Optimization of inner panel thickness for enhanced stiffness and vibration control in car door assemblies

doi:10.1371/journal.pone.0331318

Table 1.

Dynamic Parameter Target of the Door Assembly.

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Fig 1.

Door Assembly.

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Fig 2.

(a) SDOF System and (b) Frequency Response.

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Fig 3.

Graphical Representation of Linear Interpolation.

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Fig 4.

Door Assembly Critical Location and Inner Panel.

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Fig 5.

FE Model of the Door Assembly.

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Table 2.

List of Material Properties Used for FE Model.

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Table 3.

Experimental Test and FE Analysis Frequency (Hz) Comparison. (Door Assembly (26.7 kg): Inner Panel Thickness Effect).

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Fig 6.

Door Test Set-up (a) Schematic and (b) Experimental Test Set-up.

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Fig 7.

Door Assembly Global Bending Mode Frequency with Trend Line Equation.

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Fig 8.

D1, D2, D3, and D4 - Dynamic Stiffness Comparison.

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Fig 9.

D5, D6, D7, and D8 - Dynamic Stiffness Comparison.

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Fig 10.

D9, D10, D11, and D12 - Dynamic Stiffness Comparison.

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Table 4.

Minimum Dynamic Stiffness at Critical Locations Between 20 Hz – 60 Hz.

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Table 5.

Maximum Vibration at Critical Locations Between 0 Hz – 100 Hz.

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Fig 11.

D13, D14, and D15 - Dynamic Stiffness Comparison.

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Fig 12.

Minimum Dynamic Stiffness – Critical Location between 20–60 Hz.

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Fig 13.

D1, D2, D3, and D4 - Vibration Comparison.

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Fig 14.

D5, D6, D7, and D8 - Vibration Comparison.

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Fig 15.

D9, D10, D11, and D12 - Vibration Comparison.

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Fig 16.

D13, D14, and D15 - Vibration Comparison.

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Fig 17.

Maximum Vibration at Critical Location between 0–100 Hz.

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Table 6.

Final Results Comparison Baseline and Optimized Model with Target.

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