Difference between revisions of "Open Source 3-D Printed Nutating Mixer"

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==Source==
 
==Source==
* Dhwani K. Trivedi and Joshua M. Pearce. [http://www.mdpi.com/2076-3417/7/9/942 Open Source 3-D Printed Nutating Mixer]. ''Applied Sciences'',  2017, 7(9), 942; doi:10.3390/app7090942 [https://www.academia.edu/34589801/Open_Source_3-D_Printed_Nutating_Mixer  open access]
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* Dhwani K. Trivedi and Joshua M. Pearce. [http://www.mdpi.com/2076-3417/7/9/942/htm Open Source 3-D Printed Nutating Mixer]. ''Applied Sciences'',  2017, 7(9), 942; doi:10.3390/app7090942 [https://www.academia.edu/34589801/Open_Source_3-D_Printed_Nutating_Mixer  open access]
 
* [ Repository contains all source code], paper contains instructions
 
* [ Repository contains all source code], paper contains instructions
 
* Quick download of stls []
 
* Quick download of stls []

Revision as of 16:00, 17 September 2017


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Source

Mixer-nutating.jpg


Mix and Shake

Abstract

As the open source development of additive manufacturing has led to low-cost desktop three-dimensional (3-D) printing, a number of scientists throughout the world have begun to share digital designs of free and open source scientific hardware. Open source scientific hardware enables custom experimentation, laboratory control, rapid upgrading, transparent maintenance, and lower costs in general. To aid in this trend, this study describes the development, design, assembly, and operation of a 3-D printable open source desktop nutating mixer, which provides a fixed 20° platform tilt angle for a gentle three-dimensional (gyrating) agitation of chemical or biological samples (e.g., DNA or blood samples) without foam formation. The custom components for the nutating mixer are designed using open source FreeCAD software to enable customization. All of the non-readily available components can be fabricated with a low-cost RepRap 3-D printer using an open source software tool chain from common thermoplastics. All of the designs are open sourced and can be configured to add more functionality to the equipment in the future. It is relatively easy to assemble and is accessible to both the science education of younger students as well as state-of-the-art research laboratories. Overall, the open source nutating mixer can be fabricated with US$37 in parts, which is 1/10th of the cost of proprietary nutating mixers with similar capabilities. The open source nature of the device allow it to be easily repaired or upgraded with digital files, as well as to accommodate custom sample sizes and mixing velocities with minimal additional costs. View Full-Text

Keywords:

mixing; nutating mixer; shaker; stirrer; open hardware; 3-D printing; scientific hardware; open source hardware; chemical mixing 

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