A critical strain approach to the prediction of creep buckling time in structures under varying loads is investigated and its relationship with the conventional linear cumulative damage (life-fraction) approach is established under condition of constant temperature. The latter approach is shown to be inconsistent in some special cases and may result in overprediction or underprediction of creep buckling time depending on whether the loads are monotonically increasing or decreasing. Numerical results obtained with the present approach are compared with incremental solutions for columns, and with recently available theoretical and experimental results of cylindrical shells under axial compression. These comparisons indicate that the critical strain approach is suitable for use in design analysis. Further investigations are needed to assess the effect of varying temperature, which is excluded in the numerical examples because no test results are available for comparison.
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August 1980
Research Papers
A Simplified Approach to Creep Buckling of Structures Under Varying Loads
J. M. Chern
J. M. Chern
Advanced Engineering Methods, Foster Wheeler Energy Corporation, Livingston, N. J. 07039
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J. M. Chern
Advanced Engineering Methods, Foster Wheeler Energy Corporation, Livingston, N. J. 07039
J. Pressure Vessel Technol. Aug 1980, 102(3): 303-308 (6 pages)
Published Online: August 1, 1980
Article history
Received:
March 21, 1979
Revised:
February 5, 1980
Online:
November 5, 2009
Citation
Chern, J. M. (August 1, 1980). "A Simplified Approach to Creep Buckling of Structures Under Varying Loads." ASME. J. Pressure Vessel Technol. August 1980; 102(3): 303–308. https://doi.org/10.1115/1.3263335
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