The effects of actual variations, also called uncertainties, in geometry and material properties on the structural response of a space shuttle main engine turbopump blade are evaluated. A normal distribution was assumed to represent the uncertainties statistically. Uncertainties were assumed to be totally random, partially correlated, and fully correlated. The magnitude of these uncertainties were represented in terms of mean and variance. Blade responses, recorded in terms of displacements, natural frequencies, and maximum stress, was evaluated and plotted in the form of probabilistic distributions under combined uncertainties. These distributions provide an estimate of the range of magnitudes of the response and probability of occurrence of a given response. Most importantly, these distributions provide the information needed to estimate quantitatively the risk in a structural design.
[1]
Jerome J. Connor,et al.
An assessment of uncertainties in fatigue analyses of steel jacket offshore platforms
,
1982
.
[2]
Christos C. Chamis,et al.
Probabilistic structural analysis methods for space propulsion system components
,
1987
.
[3]
R. Brook,et al.
Cumulative Damage in Fatigue: A Step towards Its Understanding
,
1969
.
[4]
W. D. Dover,et al.
Fatigue crack growth in tubular welded connections
,
1980
.
[5]
Ted Belytschko,et al.
Probabilistic finite elements
,
1987
.
[6]
M. Shinozuka,et al.
Probabilistic Load Combinations and Crossing Rates
,
1981
.
[7]
Paul H. Wirshing.
Fatigue Reliability Analysis in Offshore Structures
,
1981
.