to print Palmiga Analog Keyboard with your 3D printer. Click on the button and save the file on your computer to work, edit or customize your design. You can also find more 3D designs for printers on Palmiga Analog Keyboard.