Page 104 - 摩擦学学报2025年第5期

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738 摩擦学学报（中英文）第 45 卷

性及能量聚集方面同样存在着显著差异. Φ28.64摩擦主频，但在频率成分方面明显少于Φ28.64摩擦块；
块除了具有频率为18 603 Hz的振动主频之外，还伴随 Φ35.08和Φ38.28摩擦块振动频率较为单一，都只表
有其他能量较高的谐波分量；Φ31.84摩擦块的摩擦现出1个振动噪声频率，分别为11 425和16 650 Hz. 总
系统除了18 554 Hz的主频外还存在10 986 Hz的振动的来说，Φ35.08摩擦块与制动盘滑动摩擦产生的摩擦

(a) RMS: 192.88 (b) RMS: 146.33
Tangential vibration acceleration/(m/s 2 ) −1 000 0 RMS: 80.39 RMS: 191.21 Normal vibration acceleration/(m/s 2 ) −1 000 0 RMS: 49.74
RMS: 82.21
1 000
1 000
RMS: 55.27
RMS: 171.74
Φ28.64
Φ31.84 204 205 Φ28.64 Φ31.84 204 205
203 203
Φ35.08 202 Time/s Φ35.08 202 Time/s
201 Friction blocks 201
Φ38.28 200 Φ38.28 200
Friction blocks
RMS: 30.08
(c)
RMS: 7.16
Sound pressure/Pa 100 0 RMS: 8.38

−100
Φ28.64 RMS: 24.58
205
Φ31.84 204
203
Φ35.08 202 Time/s
201
Φ38.28 200
Friction blocks
Fig. 3 The time-domain characteristics of (a) tangential vibration acceleration, (b) normal vibration acceleration and (c) friction
noise generated by the sliding friction process between friction blocks of different sizes and brake discs
图 3 不同尺寸摩擦块与制动盘滑动摩擦产生的(a)切向振动加速度、(b)法向振动加速度以及(c)摩擦噪声时域特性

(a) 18.6 kHz 250 (b) 18.6 kHz
Tangential vibration acceleration/(m/s 2 ) 150 18.6 kHz Normal vibration acceleration/(m/s 2 ) 200 18.6 kHz
200
150
100
100
50
50
0
Φ28.64
Φ31.84
Φ31.84 11.0 kHz 11.4 kHz 16.7 kHz 20 Φ28.64 0 11.0 kHz 11.4 kHz 16.7 kHz 20
Φ35.08
Φ35.08 10 15 Friction blocks 10 15
Φ38.28 0 5 Frequency/kHz Φ38.28 0 5 Frequency/kHz
Friction blocks
(c)
18.6 kHz
pressure/Pa 20
15
Sound 10

0 5 11.0 kHz 18.6 kHz
Φ28.64
Φ31.84 11.4 kHz 16.7 kHz 20
Φ35.08 10 15
Φ38.28 0 5 Frequency/kHz
Friction blocks
Fig. 4 FFT analysis results of friction-induced vibration and noise generated by the sliding friction process
between friction blocks of different sizes and brake discs
图 4 不同尺寸摩擦与制动盘滑动摩擦过程产生的摩擦振动噪声FFT分析结果

99 100 101 102 103 104 105 106 107 108 109