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ACTA AERONAUTICAET ASTRONAUTICA SINICA ›› 1982, Vol. 3 ›› Issue (4): 61-70.
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Liu Wei1, Xiong Changbing2
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Abstract: It is important but also difficult to study three-dimensional elastoplastic finite element analysis of aeroengine structures, which have a complex configuration and various heavy loads. The stress distribution in the engine struc ture is a necessary datum for fracture mechanics and fatigue damage. For this reason the stresses in elastic and plastic zones deserve to be taken into account-in many engineering fields.In order to ensure adequate accuracy, a spatial 20-nodes isoparametric element is selected and a straightforward numerical solution method-an efficient method of Front Solver-is adopted. For saving computational time and reducing main memory space, a cubic fourteen points Gaussian integral is applied. Moreover, with the aim of economizing man-power and gaining quite high accuracy the cubic finite element meshes are automatically generated.The programming is also discussed in general, including constitutive equations, solution algorithm and strategy for solving large problems. Practice has shown that the program written by author is very advantageous to solving elastoplastic problems.Two typical specimens for experimental investgation are provided: a notched thick plate in which the local stresses are higher than the nominal applied stresses, and a thick plate with a central hole in which the stress distribution along the inside edges is also higher than that of the other place. The theoretical analyses and the experimental results coincided favourably.
Liu Wei;Xiong Changbing. THREE-DIMENSIONAL ELASTOPLASTIC FINITE ELEMENT ANALYSIS[J]. ACTA AERONAUTICAET ASTRONAUTICA SINICA, 1982, 3(4): 61-70.
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