Page 144 - 《摩擦学学报》2021年第1期

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第 1 期张博, 等: 基于电容法的温度对舰船汽轮机油分水性影响研究 141

时间的关系，如图3所示. 种油样在多次试验中所表现出的分水速率在相同的
尽管图2中多个油样的分水行为和分水开始、结时间区域内具有非常接近的速率值. 以上情况表明，
束点的电容值不同，但在分水速率方面，大部分油样在油水比例固定情况下，对于同一种汽轮机油，尽管
的变化规律具有显著重复性. 尤其是在分水后期，每搅拌结束时乳状液中的水相分布与运动态势可能存

Rate of capacitance change/(pF/s) −0.010 R 0.1pF =−0.001 7 R 0.01pF =−0.000 17 Rate of capacitance change/(pF/s) −0.002 R 0.1pF =−0.001 7 R 0.01pF =−0.000 17
0.005 0.006
0.004
0.002
0.000
0.000
-0.005
−0.004

−0.006
−0.008
Oil A
Oil B
1 st
−0.010
2 nd
2 nd
−0.015
−0.012
3 rd
3 rd
−0.014 1 st
−100 0 100 200 300 400 500 600 700 800 0 1 000 2 000 3 000

Time/s Time/s

0.014
Rate of capacitance change/(pF/s) −0.0005 R 0.01pF =−0.000 17 Rate of capacitance change/(pF/s) −0.002
0.0010 Oil C 1 st 0.012 Oil D 1 st
0.010
2 nd
2 nd
0.0005
0.008
3 rd
3 rd
0.006
0.0000
0.004

0.002
0.000
−0.0010
−0.0015
−0.006
300
600
200
800
1 000
400
0 100 R 0.1pF =−0.001 7 400 500 600 −0.004 0 200 R 0.1pF =−0.001 7 R 0.01pF =−0.000 17
Time/s Time /s

0.020
0.000 R 0.01pF =−0.000 17 0.015 Oil F 1 st
Rate of capacitance change/(pF/s) −0.004 R 0.1pF =−0.001 7 Oil E 1 st Rate of capacitance change/(pF/s) 0.010
−0.002
2 nd
3 rd
−0.006

0.005
−0.008
0.000
−0.010
2 nd
R 0.01pF =−0.000 17
R 0.1pF =−0.001 7
3 rd
−0.012
0 200 400 600 800 1 000 −0.005 0 1 000 2 000 3 000 4 000 5 000
Time/s Time/s

0.002 0.004 Oil H 1 st
Rate of capacitance change/(pF/s) −0.001 R 0.1pF =−0.001 7 R 0.01pF =−0.000 17 1 st Rate of capacitance change/(pF/s) −0.002 R 0.1pF =−0.001 7 R 0.01pF =−0.000 17 －
0.001
0.002
2 nd
0.000
3 rd
0.000
−0.002
−0.003
−0.004
Oil G
−0.004
−0.005
2 nd
3 rd
−0.006
−0.008
0 1 000 2 000 3 000 4 000 5 000 6 000 −0.006 0 200 400 600 800 1 000 1 200 1 400
Time/s Time/s

Fig. 3 Variation rate of capacitance value of each oil sample at room temperature
图 3 室温下各油样的电容值变化率曲线

139 140 141 142 143 144 145 146 147 148 149