A one-dimensional model for designing functionally graded materials to manage stress waves
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Publication:1580861
DOI10.1016/S0020-7683(99)00236-XzbMath0996.74045WikidataQ126635006 ScholiaQ126635006MaRDI QIDQ1580861
Publication date: 31 October 2002
Published in: International Journal of Solids and Structures (Search for Journal in Brave)
one-dimensional modelfunctionally graded materialscomposite materiallayered materialmaterial failurestress wavepeak valuestress time-domain evolution
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Impulsive responses of functionally graded material bars due to collision ⋮ Propagation of combined longitudinal and torsional stress waves in a functionally graded thin-walled tube ⋮ Nonlinear structural design using multiscale topology optimization. II: Transient formulation ⋮ Dynamic analysis of thick short length FGM cylinders ⋮ Optimal non-homogeneous composites for dynamic loading ⋮ Numerical simulation of two-dimensional wave propagation in functionally graded materials. ⋮ Nonlinear transient thermal stress and elastic wave propagation analyses of thick temperature-dependent FGM cylinders, using a second-order point-collocation method ⋮ Nonlinear thermoelasticity, vibration, and stress wave propagation analyses of thick FGM cylinders with temperature-dependent material properties ⋮ A new boundary element method for modeling wave propagation in functionally graded materials ⋮ Dynamic analysis of two-dimensional functionally graded thick hollow cylinder with finite length under impact loading
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