User Tools

Site Tools

wiki:sns:sns2014:importance_of_unit_system

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Next revision		Previous revision
wiki:sns:sns2014:importance_of_unit_system [2017/07/11 12:42] – created zachwiki:sns:sns2014:importance_of_unit_system [2017/07/13 14:08] (current) claire
Line 1: Line 1:
 ~~NOTOC~~ ~~NOTOC~~
-**Don't have Scan&Solve?  Get it now! 7-day evaluation is free**   +======Unit Systems======
-[[http://www.intact-solutions.com/get_sns.htm|{{wiki:download_button.png?125}}]] +
-=====Unit Systems=====+
 Scan&Solve relies on the unit system chosen when a model is created. The unit system entered into Rhino is used by Scan&Solve to interpret the geometry when restraints and loads are applied to the model. Scan&Solve relies on the unit system chosen when a model is created. The unit system entered into Rhino is used by Scan&Solve to interpret the geometry when restraints and loads are applied to the model.
  
-====Creating model with incorrect unit system====+=====Creating model with incorrect unit system=====
 If an incorrect unit system is supplied to Rhino when the model is created, the loads and danger level applied to the model will likely be significantly different than expected. If an incorrect unit system is supplied to Rhino when the model is created, the loads and danger level applied to the model will likely be significantly different than expected.
  
Line 12: Line 10:
 In the first image, the model was created by choosing the millimeters unit system in Rhino.  The danger level of the beam failing is very high.   In the first image, the model was created by choosing the millimeters unit system in Rhino.  The danger level of the beam failing is very high.  
  
-{{ :units_box_mm_results.png?400 }}+{{ :units_box_mm_results.png?300 }}
  
 However, if the beam was intended to be modeled in meters, the result is quite different: the beam will not fail.  Note that in both cases, Rhino shows the dimension of the beam to be 10.00.  However, if the beam was intended to be modeled in meters, the result is quite different: the beam will not fail.  Note that in both cases, Rhino shows the dimension of the beam to be 10.00. 
  
-{{ :units_box_meters_results.png?400 }}+{{ :units_box_meters_results.png?300 }}
  
-====Entering loads in a separate unit system====+=====Entering loads in a separate unit system=====
 Scan&Solve can accept loads in different units than the unit system chosen for the geometric model.  It will automatically convert the loads to be consistent with the model's unit system.  For example, it is possible to create the model with a millimeter unit system and apply loads in pounds. Scan&Solve can accept loads in different units than the unit system chosen for the geometric model.  It will automatically convert the loads to be consistent with the model's unit system.  For example, it is possible to create the model with a millimeter unit system and apply loads in pounds.
  
 However, the unit selection in the load creator only applies to the load being defined. It will not convert the model's geometry to another unit system. However, the unit selection in the load creator only applies to the load being defined. It will not convert the model's geometry to another unit system.
  
-{{ :units_window_loads.png }}+{{ :units_window_loads.png?400 }}
wiki/sns/sns2014/importance_of_unit_system.1499798536.txt.gz · Last modified: 2017/07/11 12:42 by zach