Revision as of 18:26, 2 March 2011

Expected Failure Time Plot

When a reliability life test is planned it is useful to visualize the expected outcome of the experiment. The Expected Failure Time Plot (introduced by ReliaSoft in Weibull++ 8)provides such visual.

Background & Calculations

Using the cumulative binomial, for a defined sample size, one can compute a rank (Median Rank if at 50% probability) for each ordered failure. As an example and for a sample size of 6 the 5%, 50% and 95% ranks would be as follows:

Table 1: 5%, 50% and 95% Ranks for a sample size of 6.
Order Number	5%	50%	95%
1	0.85%	10.91%	39.30%
2	6.29%	26.45%	58.18%
3	15.32%	42.14%	72.87%
4	27.13%	57.86%	84.68%
5	41.82%	73.55%	93.71%
6	60.70%	89.09%	99.15%

Furthermore, consider that for the units to be tested the underlying reliability model assumption is given by a Weibull distribution with $β = 2$ , and $η = 100$ hr. Then the median time to failure of the first unit on test can be determined by solving the Weibull reliability equation for t, at each probability,

or

then for 0.85%,

and so forths as shown in the table below:

Table 2: Times corresponding to the 5%, 50% and 95% Ranks for a sample size of 6. and assuming Weibull distribution with $β = 2$ , and $η = 100$ hr.;
Failure Order Number	Lowest Expected Time-to-failure (hr)	Median Expected Time-to-failure (hr)	Highest Expected Time-to-failure (hr)
1	9.25	33.99	70.66
2	25.48	55.42	93.37
3	40.77	73.97	114.21
4	56.26	92.96	136.98
5	73.60	115.33	166.34
6	96.64	148.84	218.32

<a _fcknotitle="true" href="Category:Weibull++">Weibull++</a> <a _fcknotitle="true" href="Category:Test_Design">Test_Design</a> <a _fcknotitle="true" href="Category:Special_Tools">Special_Tools</a>

@@ Line 1: / Line 1: @@
-<p><span class="fck_mw_template">{{UConstruction}}</span>
+<IMG class=FCK__MWTemplate src="http://www.reliawiki.com/extensions/FCKeditor/fckeditor/editor/images/spacer.gif" width=1 height=1 _fckfakelement="true" _fckrealelement="0" _fck_mw_template="true">
-</p>
-<h1>Expected Failure Time Plot</h1>
-<p>When a reliability life test is planned it is useful to visualize the expected outcome of the experiment. The Expected Failure Time Plot (introduced by ReliaSoft in Weibull++ 8)provides such visual.
-</p>
-<h2> Background &amp; Calculations  </h2>
-<p>Using the cumulative binomial, for a defined sample size, one can compute a rank (Median Rank if at 50% probability) for each ordered failure. As an example and for a sample size of 6 the 5%, 50% and 95% ranks would be as follows:
-</p><p><br />
-</p>
-<table border="1" cellspacing="1" cellpadding="1" width="400" align="center">
-<caption> Table 1: 5%, 50% and 95% Ranks for a sample size of 6.&nbsp;
-</caption>
-<tr>
-<th bgcolor="#cccccc" valign="middle" scope="col" align="center"> Order Number
-</th><th bgcolor="#cccccc" valign="middle" scope="col" align="center"> 5%
-</th><th bgcolor="#cccccc" valign="middle" scope="col" align="center"> 50%
-</th><th bgcolor="#cccccc" valign="middle" scope="col" align="center"> 95%
-</th></tr>
-<tr>
-<td valign="middle" align="center"> 1
-</td><td valign="middle" align="center"> 0.85%
-</td><td valign="middle" align="center"> 10.91%
-</td><td valign="middle" align="center"> 39.30%
-</td></tr>
-<tr>
-<td valign="middle" align="center"> 2
-</td><td valign="middle" align="center"> 6.29%
-</td><td valign="middle" align="center"> 26.45%
-</td><td valign="middle" align="center"> 58.18%
-</td></tr>
-<tr>
-<td valign="middle" align="center"> 3
-</td><td valign="middle" align="center"> 15.32%
-</td><td valign="middle" align="center"> 42.14%
-</td><td valign="middle" align="center"> 72.87%
-</td></tr>
-<tr>
-<td valign="middle" align="center"> 4
-</td><td valign="middle" align="center"> 27.13%
-</td><td valign="middle" align="center"> 57.86%
-</td><td valign="middle" align="center"> 84.68%
-</td></tr>
-<tr>
-<td valign="middle" align="center"> 5
-</td><td valign="middle" align="center"> 41.82%
-</td><td valign="middle" align="center"> 73.55%
-</td><td valign="middle" align="center"> 93.71%
-</td></tr>
-<tr>
-<td valign="middle" align="center"> 6
-</td><td valign="middle" align="center"> 60.70%
-</td><td valign="middle" align="center">
-<p>89.09%
-</p>
-</td><td valign="middle" align="center">
-<p>99.15%
-</p>
-</td></tr></table>
-<p><br />
-</p><p>Furthermore, consider that for the units to be tested the underlying reliability model assumption is given by a Weibull distribution with <span class="texhtml">&beta; = 2</span>, and <span class="texhtml">&eta; = 100</span> hr.  Then the median time to failure of the first unit on test can be determined by solving the Weibull reliability equation for t, at each probability,
-</p><p>or
-</p><p><img _fckfakelement="true" _fck_mw_math="R(t)=e^{\big({t \over \eta}\big)^\beta}" src="/images/math/9/b/2/9b21aed609d5cefddaae485bbfbc3a2f.png" />
-</p><p>then for 0.85%,
-</p><p><br /><img _fckfakelement="true" _fck_mw_math="1-0.0085=e^{\big({t \over 100}\big)^2}" src="/images/math/d/b/e/dbe99885cf4bd0ea65638a820287544a.png" />
-</p><p>and so forths as shown in the table below:
-</p><p><br />
-</p>
-<table border="1" cellspacing="1" cellpadding="1" width="400" align="center">
-<tr>
+= Expected Failure Time Plot =
-<th bgcolor="#cccccc" scope="col"> Failure Order Number
-</th><th bgcolor="#cccccc" scope="col"> Lowest Expected Time-to-failure (hr)
+When a reliability life test is planned it is useful to visualize the expected outcome of the experiment. The Expected Failure Time Plot (introduced by ReliaSoft in Weibull++ 8)provides such visual.
-</th><th bgcolor="#cccccc" scope="col"> Median Expected Time-to-failure (hr)
-</th><th bgcolor="#cccccc" scope="col"> Highest Expected Time-to-failure (hr)
+== Background &amp; Calculations  ==
-</th></tr>
-<tr>
+Using the cumulative binomial, for a defined sample size, one can compute a rank (Median Rank if at 50% probability) for each ordered failure. As an example and for a sample size of 6 the 5%, 50% and 95% ranks would be as follows:
-<td valign="middle" align="center"> 1
-</td><td valign="middle" align="center"> 9.25
+<br>
-</td><td valign="middle" align="center"> 33.99
-</td><td valign="middle" align="center"> 70.66
+{| border="1" cellspacing="1" cellpadding="1" width="400" align="center"
-</td></tr>
+|+ Table 1: 5%, 50% and 95% Ranks for a sample size of 6.&nbsp;
-<tr>
+|-
-<td valign="middle" align="center"> 2
+! bgcolor="#cccccc" valign="middle" scope="col" align="center" | Order Number
-</td><td valign="middle" align="center"> 25.48
+! bgcolor="#cccccc" valign="middle" scope="col" align="center" | 5%
-</td><td valign="middle" align="center"> 55.42
+! bgcolor="#cccccc" valign="middle" scope="col" align="center" | 50%
-</td><td valign="middle" align="center"> 93.37
+! bgcolor="#cccccc" valign="middle" scope="col" align="center" | 95%
-</td></tr>
+|-
-<tr>
+| valign="middle" align="center" | 1
-<td valign="middle" align="center"> 3
+| valign="middle" align="center" | 0.85%
-</td><td valign="middle" align="center"> 40.77
+| valign="middle" align="center" | 10.91%
-</td><td valign="middle" align="center"> 73.97
+| valign="middle" align="center" | 39.30%
-</td><td valign="middle" align="center"> 114.21
+|-
-</td></tr>
+| valign="middle" align="center" | 2
-<tr>
+| valign="middle" align="center" | 6.29%
-<td valign="middle" align="center"> 4
+| valign="middle" align="center" | 26.45%
-</td><td valign="middle" align="center"> 56.26
+| valign="middle" align="center" | 58.18%
-</td><td valign="middle" align="center"> 92.96
+|-
-</td><td valign="middle" align="center"> 136.98
+| valign="middle" align="center" | 3
-</td></tr>
+| valign="middle" align="center" | 15.32%
-<tr>
+| valign="middle" align="center" | 42.14%
-<td valign="middle" align="center"> 5
+| valign="middle" align="center" | 72.87%
-</td><td valign="middle" align="center"> 73.60
+|-
-</td><td valign="middle" align="center"> 115.33
+| valign="middle" align="center" | 4
-</td><td valign="middle" align="center"> 166.34
+| valign="middle" align="center" | 27.13%
-</td></tr>
+| valign="middle" align="center" | 57.86%
-<tr>
+| valign="middle" align="center" | 84.68%
-<td valign="middle" align="center"> 6
+|-
-</td><td valign="middle" align="center">
+| valign="middle" align="center" | 5
-<p>96.64
+| valign="middle" align="center" | 41.82%
-</p>
+| valign="middle" align="center" | 73.55%
-</td><td valign="middle" align="center"> 148.84
+| valign="middle" align="center" | 93.71%
-</td><td valign="middle" align="center"> 218.32
+|-
-</td></tr></table>
+| valign="middle" align="center" | 6
-<p><br /><br />
+| valign="middle" align="center" | 60.70%
-</p><p><br />
+| valign="middle" align="center" |
-</p><p><br />
+.09%
-</p><p><br />
-</p><p><br /><br />
+| valign="middle" align="center" |
-</p><a _fcknotitle="true" href="Category:Weibull++">Weibull++</a> <a _fcknotitle="true" href="Category:Test_Design">Test_Design</a> <a _fcknotitle="true" href="Category:Special_Tools">Special_Tools</a>
+.15%
+|}
+<br>
+Furthermore, consider that for the units to be tested the underlying reliability model assumption is given by a Weibull distribution with <span class="texhtml">β = 2</span>, and <span class="texhtml">η = 100</span> hr. Then the median time to failure of the first unit on test can be determined by solving the Weibull reliability equation for t, at each probability,
+or
+&lt;img _fckfakelement="true" _fck_mw_math="R(t)=e^{\big({t \over \eta}\big)^\beta}" src="/images/math/9/b/2/9b21aed609d5cefddaae485bbfbc3a2f.png" /&gt;
+then for 0.85%,
+<br>&lt;img _fckfakelement="true" _fck_mw_math="1-0.0085=e^{\big({t \over 100}\big)^2}" src="/images/math/d/b/e/dbe99885cf4bd0ea65638a820287544a.png" /&gt;
+and so forths as shown in the table below:
+<br>
+{| border="1" cellspacing="1" cellpadding="1" width="400" align="center"
+|+ Table 2: Times corresponding to the 5%, 50% and 95% Ranks for a sample size of 6. and assuming Weibull distribution with <span class="texhtml">β = 2</span>, and <span class="texhtml">η = 100</span> hr.;
+|-
+! bgcolor="#cccccc" scope="col" | Failure Order Number
+! bgcolor="#cccccc" scope="col" | Lowest Expected Time-to-failure (hr)
+! bgcolor="#cccccc" scope="col" | Median Expected Time-to-failure (hr)
+! bgcolor="#cccccc" scope="col" | Highest Expected Time-to-failure (hr)
+|-
+| valign="middle" align="center" | 1
+| valign="middle" align="center" | 9.25
+| valign="middle" align="center" | 33.99
+| valign="middle" align="center" | 70.66
+|-
+| valign="middle" align="center" | 2
+| valign="middle" align="center" | 25.48
+| valign="middle" align="center" | 55.42
+| valign="middle" align="center" | 93.37
+|-
+| valign="middle" align="center" | 3
+| valign="middle" align="center" | 40.77
+| valign="middle" align="center" | 73.97
+| valign="middle" align="center" | 114.21
+|-
+| valign="middle" align="center" | 4
+| valign="middle" align="center" | 56.26
+| valign="middle" align="center" | 92.96
+| valign="middle" align="center" | 136.98
+|-
+| valign="middle" align="center" | 5
+| valign="middle" align="center" | 73.60
+| valign="middle" align="center" | 115.33
+| valign="middle" align="center" | 166.34
+|-
+| valign="middle" align="center" | 6
+| valign="middle" align="center" |
+.64
+| valign="middle" align="center" | 148.84
+| valign="middle" align="center" | 218.32
+|}
+<br><br>
+<br>
+<br>
+<br>
+<br><br>
+&lt;a _fcknotitle="true" href="Category:Weibull++"&gt;Weibull++&lt;/a&gt; &lt;a _fcknotitle="true" href="Category:Test_Design"&gt;Test_Design&lt;/a&gt; &lt;a _fcknotitle="true" href="Category:Special_Tools"&gt;Special_Tools&lt;/a&gt;

Expected Failure Time Plot: Difference between revisions

Revision as of 18:26, 2 March 2011

Expected Failure Time Plot

Background & Calculations

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Expected Failure Time Plot: Difference between revisions

Revision as of 18:26, 2 March 2011

Expected Failure Time Plot

Background & Calculations

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