@inproceedings{2d99bb8aa88d4360b959ba024e00fec9,
title = "Transformation of auxiliary mass response in dual-stage suspension for reduced vibration",
abstract = "This work introduces a method of mechanically transforming the vibratory interaction between the auxiliary mass and the base of a dual-stage suspension to further reduce vibration under certain operating conditions. In the case of a vibratory force input to the primary mass, the transformation establishes a frequency where the force transmitted to the base will be zero (neglecting damping). Around this frequency of zero-force transmission there is a bandwidth of frequency where the transmitted force is lower than what it would be with a corresponding dual stage suspension. Further, properties can be chosen such that the transformation has a lower force transmission than the corresponding single degree-offreedom suspension for the whole range of frequencies in the isolation region. Similar behavior occurs in the case of a vibratory displacement input to the base.",
author = "Shannon Sweeney",
year = "2014",
language = "English (US)",
series = "38th Vibration Institute Annual Training Conference 2014",
publisher = "Vibration Institute",
pages = "185--193",
booktitle = "38th Vibration Institute Annual Training Conference 2014",
note = "38th Vibration Institute Annual Training Conference 2014 ; Conference date: 11-06-2014 Through 13-06-2014",
}