(13)The pdf for the Arrhenius relationship and the lognormal distribution is given next.
The pdf of the lognormal distribution is given by:
(13)
where:
and:
T = times-to-failure.
= mean of the natural
logarithms of the times-to-failure.
= standard
deviation of the natural logarithms of the times-to-failure.
The median of the lognormal distribution is given by:
(14)
The Arrhenius-lognormal model pdf
can be obtained first by setting 
= L(V) in Eqn. ( 1).
Therefore:
or:
Thus:
(15)
Substituting Eqn. (15) into Eqn. (16) yields the Arrhenius-lognormal model pdf or:
(16)
Note that in Eqn. (16), it was assumed that the standard deviation of
the natural logarithms of the times-to-failure,
is independent of stress. This assumption implies that the shape of the
distribution does not change with stress (
is the shape parameter of the lognormal distribution).
Arrhenius-Lognormal Statistical Properties Summary
The Mean
The mean life of the Arrhenius-lognormal model (mean
of the times-to-failure), 
,
is given by:
(17)
The mean of the natural logarithms of the times-to-failure,
, in terms of
and 
is given by:
The Standard Deviation
The standard deviation of the Arrhenius-lognormal
model (standard deviation of the times-to-failure), ,
is given by:
(18)
The standard deviation of the natural logarithms of
the times-to-failure, ,
in terms of and
is given by:
The Mode
The mode of the Arrhenius-lognormal model is given by:
Arrhenius-Lognormal Reliability Function
The reliability for a mission of time T, starting at age 0, for the Arrhenius-lognormal model is determined by:
or:
There is no closed form solution for the lognormal reliability function. Solutions can be obtained via the use of standard normal tables. Since the application automatically solves for the reliability we will not discuss manual solution methods.
Reliable Life
For the Arrhenius-lognormal model, the reliable life, or the mission duration for a desired reliability goal, tR is estimated by first solving the reliability equation with respect to time, as follows:
where:
and:
Since 
= ln(T) the reliable life, tR
is given by:
Arrhenius-Lognormal Failure Rate
The Arrhenius-lognormal failure rate is given by:
When Using The Lognormal Distribution in ALTA
The parameters returned for the Arrhenius-lognormal distribution are
always , C and B. The returned
is always the square root of the variance of the natural logarithms to
failure. Also, if the "Show Scale Parameter" option is checked
(on the Data Sheet tab in the User Setup), the returned mean value is
always the mean of the natural logarithms of the times-to-failure, given
by Eqn. ( 15). Even though the application
denotes these values as mean and standard deviation, the user is reminded
that these are given as parameters of the distribution, and are thus the
mean (a function of stress as it can be seen in Eqn. ( 15))
and standard deviation of the natural logarithms of the data. The mean
life value of the times-to-failure, as well as the standard deviation
of times-to-failure (not the parameter) can be obtained through the Function
Wizard in ALTA.
Parameter Estimation
Maximum Likelihood Estimation Method
The lognormal log-likelihood function for the Arrhenius-lognormal model is:
where:
and:
Fe is the number of groups of exact times-to-failure data points.
Ni is the number of times-to-failure data points in the ith time-to-failure data group.
is the standard deviation of the natural logarithm of the times-to-failure
(unknown, the first of three parameters to be estimated).
B is the Arrhenius parameter (unknown, the second of three parameters to be estimated).
C is the second Arrhenius parameter (unknown, the third of three parameters to be estimated).
Vi is the stress level of the ith group.
Ti is the exact failure time of the ith group.
S is the number of groups of suspension data points.
is the number of suspensions in the ith
group of suspension data points.
is the running time of the ith
suspension data group.
FIis the number of interval data groups.
is the number of intervals in the ith
group of data intervals.
is the beginning of the ith
interval.
is the ending of the ith
interval.
The solution (parameter estimates) will be found by solving for 
, 
,
so that 
= 0, 
= 0 and 
= 0, where:
and:
See Also:
Arrhenius Relationship
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