Zhang Yingshi. Vibrations of Stepped One-Way Thin Rectangular Plates Subjected to in-Plane Tensile/Compressive Force in y-Direction on Winkler’s Foundation[J]. Applied Mathematics and Mechanics, 2000, 21(7): 708-714.
Citation:
Zhang Yingshi. Vibrations of Stepped One-Way Thin Rectangular Plates Subjected to in-Plane Tensile/Compressive Force in y-Direction on Winkler’s Foundation[J]. Applied Mathematics and Mechanics, 2000, 21(7): 708-714.
Zhang Yingshi. Vibrations of Stepped One-Way Thin Rectangular Plates Subjected to in-Plane Tensile/Compressive Force in y-Direction on Winkler’s Foundation[J]. Applied Mathematics and Mechanics, 2000, 21(7): 708-714.
Citation:
Zhang Yingshi. Vibrations of Stepped One-Way Thin Rectangular Plates Subjected to in-Plane Tensile/Compressive Force in y-Direction on Winkler’s Foundation[J]. Applied Mathematics and Mechanics, 2000, 21(7): 708-714.
Differential equations of free/forced vibrations of n-step one-way thin rectangular plates subjected to in-plane tensile/compressive force in y-direction on Winkler's foundation are established by using singular functions,their general solutions solved for,expression of vibration mode function and frequency equation on usual supports derived with Woperator.Influence functions for various cases deduced here may also be used to resolve problems of static buckling or stability for beams and plates in relevant circumstances.
Ercoli L, Laura P A A. Analytical and experimental investigation on vibrating, continuous rectangular plates of non-uniform thickness[J]. Journal of Sound and Vibration,1987,112(3):447~454.
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