功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
21期
3154-3158
,共5页
连峰%张会臣%常允乐%徐喆
連峰%張會臣%常允樂%徐喆
련봉%장회신%상윤악%서철
A l-Mg合金%自组装分子膜%接触角%浸水润滑%喷水润滑
A l-Mg閤金%自組裝分子膜%接觸角%浸水潤滑%噴水潤滑
A l-Mg합금%자조장분자막%접촉각%침수윤활%분수윤활
Al-Mg alloy%SAMs%contact angle%soaking lubrication%water-jet lubrication
通过自组装技术在 A l-Mg 合金表面制备自组装分子膜,采用接触角测量仪测定了自组装分子膜的水接触角,采用多功能摩擦磨损试验机对制备不同自组装分子膜的 A l-Mg 合金在3种润滑方式下进行摩擦磨损实验。结果表明,制备自组装分子膜可显著改变Al-Mg 合金的表面润湿性,制备 FDTS、FOTS、OTS自组装分子膜的表面呈疏水性,制备 MPS、APS自组装分子膜的表面则呈亲水性,5种自组装分子膜接触角由大到小的顺序为 FDTS>FOTS>OTS>MPS>APS。自组装分子膜的疏水性越强,Al-Mg 合金的摩擦系数越小。同种自组装分子膜在干摩擦条件下摩擦系数最大,浸水润滑条件下摩擦系数有所下降,喷水润滑条件下摩擦系数最小。
通過自組裝技術在 A l-Mg 閤金錶麵製備自組裝分子膜,採用接觸角測量儀測定瞭自組裝分子膜的水接觸角,採用多功能摩抆磨損試驗機對製備不同自組裝分子膜的 A l-Mg 閤金在3種潤滑方式下進行摩抆磨損實驗。結果錶明,製備自組裝分子膜可顯著改變Al-Mg 閤金的錶麵潤濕性,製備 FDTS、FOTS、OTS自組裝分子膜的錶麵呈疏水性,製備 MPS、APS自組裝分子膜的錶麵則呈親水性,5種自組裝分子膜接觸角由大到小的順序為 FDTS>FOTS>OTS>MPS>APS。自組裝分子膜的疏水性越彊,Al-Mg 閤金的摩抆繫數越小。同種自組裝分子膜在榦摩抆條件下摩抆繫數最大,浸水潤滑條件下摩抆繫數有所下降,噴水潤滑條件下摩抆繫數最小。
통과자조장기술재 A l-Mg 합금표면제비자조장분자막,채용접촉각측량의측정료자조장분자막적수접촉각,채용다공능마찰마손시험궤대제비불동자조장분자막적 A l-Mg 합금재3충윤활방식하진행마찰마손실험。결과표명,제비자조장분자막가현저개변Al-Mg 합금적표면윤습성,제비 FDTS、FOTS、OTS자조장분자막적표면정소수성,제비 MPS、APS자조장분자막적표면칙정친수성,5충자조장분자막접촉각유대도소적순서위 FDTS>FOTS>OTS>MPS>APS。자조장분자막적소수성월강,Al-Mg 합금적마찰계수월소。동충자조장분자막재간마찰조건하마찰계수최대,침수윤활조건하마찰계수유소하강,분수윤활조건하마찰계수최소。
Self-assembled monolayers (SAMs)on Al-Mg alloy surface were prepared by self-assembled tech-nique.Water contact angles on SAMs were measured by contact angle measurement.Tribological characteris-tics of Al-Mg alloy with different SAMs were evaluated by CETR universal micro-tribometer.The results indi-cate that the wettibility of Al-Mg alloy surface can significantly be changed by SAMs.The Al-Mg alloy surfaces with FDTS,FOTS,OTS SAMs appear hydrophobic,however,the Al-Mg alloy surfaces with MPS,APS SAMs posess hydrophilic characteristics.The water contact angles for 5 kinds of SAMs are in the order from large to small,FDTS,FOTS,OTS,MPS,APS.The stronger of hydrophobicity of SAMs,the smaller of friction coef-ficients of Al-Mg alloy.For the same SAMs,the friction coefficient of Al-Mg alloy was lowest in water-j et lu-brication condition,middle in water lubrication condition,and largest in dry friction condition.