Difference between revisions of "File:Strained-shell-sleeve-bearing.gif"

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(Strained-shell Sleeve Bearing Description: This is the Strained-shell Sleeve Bearing. It was modeled and simulated entirely using NanoEngineer-1. This is the strained-shell sleeve bearing from Nanosystems (page 296) designed by K. Eric Drexler and Ra...)
 
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Strained-shell Sleeve Bearing
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= Strained-shell Sleeve Bearing =
  
Description:
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'''Description:'''
This is the Strained-shell Sleeve Bearing. It was modeled and simulated entirely using NanoEngineer-1.  This is the strained-shell sleeve bearing from Nanosystems (page 296) designed by K. Eric Drexler and Ralph Merkle while they were working together at Xerox PARC The model comprises two molecular components; the inner shaft and the outer sleeve and contains a total of 2,808 atoms.
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This is the Strained-shell Sleeve Bearing. It was modeled and simulated entirely using NanoEngineer-1.  This is the '''strained-shell sleeve bearing''' from Nanosystems (page 296) designed by K. Eric Drexler and Ralph Merkle while they were working together at Xerox PARC The model comprises two molecular components; the ''inner shaft'' and the ''outer sleeve'' and contains a total of 2,808 atoms.
  
 
With practice, an experienced user can create this bearing in 10-15 minutes. NanoEngineer-1 includes an extrusion tool for creating rods and rings from a molecular fragment (called a chunk in NanoEngineer-1).
 
With practice, an experienced user can create this bearing in 10-15 minutes. NanoEngineer-1 includes an extrusion tool for creating rods and rings from a molecular fragment (called a chunk in NanoEngineer-1).
  
Author:
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'''Author:'''
 
K. Eric Drexler
 
K. Eric Drexler
 
Nanorex, Inc.  
 
Nanorex, Inc.  
  
Above text was from the Nanorex Nanoengineer-1 Molecular machinery gallery page:  
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Above text was from the Nanorex Nanoengineer-1 Molecular machinery gallery page: <br>
 
https://web.archive.org/web/20120511014635/http://nanoengineer-1.com/content/index.php?option=com_content&task=view&id=40&Itemid=50
 
https://web.archive.org/web/20120511014635/http://nanoengineer-1.com/content/index.php?option=com_content&task=view&id=40&Itemid=50

Latest revision as of 17:41, 12 April 2021

Strained-shell Sleeve Bearing

Description: This is the Strained-shell Sleeve Bearing. It was modeled and simulated entirely using NanoEngineer-1. This is the strained-shell sleeve bearing from Nanosystems (page 296) designed by K. Eric Drexler and Ralph Merkle while they were working together at Xerox PARC The model comprises two molecular components; the inner shaft and the outer sleeve and contains a total of 2,808 atoms.

With practice, an experienced user can create this bearing in 10-15 minutes. NanoEngineer-1 includes an extrusion tool for creating rods and rings from a molecular fragment (called a chunk in NanoEngineer-1).

Author: K. Eric Drexler Nanorex, Inc.

Above text was from the Nanorex Nanoengineer-1 Molecular machinery gallery page:
https://web.archive.org/web/20120511014635/http://nanoengineer-1.com/content/index.php?option=com_content&task=view&id=40&Itemid=50

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current17:35, 12 April 2021Thumbnail for version as of 17:35, 12 April 2021300 × 250 (172 KB)Apm (Talk | contribs)Strained-shell Sleeve Bearing Description: This is the Strained-shell Sleeve Bearing. It was modeled and simulated entirely using NanoEngineer-1. This is the strained-shell sleeve bearing from Nanosystems (page 296) designed by K. Eric Drexler and Ra...
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