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Mixed Models and Reduction Techniques for Large-Rotation, Nonlinear Analysis of Shells of Revolution with Application to TiresAn effective computational strategy is presented for the large-rotation, nonlinear axisymmetric analysis of shells of revolution. The three key elements of the computational strategy are: (1) use of mixed finite-element models with discontinuous stress resultants at the element interfaces; (2) substantial reduction in the total number of degrees of freedom through the use of a multiple-parameter reduction technique; and (3) reduction in the size of the analysis model through the decomposition of asymmetric loads into symmetric and antisymmetric components coupled with the use of the multiple-parameter reduction technique. The potential of the proposed computational strategy is discussed. Numerical results are presented to demonstrate the high accuracy of the mixed models developed and to show the potential of using the proposed computational strategy for the analysis of tires.
Document ID
19840026702
Acquisition Source
Legacy CDMS
Document Type
Technical Publication (TP)
Authors
Noor, A. K.
(George Washington Univ. Hampton, VA, United States)
Andersen, C. M.
(Coll. of William and Mary)
Tanner, J. A.
(NASA Langley Research Center)
Date Acquired
September 4, 2013
Publication Date
October 1, 1984
Subject Category
Structural Mechanics
Report/Patent Number
NAS 1.60:2343
L-15802
NASA-TP-2343
Report Number: NAS 1.60:2343
Report Number: L-15802
Report Number: NASA-TP-2343
Accession Number
84N34773
Funding Number(s)
CONTRACT_GRANT: NCC1-40
PROJECT: RTOP 505-45-14
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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