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The concept of this analysis lies in the fact that the elements have the nods which would behave in the same way under different load conditions, thus it would be possible analyzing the three degrees of freedom of every nod can be fully translated by notation. Here probably, need to know how different load types will relate to the bending moments. The relationship between moment and loads. Since it is a look out for the build up towards the analysis methods, there is a need to explore the different load conditions.
The different load conditions can be a) Moment Load, b) Point Load, c) Uniformly Distributed Load and d) Patch Load (Cprani C 2008). Solid Works Simulation writes the equations governing the behavior of each element taking into consideration its connectivity to other elements (Harmanto D 2008). The method brings up the results from hundreds of thousands of equations which relate the unknown to the knowns. Those functions which would be integrated just like any ordinary function. Then finally the solver finds the degree of freedom in every element at every nod.
A number of simulation techniques have been developed to model a. Nonlinear Analysis -The stress-strain relationship of the material is not linear. -Induced displacements are large enough to change the stiffness. -Boundary conditions vary during loading (as in problems with contact) (Cprani C 2008). Buckling Analysis -this is conducted to predict critical loads and tests failure due to buckling. Frequency Analysis Thermal and Thermal Stress Analysis Optimization Analysis One can possibly make mistake in accessing a broad range of physical models and capabilities.
-One should let SolidWorks Flow Simulation find the best dimensions or inlet and outlet conditions that satisfy goals, such as force, pressure drop, or velocity (Product Discription 2009)In clearly understanding the effects of temperature changes in parts and assembles.In performing dynamic analysis on parts and assembles, it will require making a number of different studies (Product Discription 2009)The Use of Mesh Size and Shape A number of simulation techniques have been developed to model and analyze different processes and to help decision- makers Halppin 1977).
Cell-based modeling has been investigated in simulation (Zhang et al. 2005, Zhang et al. 2006). A subdivision of model during the analysis becomes necessary for the mathematical simulation. This task of subdividing is normally called to be the Meshing. Meshing helps to come up with more accurate results, at the same time it will require more computer resources. One can always make use of the mesh control to reduce the size of the element in order to improve the accuracy of the results.
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