组合机床与自动化加工技术
組閤機床與自動化加工技術
조합궤상여자동화가공기술
MODULAR MACHINE TOOL & AUTOMATIC MANUFACTURING TECHNIQUE
2015年
6期
113-117
,共5页
张彦彬%李长河%贾东洲%张东坤
張彥彬%李長河%賈東洲%張東坤
장언빈%리장하%가동주%장동곤
纳米粒子%微量润滑%磨削%比磨削能
納米粒子%微量潤滑%磨削%比磨削能
납미입자%미량윤활%마삭%비마삭능
nanoparticle%grinding,MQL%specific grinding energy
结合国内外对植物油作为微量润滑基础油的研究现状,用液态石蜡作为对比,实验探究了棕榈油作为基础油的润滑性能,实验中添加的纳米粒子是粒径为50nm的MoS2。实验中以高温镍基合金作为工件在精密平面数控磨床上进行平面磨削,四种磨削工况:干式磨削、浇注式润滑、微量润滑、纳米粒子射流微量润滑。采用三向测力仪测量磨削力用于计算比磨削能和摩擦系数,用粗糙度测量仪测量工件表面的粗糙度值。实验结果表明添加MoS2纳米粒子的棕榈油基纳米流体在纳米粒子射流微量润滑的条件下取得了最好的润滑性能,这是由于棕榈油中高的饱和脂肪酸含量和羧基高的成膜性能。
結閤國內外對植物油作為微量潤滑基礎油的研究現狀,用液態石蠟作為對比,實驗探究瞭棕櫚油作為基礎油的潤滑性能,實驗中添加的納米粒子是粒徑為50nm的MoS2。實驗中以高溫鎳基閤金作為工件在精密平麵數控磨床上進行平麵磨削,四種磨削工況:榦式磨削、澆註式潤滑、微量潤滑、納米粒子射流微量潤滑。採用三嚮測力儀測量磨削力用于計算比磨削能和摩抆繫數,用粗糙度測量儀測量工件錶麵的粗糙度值。實驗結果錶明添加MoS2納米粒子的棕櫚油基納米流體在納米粒子射流微量潤滑的條件下取得瞭最好的潤滑性能,這是由于棕櫚油中高的飽和脂肪痠含量和羧基高的成膜性能。
결합국내외대식물유작위미량윤활기출유적연구현상,용액태석사작위대비,실험탐구료종려유작위기출유적윤활성능,실험중첨가적납미입자시립경위50nm적MoS2。실험중이고온얼기합금작위공건재정밀평면수공마상상진행평면마삭,사충마삭공황:간식마삭、요주식윤활、미량윤활、납미입자사류미량윤활。채용삼향측력의측량마삭력용우계산비마삭능화마찰계수,용조조도측량의측량공건표면적조조도치。실험결과표명첨가MoS2납미입자적종려유기납미류체재납미입자사류미량윤활적조건하취득료최호적윤활성능,저시유우종려유중고적포화지방산함량화최기고적성막성능。
In consideration of the combined present research situation of vegetable oil as minimum quantity lubrication ( MQL) base oil domestically and abroad, the lubricating property of palm oil as base oil in com-parison with liquid paraffin was explored. In the experiment, a numerical control precision surface grinder was used for plain grinding on a nickel base alloy workpiece. The effect of adding MoS2 nanoparticle with a particle size of 50 nm was studied. Four types of grinding working conditions were applied: dry grinding, flood lubrication, MQL, and nanoparticle jet MQL. Grinding force, particle size, viscosity of nanofluids, and workpiece surface roughness were measured. The experimental results indicate that palm oil-based nanofluids added with MoS2 nanoparticles produce the best lubricating property in the nanoparticle jet MQL condition because of the high saturated fatty acid and high film-forming property of carboxyl groups in palm oil.
