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Influence of the nonlocal parameter       l  ¯    1     on the dispersion o...
Published Online: August 11, 2022
Fig. 1 Influence of the nonlocal parameter l ¯ 1 on the dispersion of flexural waves in EBB: ( a ) traveling wave, ( b ) standing wave caused by strain gradient effects, and ( c ) Standing wave More
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Influences of the strain gradient parameter       l  ¯    2     on the disp...
Published Online: August 11, 2022
Fig. 2 Influences of the strain gradient parameter l ¯ 2 on the dispersion of flexural waves in EBB: ( a ) traveling wave, ( b ) standing wave caused by strain gradient effects, and ( c ) standing wave More
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Influences of nonlocal fractional order  α  on the dispersion of flexural w...
Published Online: August 11, 2022
Fig. 3 Influences of nonlocal fractional order α on the dispersion of flexural waves in EBB: ( a ) traveling wave, ( b ) standing wave caused by strain gradient effects, and ( c ) standing wave More
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Influences of strain gradient fractional order  β  on the dispersion of fle...
Published Online: August 11, 2022
Fig. 4 Influences of strain gradient fractional order β on the dispersion of flexural waves in EBB: ( a ) traveling wave, ( b ) standing wave caused by strain gradient effects, and ( c ) standing wave More
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Influence of the nonlocal parameter       l  ¯    1     on the dispersion o...
Published Online: August 11, 2022
Fig. 5 Influence of the nonlocal parameter l ¯ 1 on the dispersion of flexural waves in TB: ( a ) traveling wave, ( b ) traveling wave with cut-off frequency, ( c ) first standing wave caused by strain gradient effects, and ( d ) second standing wave caused by strain gradient effects... More
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Influence of the strain gradient parameter       l  ¯    2     on the dispe...
Published Online: August 11, 2022
Fig. 6 Influence of the strain gradient parameter l ¯ 2 on the dispersion of flexural waves in TB: ( a ) traveling wave, ( b ) traveling wave with cut-off frequency, ( c ) first standing wave caused by strain gradient effects, and ( d ) second standing wave caused by strain gradient ... More
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Influences of nonlocal fractional order  α  on the dispersion of flexural w...
Published Online: August 11, 2022
Fig. 7 Influences of nonlocal fractional order α on the dispersion of flexural waves in TB: ( a ) traveling wave, ( b ) traveling wave with cut-off frequency, ( c ) first standing wave caused by strain gradient effects, and ( d ) second standing wave caused by strain gradient effects More
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Influences of strain gradient fractional order  β  on the dispersion of fle...
Published Online: August 11, 2022
Fig. 8 Influences of strain gradient fractional order β on the dispersion of flexural waves in TB: ( a ) traveling wave, ( b ) traveling wave with cut-off frequency, ( c ) first standing wave caused by strain gradient effects, and ( d ) second standing wave caused by strain gradient effects More
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Influences of nonlocal parameters       l  ¯    1     and strain gradient p...
Published Online: August 11, 2022
Fig. 9 Influences of nonlocal parameters l ¯ 1 and strain gradient parameters l ¯ 2 on the first natural frequency of TB: ( a ) nonlocal parameters and ( b ) strain gradient parameter More
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Influences of the nonlocal fractional order  α  and strain gradient fractio...
Published Online: August 11, 2022
Fig. 10 Influences of the nonlocal fractional order α and strain gradient fraction order β on the first natural frequency of TB: ( a ) nonlocal fractional order and ( b ) strain gradient fraction order More
Journal Articles
Journal Articles
Journal Articles
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Schematic of a planar rigid-body Inductrack system: ( a ) in front view, ( ...
Published Online: August 10, 2022
Fig. 1 Schematic of a planar rigid-body Inductrack system: ( a ) in front view, ( b ) in side view, and ( c ) the configuration of a Halbach array set More
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Pseudo-steady-state magnetic forces and magnetic torque against various tra...
Published Online: August 10, 2022
Fig. 3 Pseudo-steady-state magnetic forces and magnetic torque against various traveling speeds at fixed levitation gap δ = 0.8 d More
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Pseudo-steady-state magnetic forces against different fixed-pitch angles at...
Published Online: August 10, 2022
Fig. 4 Pseudo-steady-state magnetic forces against different fixed-pitch angles at v = 1 m/s: ( a ) the levitation force and ( b ) the drag force More
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Pseudo-steady-state magnetic torque against different fixed-pitch angles at...
Published Online: August 10, 2022
Fig. 5 Pseudo-steady-state magnetic torque against different fixed-pitch angles at v = 1 m/s More