表面修饰ZrO_2纳米微粒的结构表征及摩擦学行为研究(英文)

采用XPS,FTIR,DSC,TGA等多种现代分析手段表征了硬脂酸修饰ZrO2 纳米微粒的结构.在四球摩擦磨损试验机上,首次评价了表面修饰ZrO2 纳米微粒用作润滑油添加剂的摩擦学性能,结果表明ZrO2 纳米微粒具有良好的抗磨减摩性     

表面修饰中空LaF3纳米微粒的制备及其摩擦学性能

在油酸钠/十六烷基溴化铵乳液体系中合成了表面修饰中空LaF3纳米微粒. 通过透射电子显微镜(TEM)、X射线衍射(XRD)、傅立叶变换红外光谱(FTIR)、热重分析(TG-DTG)、能谱分析(EDS)等测试手段对其结构和形貌进行了表征. 同时在四球摩擦磨损试验机上考察了LaF3纳米微粒作为润滑油添加剂时, 添加浓度和施加载荷对其抗磨减摩性能的影响. 结果表明, 此纳米微粒的表面为油酸修饰, 具有中空结构, 平均粒径约17.5 nm; 表面修饰中空油酸/三氟化镧纳米微粒作为成品润滑油的添加剂, 具有良好的抗磨性能. 另外, 对中空纳米微粒的形成机理进行了分析.     

表面修饰中空LaF3纳米微粒的制备及其摩擦学性能

在油酸钠,十六烷基溴化铵乳液体系中合成了表面修饰中空LaF3纳米微粒.通过透射电子显微镜(TEM)、X射线衍射(XRD)、傅立叶变换红外光谱(FTIR)、热重分析(TG-DTG)、能谱分析(EDS)等测试手段对其结构和形貌进行了表征.同时在四球摩擦磨损试验机上考察了LaF3纳米微粒作为润滑油添加剂时,添加浓度和施加载荷对其执磨减摩性能的影响.结果表明,此纳米微粒的表面为油酸修饰,具有中空结构,平均粒径约17.5nm;表面修饰中空油酸/三氟化镧纳米微粒作为成品润滑油的添加剂,具有良好的抗磨性能.另外,对中空纳米微粒的形机理进行了分析.     

油酸修饰CuS纳米颗粒的原位合成及其摩擦学性能

利用原位合成法室温下直接在基础油中成功制备了油酸修饰CuS 纳米颗粒, 将其长时间静置, 不会发生纳米颗粒的团聚. TEM 研究表明, 该方法制备的纳米颗粒粒径大约为30 nm. 红外光谱结果表明, 由于油酸的羧基与无机CuS纳米颗粒表面发生了化学吸附,使无机纳米颗粒的表面有一层有机修饰层, 从而增强了其油溶性.摩擦磨损试验结果表明,该添加剂在基础油中能起到抗磨减摩的效果.随着添加剂浓度的增大, 摩擦系数和磨斑直径都呈现下降趋势,当添加剂浓度为0.1%(w)时, 摩擦系数和磨斑直径都达到最小值,但是进一步增加添加剂浓度, 摩擦系数与磨斑直径又都开始增大. SEM 研究结果表明, 油酸修饰CuS 纳米颗粒能起到抗磨减摩作用的原因是因为其有利于在摩擦副表面形成牢固的润滑膜.     

一种高硫的噻二唑衍生物的摩擦学性能研究

合成了一种高硫含羟基和黄原酸的噻二唑衍生物(ESP),利用四球摩擦磨损试验机考察了其在Corda3970基础油中的摩擦磨损性能,表明所合成的添加剂能够有效的提高Corda 3970基础油的极压和抗磨性能,并且在一定的浓度范围内随着浓度的增加,其抗磨减摩性能增加。通过扫描电镜(SEM)分析了钢球表面形貌及元素分布,发现其主导作用的是边界膜中存在S、O、N活性元素,它们形成复合膜是添加剂具有摩擦学性能的主要原因。     

异辛基乙二胺-CF3SO3型质子化离子液体作为液体石蜡添加剂的摩擦学性能

以异辛基乙二胺-CF₃SO₃[HEtHex(TFS)]型质子化离子液体作为钢/钢摩擦副的润滑油添加剂, 考察了不同HEtHex(TFS)含量的液体石蜡(LP)在不同温度和载荷下的摩擦学性能. 通过扫描电子显微镜和X射线能谱仪对钢球表面磨斑的形貌及所含元素进行了分析与表征. 结果表明, 加入HEtHex(TFS)添加剂可明显增大LP的最大无卡咬负荷(P_B)值, 改善LP的减摩抗磨性能. HEtHex(TFS)在LP中添加的最佳质量分数为0.75%, 在25 ℃, 294 N时其减摩效果最好; 在25 ℃, 196 N时其抗磨效果最佳. 元素分析结果表明, 加入HEtHex(TFS)添加剂后在钢球表面形成了一层摩擦保护膜, 从而起到了减摩抗磨的作用.     

含氮杂环润滑油添加剂抗摩擦和膜化学性能

制备了N-二异辛基-2-苯并噻唑次磺酰胺(DIMB)和2-硫酮-苯并噻唑-3-甲基鄄巯基乙酸异辛酯(MBES)两种含氮杂环抗磨添加剂, 用SRV型高温摩擦磨损试验机评价它们在芋类基础油中的抗磨减摩性能, 对它们在不同条件下形成的摩擦膜进行X射线吸收精细结构光谱(XANES)分析, 用原子力显微镜(AFM)分析摩擦膜的表面形貌. 结果表明, 添加剂DIMB和MBES具有很好的抗磨性能, 但没有减摩性能. XANES分析结果表明, 添加剂MBES形成的摩擦膜完全由硫酸亚铁组成, 而添加剂DIMB形成的摩擦膜的次表面和本体主要由二硫化铁组成, 未测量到硫酸盐或硫化铁, 但摩擦膜表面部分被氧化成硫酸亚铁. AFM 测试结果表明, 与含1.5%(w)二烷基二硫代磷酸锌(ZDDP)抗磨添加剂的钢块磨损表面相比较, 分别含1.5%(w)DIMB 和1.5%(w)MBES添加剂的钢块磨损表面出现了深而宽的“犁沟”.     

表面修饰ZrO2纳米微粒的结构表征及摩擦学行为研究

采用XPS,FTIR,DSC,TGA等多种现代分析手段表征了理解旨酸修饰ZrO2纳米微粒的结构,在四球磨摩擦员试验机上,首次评价了表面ZrO2纳米微粒用作润滑油添加剂的摩擦学性能,结果表明ZrO2纳米微粒具有良好的抗磨减摩性。     

地沟油制备有机稀土化合物及其摩擦学性能研究

以地沟油为原料,制备了一种油溶性有机稀土化合物(ORE),并通过红外光谱和等离子发射光谱对其化学结构和元素组成进行了表征。用万能摩擦磨损试验机考察了有机稀土化合物在液体石蜡中的摩擦学性能,结果表明:有机稀土化合物作为润滑添加剂具有比ZDDP更好的抗磨减摩性能,有望作为新型的环境友好型润滑添加剂在工业实际中得到应用。当基础油中加入1.0%ORE时,其减摩性能和抗磨性能分别提高23%和34%,其承载能力是基础油的2.4倍。分析认为有机稀土化合物在摩擦过程中形成的含稀土的边界润滑膜可能是其具备良好极压抗磨和减摩效果的主要原因。由地沟油制备环境友好型润滑添加剂,是探索地沟油资源化利用技术的有益尝试,具有良好的推广应用前景。     

两种无灰型含磷/硫润滑添加剂在菜籽油中的摩擦学性能及膜分析

以合成的两种无灰型含磷/硫化合物为润滑添加剂, 以可生物降解的菜籽油作为基础油, 用四球机研究了体系的抗磨减摩性能, 以X射线光电子能谱(XPS)和X射线吸收精细结构光谱(XANES)对所形成的摩擦膜和热膜进行了表面分析, 并初步探讨了其润滑机理. 摩擦学研究结果表明, 两种含磷/硫化合物作为菜籽油的润滑添加剂时, 具有良好的抗磨减摩性能. XPS和XANES分析结果显示, 摩擦膜和热膜主要由吸附层和反应层组成; 在表面膜中, 磷主要以磷酸盐或焦磷酸盐等形式存在, 而硫主要以硫酸盐的形式存在. 研究结果还表明, 摩擦热在两种不同添加剂的摩擦膜形成过程中发挥着不同的作用.     

纳米氧化锌的合成及表面改性

以硫酸锌、尿素为原料,采用均相沉淀法合成了纳米氧化锌.研究了硬脂酸对所制的纳米氧化锌粉体表面改性的机理及其对粉体亲油性的影响.实验结果表明,硬脂酸中的羧基与纳米氧化锌粉体颗粒表面的羟基发生了酯化反应,并在表面形成单分子膜.经过表面改性的纳米氧化锌由亲水性转化为亲油性.同时,就纳米氧化锌粉体硬脂酸表面改性反应,探讨了反应摩尔分数、反应温度和反应时间对产物的影响,从而筛选出粉体亲油性最大的反应条件为:硬脂酸质量分数为7%;反应温度为50℃;反应时间为1h.     

A survey on the effect of ionic liquid on electrochemical behavior and electrocatalytic activity of a phosphomolybdic acid-ionic liquid-MWCNT–modified glassy carbon electrode

Journal of Solid State Electrochemistry - The surface of a glassy carbon electrode modified with multi-walled carbon nanotubes (GCE/MWCNTs) was coated with a layer of phosphomolybdic acid (PMo12)...     

Carbon nanotubes as conducting support for potential Mn-oxide electrocatalysts: Influences of pre-treatment procedures

Different oxygen and nitrogen containing functional groups were created on the surface of the multiwalled carbon nanotubes. The multi-walled carbon nanotubes were treated in ultrasonic bath with sulfuric or nitric acid. Furthermore the surface texture was modified by increase of the roughness. In particular after treatment with the oxidizing nitric acid, in comparison to the H_2SO_4 or ultra-sonic treated samples,craters and edges are dominating the surface structures. Manganese oxide was deposited on the multiwalled carbon nanotubes by precipitation mechanism. Various manganese oxides are formed during the deposition process. The samples were characterized by elemental analysis, microscopy, thermal analysis,Raman spectroscopy, and by the zeta potential as well as X-ray diffraction measurements. It was shown that the deposited manganese oxides are stabilized rather by surface texture of the multi-walled carbon nanotubes than by created functional groups.     

纳米碳管表面羧基化及其电还原性能

应用红外吸收光谱、扫描电子显微镜分别对纳米碳管和硝化后的纳米碳管进行表征,将其制备成粉末微电极,并在碱性溶液中测试它对对硝基苯酚的电还原性能.实验表明:经硝化处理后,碳管表面修饰了羰基,其电还原性能明显提高.依据实验结果探讨了硝化后纳米碳管于对硝基苯酚电还原过程中的反应机理.     

Carbon nanotube-modified electrodes for the simultaneous determination of dopamine and ascorbic acid

The voltammetric separation of dopamine and ascorbic acid was studied with cyclic voltammetry at two kinds of carbon nanotube-modified electrodes (coated and intercalated). The anodic peak difference reached 270 mV under the present conditions. The separation mechanism and effect factors were carefully studied. Using various types of surfactants as coating dispersants of carbon nanotubes, it was demonstrated that the charge nature of the surfactants had a strong effect on the electrochemical behavior of dopamine and ascorbic acid. When the oxidation solution of carbon nanotubes was changed from the most commonly used mixed concentrated nitric acid and sulfuric acid (1 + 3 v/v) to dilute nitric acid and to hydrochloric acid, the anodic peak separation value of dopamine and ascorbic acid increased significantly, and it was shown that carboxylic acid groups attached to the carbon nanotubes were an adverse factor for the discrimination of DA from AA. These results indicated that the resolution of DA and AA was mainly attributable to the stereo porous interfacial layer formed from aggregated pores and inner cavities of the carbon nanotubes. The modified electrodes exhibited an attractive ability to measure DA and AA simultaneously and showed good stability and reproducibility.     

Abrasive immobilization of carbon nanotubes on a basal plane pyrolytic graphite electrode: application to the detection of epinephrine

The performance of a basal plane pyrolytic graphite (bppg) electrode modified with carbon nanotubes is described. Abrasive immobilization of multiwall carbon nanotubes on a bppg electrode was achieved by gently rubbing the electrode surface on a filter paper supporting carbon nanotubes. The resulting electrode showed excellent mediation of epinephrine oxidation: a decrease in the overvoltage of the epinephrine electro-oxidation (200-500 mV) was observed as well as a dramatic increase in the peak current (4 times) compared to that seen at a bare bppg electrode. The oxidation peaks of epinephrine and ascorbic acid which overlap on bare bppg electrode were separated successfully (by ca. 220 mV) at the surface of the modified bppg electrode. The modified electrode showed good stability in comparison to most modified carbon nanotubes electrodes prepared by alternative methods.     

Polyelectrolyte‐grafted carbon nanotubes: Synthesis,reversible phase‐transition behavior,and tribological properties as lubricant additives

A novel polyelectrolyte‐grafted multiwalled carbon nanotubes (MWCNTs‐g‐PILs) which possesses a hard backbone of MWCNTs and a soft shell of brush‐like poly (ionic liquids) (PILs) has been synthesized via the surface atom transfer radical polymerization (ATRP). Chemical structure and the grafted PILs quantities of MWCNTs‐g‐PILs were determined by FTIR, TGA, and XPS. TEM and FE‐SEM observations indicate that the nanotubes were coated with a PILs layer, exhibiting core‐shell nanostructures with the PILs chains as the brush‐like or hairy shell and the MWCNTs as the hard backbone. Furthermore, the effect of counter‐anions on the solubility of MWCNTs‐g‐PILs was investigated. The results indicate that relative solubility of MWCNTs‐g‐PILs in various solvents could be switched by anion exchange. This tunable solubility results in the formation of the cycle of reversible phase‐transition. Tribological property of MWCNTs‐g‐PILs as additives in base lubricant 1‐methyl‐3‐butylimidaaolium hexafluorophosphate (LP104) was evaluated using an Optimol SRV oscillating friction and wear tester, confirming that MWCNTs‐g‐PILs are the excellent antiwear and friction‐reducing additives, which can amend the tribological properties of base lubricant significantly. This is attributed to the good dispersibility and core‐shell structure of MWCNTs‐g‐PILs. These results reported in this work may open primarily toward constructing a bridge among carbon nanotues (CNTs), ILs, and lubricant additives and secondarily to prove that CNTs (modified CNTs) as lubricant additives are promising candidates. © 2008 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 46: 7225–7237, 2008     

Functionalized multiwall carbon nanotube/gold nanoparticle composites

Multiwall carbon nanotubes (MWCNTs) were chemically oxidized in a mixture of sulfuric acid and nitric acid (3:1) while being ultrasonicated. The effect of oxidative ultrasonication at room temperature on development of functional groups on the carbon nanotubes was investigated. The dispersability and the carboxylic acid group concentration of functionalized MWCNTs (fMWNTs) varied with reaction time. The concentration of carboxylic acid groups on fMWNTs increased from 4 x 10(-4) mol/g of fMWNTs to 1.1 x 10(-3) mol/g by doubling the treatment period from 4 to 8 h. The colloidal stability of aqueous fMWCNTs dispersions was enhanced through elongated oxidation. fMWCNTs that were reacted longer than 4 h did not precipitate in aqueous media for at least 24 h. The layer-by-layer self-assembly of polyelectrolytes on fMWCNTs was characterized by zeta potential measurements. The zeta potential of fMWCNTs changed from negative charge to positive charge when cationic polyelectrolytes were self-assembled on their surface. With addition of anionic polyelectrolytes, cationic polyelectrolyte coated fMWCNTs showed the expected charge reversal as expected for multilayer self-assembly. Complex formation of positively charged gold nanoparticles and negatively charged fMWCNTs was achieved with and without polyelectrolyte coatings by electrostatic interaction. The complex formation was characterized by high-resolution transmission electron microscopy and energy-dispersive X-ray spectroscopy. The here found complex formation of positively charged colloidal gold and defect sites on fMWNTs indicates the location of functional groups on carbon nanotubes. It is suggested that positively charged colloids such as gold nanoparticles could be used for detection of defect sites on carbon nanotubes.     

Poly(lactic acid) composites with poly(lactic acid)‐modified carbon nanotubes

This work reports the study of the effect of chemical functionalization of carbon nanotubes on their dispersion in poly(lactic acid). The nanotubes were functionalized by the 1,3‐dipolar cycloaddition reaction, generating pyrrolidine groups at the nanotube surface. Further reaction of the pyrrolidine groups with poly(lactic acid) was studied in solution and in the polymer melt. The former involved refluxing the nanotubes in a dimethylformamide/polymer solution; the latter was carried out by direct melt mixing in a microcompounder. The carbon nanotubes collected after each process were characterized by thermogravimetry and by X‐ray photoelectron spectroscopy, showing evidence of polymer bonded to the nanotube surface only when the reaction was carried out in the polymer melt. The composites with polymer modified nanotubes present smaller average agglomerate area and a narrower agglomerate area distribution. In addition, they show improved tensile properties at low CNT concentration and present lower electrical resistivity. © 2013 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2013, 51, 3740–3750     

硬脂酸表面改性碳酸钙粉末的热分析及其表面性质变化

硬脂酸表面改性碳酸钙粉末的热分析及其表面性质变化李新军廖景发＊瞿龙＊吕海波（中南工业大学粉末冶金研究所＊化学系长沙４１００８３）关键词表面改性热分析碳酸钙粉末表面性质硬脂酸中图分类号Ｏ６２３．６１１，Ｏ６４７．２碳酸钙粉末是一种重要的无机化工产品，广...