Experimental dynamic flow characterization of hydraulic bushings

被引:0
作者
DeGarmo, Britton [1 ]
Kennedy, Michael [1 ]
Fredette, Luke [1 ]
机构
[1] Cedarville Univ, Cedarville, OH 45314 USA
关键词
Acoustic variables control;
D O I
10.3397/1/377131
中图分类号
O42 [声学];
学科分类号
070206 ; 082403 ;
摘要
The dynamic properties of hydraulic bushings are often modeled in the time and frequency domains with low-order, lumped-parameter models, typically assuming steady developed flow in their fluid passages, whereas in situ flow conditions are unlikely to meet such criteria. Hydraulic bushings exhibit tuned properties emerging from nonlinear interactions involving these flow characteristics, so higher resolution descriptions of the underlying physics are needed under realistic flow conditions. This paper discusses an approach to isolate the fluid passage features in production bushings to enable experimental characterization for steady, oscillatory, and transient flow. More robust models of dynamic responses in the time and frequency domains are expected to result from this more precise determination of each flow path's contribution to the nonlinear system response. An apparatus capable of generating steady and dynamic flow is proposed, and some validation data are given to demonstrate the functionality of the experiment. Some challenges with the approach are considered, including the system's hydraulic compliance and cavitation. The flow testing apparatus is used on an example two-passage production bushing adapted for controlled steady or dynamic flow through one or both flow paths. Finally, some nonlinear flow properties of a typical hydraulic bushing's flow passages are given. (c) 2023 Institute of Noise Control Engineering.
引用
收藏
页码:376 / 383
页数:8
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[1]   Transient Response of Hydraulic Bushing with Inertia Track and Orifice-Like Elements [J].
Chai, Tan ;
Dreyer, Jason T. ;
Singh, Rajendra .
SAE INTERNATIONAL JOURNAL OF PASSENGER CARS-MECHANICAL SYSTEMS, 2013, 6 (02) :1224-1230
[2]   Dynamic Stiffness of Hydraulic Bushing with Multiple Internal Configurations [J].
Chai, Tan ;
Singh, Rajendra ;
Dreyer, Jason .
SAE INTERNATIONAL JOURNAL OF PASSENGER CARS-MECHANICAL SYSTEMS, 2013, 6 (02) :1209-1216
[3]   Nonlinear dynamic properties of hydraulic suspension bushing with emphasis on the flow passage characteristics [J].
Chai, Tan ;
Dreyer, Jason T. ;
Singh, Rajendra .
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART D-JOURNAL OF AUTOMOBILE ENGINEERING, 2015, 229 (10) :1327-1344
[4]   Nonlinear fluid damping models for hydraulic bushing under sinusoidal or transient excitation [J].
Fredette, Luke ;
Rath, Siddharth ;
Singh, Rajendra .
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART D-JOURNAL OF AUTOMOBILE ENGINEERING, 2019, 233 (03) :595-604
[5]   Dynamic Analysis of Hydraulic Bushings with Measured Nonlinear Compliance Parameters [J].
Fredette, Luke ;
Dreyer, Jason ;
Singh, Rajendra .
SAE INTERNATIONAL JOURNAL OF PASSENGER CARS-MECHANICAL SYSTEMS, 2015, 8 (03) :1128-1136