Template:Stress-Strength Analysis in Design For Reliability: Difference between revisions

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===Stress-Strength Analysis in Design for Reliability===
#REDIRECT [[Stress-Strength_Analysis]]
 
The stress distribution usually can be estimated from customer usage data. For example, the mileage per year of a passenger car or the load distribution for a beam. The strength distribution is affected by the material used in the component, the geometric dimensions and the manufacturing process. By adjusting these factors, a strength distribution that meets the reliability goal can be obtained. The reliability goal can be used to decide the distribution goal of the strength. As we know, the expected reliability is called from the following stress-strength calculation:
 
<center><math>R=P[Stress\le Strength]=\int_{0}^{\infty }{{{f}_{Stress}}(x)\cdot {{R}_{Strength}}(x)}dx</math></center>
 
Since the stress distribution can be estimated from customer usage data,  <math>{f}_{Stress} </math> can be assumed to be known. For a given reliability goal, the strength distribution <math> {R}_{Strength}</math> is the only unknown and can be solved from the above equation. The following example explains how to use Weibull++ to determine the parameters for a strength distribution that are required to meet a specified reliability goal.
 
'''Example 2:'''
{{Example: Stress-Strength Analysis for Determing Strength Distribution}}

Latest revision as of 06:47, 15 August 2012