2022
DOI: 10.1177/10775463211069396
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Vibration isolation performance of simply supported beam installed with a negative stiffness device

Abstract: A negative stiffness device composed of two horizontal pre-compression springs is proposed to isolate the vibration of the simply supported beam. The nonlinear vibration equation of simply supported beam installed with a negative stiffness device is established by using Hamilton principle first. The lower degree of freedom dynamic equation of the system is derived by using Galerkin truncation approach. The influence of support position and negative stiffness parameters on the natural frequency of the beam are … Show more

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Cited by 8 publications
(4 citation statements)
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“…It must be said here that static softening can also be obtained with the addition of a negative-stiffness element in parallel. These are non-linear devices based on instability (Zhang et al, 2022; Zhou et al, 2019; Attary et al, 2017), so they should be considered with care. Some risks associated with them are structural instability, increased susceptibility to external forces, and maintenance and reliability issues.…”
Section: Parametric Study Through Numerical Solutionsmentioning
confidence: 99%
“…It must be said here that static softening can also be obtained with the addition of a negative-stiffness element in parallel. These are non-linear devices based on instability (Zhang et al, 2022; Zhou et al, 2019; Attary et al, 2017), so they should be considered with care. Some risks associated with them are structural instability, increased susceptibility to external forces, and maintenance and reliability issues.…”
Section: Parametric Study Through Numerical Solutionsmentioning
confidence: 99%
“…Yaleu et al (2021) introduced a HSLD isolator with the auxiliary system to a hinged-hinged beam subjected to an axial and constant moving load for vibration control. Zhang et al (2022) connected a pair of negative stiffness springs to a simply supported beam to isolate the vibration in the low-frequency range. Xie et al (2022) employed QZS resonators to suppress ultralow-frequency flexural waves in beams with periodic attachments, transferring band gaps to lower frequencies with adjustable negative stiffness for broadband suppression.…”
Section: Introductionmentioning
confidence: 99%
“…Duffing-type vibration isolator (Huang and Ji, 2021; Ji and Zhang, 2010; Liu et al, 2022; Zhang et al, 2022), composed of a second-order linear system and a cubic nonlinear stiffness, has been extensively studied by engineers and scholars, due to its rich dynamic behaviors and strong engineering physics simulation capabilities (Lobo et al, 2019). Le and Ahn (2011) fabricated a Duffing-type vehicle seat and studied the static and dynamic characteristics.…”
Section: Introductionmentioning
confidence: 99%