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eigenfrequency 2

atomic force microscopy 1

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Level set-based isogeometric topology optimization for maximizing fundamental eigenfrequency

Manman XU, Shuting WANG, Xianda XIE

Frontiers of Mechanical Engineering 2019, Volume 14, Issue 2,   Pages 222-234 doi: 10.1007/s11465-019-0534-1

Abstract: Maximizing the fundamental eigenfrequency is an efficient means for vibrating structures to avoid resonancebased level set model for the formulation and solution of topology optimization in cases with maximum eigenfrequencyThe method is applied to topology optimization problems of maximizing the fundamental eigenfrequencymonitors a single target eigenmode is employed to prevent the exchange of eigenmode order number in eigenfrequency

Keywords: topology optimization     level set method     isogeometric analysis     eigenfrequency    

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Shape and topology optimization for tailoring the ratio between two flexural eigenfrequencies of atomic force microscopy cantilever probe

Qi XIA,Tao ZHOU,Michael Yu WANG,Tielin SHI

Frontiers of Mechanical Engineering 2014, Volume 9, Issue 1,   Pages 50-57 doi: 10.1007/s11465-014-0286-x

Abstract: a higher eigenmode to determine the physical properties of material surface, the ratio between the eigenfrequency

Keywords: atomic force microscopy     cantilever probe     eigenfrequency     optimization    

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Title Author Date Type Operation

Level set-based isogeometric topology optimization for maximizing fundamental eigenfrequency

Manman XU, Shuting WANG, Xianda XIE

Journal Article

Shape and topology optimization for tailoring the ratio between two flexural eigenfrequencies of atomic force microscopy cantilever probe

Qi XIA,Tao ZHOU,Michael Yu WANG,Tielin SHI

Journal Article