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Journal Articles
Accepted Manuscript
Journal:
Journal of Vibration and Acoustics
Publisher: ASME
Article Type: Research Papers
J. Vib. Acoust.
Paper No: VIB-24-1332
Published Online: February 17, 2025
Journal Articles
Journal:
Journal of Vibration and Acoustics
Publisher: ASME
Article Type: Research Papers
J. Vib. Acoust. April 2025, 147(2): 021007.
Paper No: VIB-24-1216
Published Online: February 14, 2025
Journal Articles
Journal:
Journal of Vibration and Acoustics
Publisher: ASME
Article Type: Research Papers
J. Vib. Acoust. June 2025, 147(3): 031001.
Paper No: VIB-24-1317
Published Online: February 14, 2025
Journal Articles
Journal:
Journal of Vibration and Acoustics
Publisher: ASME
Article Type: Technical Briefs
J. Vib. Acoust. June 2025, 147(3): 034501.
Paper No: VIB-24-1246
Published Online: February 14, 2025
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 1 Structure of the shaft system of the EAT More about this image found in Structure of the shaft system of the EAT
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 2 EAT rotor-bearing lumped parameter model More about this image found in EAT rotor-bearing lumped parameter model
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 3 Cross section of FRB More about this image found in Cross section of FRB
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 4 Campbell diagram of ansys workbench model More about this image found in Campbell diagram of ansys workbench model
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 5 The first three orders of the vibration modes of the two models: ( a ) first order of ansys workbench , ( b ) first order of lumped parameter model, ( c ) second order of ansys workbench model, ( d ) second order of lumped parameter model, ( e ) third order of ansys workbench model, an... More about this image found in The first three orders of the vibration modes of the two models: ( a ) firs...
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 6 The rotor-bearing system response plots: ( a ) X -direction waterfall plot at turbine end, ( b ) Y -direction waterfall plot at turbine end, ( c ) eccentricity of FRB1, ( d ) eccentricity of FRB2, ( e ) displacement at compressor end, and ( f ) displacement at turbine end More about this image found in The rotor-bearing system response plots: ( a ) X -direction waterfall plot...
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 7 The rotor-bearing system response plots with reduced outer oil film clearance: ( a ) C out = 29 µ m, ( b ) C out = 28 µ m, ( c ) C out = 27 µ m, ( d ) C out = 26 µ m, ( e ) eccentricity of FRB1 at C out = 29 µ m, ( f ) eccentricity of FRB2 at C out = 29 µ m, ( g ) di... More about this image found in The rotor-bearing system response plots with reduced outer oil film clearan...
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 8 The rotor-bearing system response with continued reduction of outer oil film clearance: ( a ) C out = 24 µ m, ( b ) C out = 23 µ m, ( c ) C out = 22 µ m, ( d ) C out = 21 µ m, ( e ) eccentricity of FRB1 at C out = 24 µ m, ( f ) eccentricity of FRB2 at C out = 24 µ m,... More about this image found in The rotor-bearing system response with continued reduction of outer oil fil...
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 9 The waterfall plots with increased inner oil film clearance: ( a ) C in = 26 µ m, ( b ) C in = 27 µ m, ( c ) C in = 28 µ m, and ( d ) C in = 29 µ m More about this image found in The waterfall plots with increased inner oil film clearance: ( a ) C in ...
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 10 The waterfall plots with continued increase in inner oil film clearance: ( a ) C in = 31 µ m, ( b ) C in = 32 µ m, ( c ) C in = 33 µ m, and ( d ) C in = 34 µ m More about this image found in The waterfall plots with continued increase in inner oil film clearance: ( ...
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 11 The waterfall plots with reduced oil viscosity: ( a ) μ = 5.4 × 10 −3 Pa·s, ( b ) μ = 4.4 × 10 −3 Pa·s, ( c ) μ = 3.4 × 10 −3 Pa·s, and ( d ) μ = 2.4 × 10 −3 Pa·s More about this image found in The waterfall plots with reduced oil viscosity: ( a ) μ = 5.4 × 10 −3 Pa...
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 12 The waterfall plots with increased motor rotor mass: ( a ) m motor = 0.6 kg, ( b ) m motor = 0.7 kg, ( c ) m motor = 0.8 kg, and ( d ) m motor = 0.9 kg More about this image found in The waterfall plots with increased motor rotor mass: ( a ) m motor = 0....
Image
in Dynamics of Electrically Assisted Turbocharger Rotor System Supported on Floating Ring Bearings
> Journal of Vibration and Acoustics
Published Online: February 14, 2025
Fig. 13 The waterfall plots of the motor rotor moving right: ( a ) right shift 4 mm, ( b ) right shift 8 mm, ( c ) right shift 12 mm, and ( d ) right shift 16 mm More about this image found in The waterfall plots of the motor rotor moving right: ( a ) right shift 4 mm...
Image
Published Online: February 14, 2025
Fig. 1 The structural diagram of a single-degree-of-freedom system isolated by nonlinear damping amplifier friction bearings More about this image found in The structural diagram of a single-degree-of-freedom system isolated by non...
Image
Published Online: February 14, 2025
Fig. 2 The structural diagrams of damping amplifier friction bearing, compound damping amplifier friction bearing, nested damping amplifier friction bearing, and levered damping amplifier friction bearing More about this image found in The structural diagrams of damping amplifier friction bearing, compound dam...
Image
Published Online: February 14, 2025
Fig. 3 The variations of the optimal frequency ratio of the isolators versus isolator mass ratio after considering ( a ) ξ s ≠ 0 , ξ s = 0.05 and ( b ) ξ s = 0 More about this image found in The variations of the optimal frequency ratio of the isolators versus isola...
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