润滑与密封
潤滑與密封
윤활여밀봉
LUBRICATION ENGINEERING
2014年
8期
119-122
,共4页
尤龙刚%鲁倩%陈志忠%于海
尤龍剛%魯倩%陳誌忠%于海
우룡강%로천%진지충%우해
切削液%乳化液%基础油%稳定性能
切削液%乳化液%基礎油%穩定性能
절삭액%유화액%기출유%은정성능
cutting fluids%emulsion%base oil%stability
以不同黏度石蜡基和环烷基复配基础油调和一系列乳化液,分别通过电导率法、马尔文颗粒度法考察乳化液的稳定性,采用Micro Tap G-8攻丝扭矩试验考察乳化液的切削加工性能。研究结果表明,采用石蜡基和环烷基复配的黏度为20 mm2/s基础油所制备的乳化液的稳定性最佳,且有色金属切削加工性能突出。
以不同黏度石蠟基和環烷基複配基礎油調和一繫列乳化液,分彆通過電導率法、馬爾文顆粒度法攷察乳化液的穩定性,採用Micro Tap G-8攻絲扭矩試驗攷察乳化液的切削加工性能。研究結果錶明,採用石蠟基和環烷基複配的黏度為20 mm2/s基礎油所製備的乳化液的穩定性最佳,且有色金屬切削加工性能突齣。
이불동점도석사기화배완기복배기출유조화일계렬유화액,분별통과전도솔법、마이문과립도법고찰유화액적은정성,채용Micro Tap G-8공사뉴구시험고찰유화액적절삭가공성능。연구결과표명,채용석사기화배완기복배적점도위20 mm2/s기출유소제비적유화액적은정성최가,차유색금속절삭가공성능돌출。
The series of emulsion were prepared from different viscosity of paraffin and naphthenic of complex base oils. The stability of the emulsion was investigated by the conductivity method and the Malvern laser particle analyzer,and the machinability was investigated by Micro Tap G-8 tapping torque (Micro Tap). The results show that the emulsion synthe-sized from paraffin and naphthenic of complex base oils with viscosity of 20 mm2/s has good stability and excellent machin-ability of non-ferrous metals.
