润滑与密封
潤滑與密封
윤활여밀봉
Lubrication Engineering
2015年
9期
30-34
,共5页
丁腈橡胶%原油%温度%溶胀%摩擦磨损
丁腈橡膠%原油%溫度%溶脹%摩抆磨損
정정상효%원유%온도%용창%마찰마손
acrylonitrile butadiene rubber%crude oil%temperature%swelling%friction and wear
随着开采深度的增加,原油的温度逐渐上升,必然影响螺杆泵定子橡胶的溶胀及磨损行为。研究3种丙烯腈结合量的丁腈橡胶( N18、 N26、 N41)在不同温度原油介质中溶胀行为,并采用MPV?600环块试验机研究溶胀后丁腈橡胶磨损行为,初步探讨温度对橡胶溶胀及磨损行为的影响。结果表明:随温度的升高原油浸泡后N18及N26质量变化率基本成线性增加,而 N41质量变化率却略有下降; N18和N26硬度随着原油浸泡温度的升高逐渐下降,而N41橡胶的硬度基本维持不变;丁腈橡胶随着原油浸泡温度的增加磨损量增加,而摩擦因数却逐渐下降;随着丁腈橡胶中丙烯腈结合量的增加,分子键间作用力增强,具有较好的耐溶胀和耐磨性能。
隨著開採深度的增加,原油的溫度逐漸上升,必然影響螺桿泵定子橡膠的溶脹及磨損行為。研究3種丙烯腈結閤量的丁腈橡膠( N18、 N26、 N41)在不同溫度原油介質中溶脹行為,併採用MPV?600環塊試驗機研究溶脹後丁腈橡膠磨損行為,初步探討溫度對橡膠溶脹及磨損行為的影響。結果錶明:隨溫度的升高原油浸泡後N18及N26質量變化率基本成線性增加,而 N41質量變化率卻略有下降; N18和N26硬度隨著原油浸泡溫度的升高逐漸下降,而N41橡膠的硬度基本維持不變;丁腈橡膠隨著原油浸泡溫度的增加磨損量增加,而摩抆因數卻逐漸下降;隨著丁腈橡膠中丙烯腈結閤量的增加,分子鍵間作用力增彊,具有較好的耐溶脹和耐磨性能。
수착개채심도적증가,원유적온도축점상승,필연영향라간빙정자상효적용창급마손행위。연구3충병희정결합량적정정상효( N18、 N26、 N41)재불동온도원유개질중용창행위,병채용MPV?600배괴시험궤연구용창후정정상효마손행위,초보탐토온도대상효용창급마손행위적영향。결과표명:수온도적승고원유침포후N18급N26질량변화솔기본성선성증가,이 N41질량변화솔각략유하강; N18화N26경도수착원유침포온도적승고축점하강,이N41상효적경도기본유지불변;정정상효수착원유침포온도적증가마손량증가,이마찰인수각축점하강;수착정정상효중병희정결합량적증가,분자건간작용력증강,구유교호적내용창화내마성능。
With the increasing of crude oil mining depth,the temperature of crude oil is increased,it inevitably affects the swelling and wear behavior of screw pump stator rubber.The swelling and tribological behaviors of nitrile rubber(NBR) samples with three different acrylonitrile contents( i?e?,N18,N26 and N41) in crude oil at different temperature were in?vestigated using static immersion and MPV?600 ring?on?block wear experiments, respectively. The results show that the mass change rate of N18 and N26 is increased linearly with the increase of oil temperature,but that of N14 is slightly de?clined.The hardness of N18 and N26 is gradually declined with the temperature increasing but that of N14 remains un?changed.With the increase of oil temperature,the wear loss of NBR after immersion is increased but the friction coefficient is decreased gradually. The increasing acrylonitrile content in NBR enhances the intermolecular forces, and improves the behaviors of swelling resistance and wear resistance.