Y.D. Yu
,
K.F. Zhang
,
H.R. Zheng
,
D.M. Jiang
金属学报(英文版)
Numerical simulation and experimental studies on cavity growth were carried out during the bulging process of superplastic magnesium Alloy. A three-dimensional rigid-
viscoplastic finite element program has been developed and applied to predict the cavity radiusand volume fraction of cavity growth. The final prediction on the cavity
radius and volume fraction distribution was exhibited as colorful shade pictures. The
experimental studies wereperformed under similar conditions to the numerical one
and provided for quantitativecomparison. According to the metallography observation,
the radius and volume fraction of cavity growth was quantitative achieved by using
Profound-Iron & steel software. The numerical results were in reasonable quantitative agreement with the experiment.
关键词:
magnesium alloy
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null
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null
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