Enhanced soft magnetic properties of SiO_(2)-coated FeSiCr magnetic powder cores by particle size effect

It has been known that metal FeSiCr powders with large average particle sizes have been typically employed to prepare magnetic powder cores(SMCs),with few studies reported on the influence of magnetic properties for original powders with various average particle sizes less than 10m.In this work,SiO_(2)-coated FeSiCr SMCs with different small particle sizes were synthesized using the sol-gel process.The contribution of SiO_(2)coating amount and voids to the soft magnetic properties was elaborated.The mechanism was revealed such that smaller particle sizes with less voids could be beneficial for reducing core loss in the SMCs.By optimizing the core structure,permeability and magnetic loss of 26 and 262 kW/cm^(3)at 100 kHz and 50 mT were achieved at a particle size of 4.8m and ethyl orthosilicate addition of 0.1 mL/g.The best DC stacking performance,reaching 87%,was observed at an ethyl orthosilicate addition rate of 0.25 mL/g under 100 Oe.Compared to other soft magnetic composites(SMCs),the FeSiCr/SiO_(2)SMCs exhibit significantly reduced magnetic loss.It further reduces the magnetic loss of the powder core,providing a new strategy for applications of SMCs at high frequencies.

Study of the reaction mechanism for preparing powdered activated coke with SO_(2)adsorption capability via one-step rapid activation method under flue gas atmosphere

In this study,the impact of different reaction times on the preparation of powdered activated carbon(PAC)using a one-step rapid activation method under flue gas atmosphere is investigated,and the underlying reaction mechanism is summarized.Results indicate that the reaction process of this method can be divided into three stages:stage I is the rapid release of volatiles and the rapid consumption of O_(2),primarily occurring within a reaction time range of 0-0.5 s;stage II is mainly the continuous release and diffusion of volatiles,which is the carbonization and activation coupling reaction stage,and the carbonization process is the main in this stage.This stage mainly occurs at the reaction time range of 0.5 -2.0 s when SL-coal is used as material,and that is 0.5-3.0 s when JJ-coal is used as material;stage III is mainly the activation stage,during which activated components diffuse to both the surface and interior of particles.This stage mainly involves the reaction stage of CO_(2)and H2O(g)activation,and it mainly occurs at the reaction time range of 2.0-4.0 s when SL-coal is used as material,and that is 3.0-4.0 s when JJ-coal is used as material.Besides,the main function of the first two stages is to provide more diffusion channels and contact surfaces/activation sites for the diffusion and activation of the activated components in the third stage.Mastering the reaction mechanism would serve as a crucial reference and foundation for designing the structure,size of the reactor,and optimal positioning of the activator nozzle in PAC preparation.

Efficacy of budesonide/formoterol inhalation powder in treating viral pneumonia in children

BACKGROUND Respiratory viruses are increasingly detected in children with communityacquired pneumonia.Further strategies to limit antibiotic use in children with viral pneumonia are warranted.AIM To explore clinical efficacy of budesonide/formoterol inhalation powder for viral pneumonia in children and its impact on cellular immunity and inflammatory factor production.METHODS A total of 60 children with viral pneumonia were recruited:30 receiving budesonide/formoterol inhalation powder and 30 conventional symptomatic treatment.Outcome measures included peripheral blood levels of inflammatory cytokines,CD4^(+),CD8^(+),Th1,Th2,Th17 and Treg,clinical efficacy,and incidence of adverse reactions.RESULTS Compared with the control group,the observation group showed a significant reduction in interleukin-6 and high-sensitivity C-reactive protein levels after treatment.Compared with the control group,the observation group showed a significant increase in CD4^(+)/CD8^(+)and Th1/Th2 levels,and a decrease in Th17/Treg levels after treatment.The total effective rates in the observation group and the control group were 93.75%and 85.00%,respectively,which was a significant difference(P=0.003).CONCLUSION Budesonide/formoterol inhalation powder significantly improved therapeutic efficacy for viral pneumonia in children.The mechanism of action may be related to downregulation of the inflammatory response and improved cellular immune function.

基于瞬态平面热源法测定SiO_2气凝胶导热系数的试验

阐述基于瞬态平面热源法的Hot Disk热常数分析仪的测试原理,利用测试标准304不锈钢对仪器准确性及重复性进行了验证,同时研究了不同孔隙率SiO_2气凝胶的导热系数随温度和压力变化的特点。结果表明:Hot Disk热常数分析仪在测试SiO_2气凝胶导热系数方面具有优异的准确性和重复性;在相同的温度和压力下,SiO_2气凝胶的导热系数随着孔隙率增大而变小;当环境压力小于5×10~3 Pa时,导热系数随环境压力改变而变化不明显,当环境压力大于5×10~3 Pa,导热系数随环境压力升高而变化较大;当环境温度在100~500℃范围内,SiO_2气凝胶的导热系数随环境温度升高而略微变大,当环境温度继续升高时,导热系数随环境温度升高而迅速增大。

Alkali-activation reactivity of chemosynthetic Al_2O_3-2SiO_2 powders and their ^(27)Al and ^(29)Si magic-angle spinning nuclear magnetic resonance spectra

Pure Al2O3-2SiO2 powders were prepared by sol-gel and coprecipitation methods, and their alkaliactivation reactivities were compared. The alkali-activation reactivity of the powder prepared by the so]-gel method was higher than that of the powder prepared by the coprecipitation method. The powders were investigated by 27Al and 29Si magic-angle spinning nuclear magnetic resonance spectroscopy （MAS NMR） to understand the relationship between their structure and alkali-activation reactivity. The 27Al MAS NMR data showed that the five-coordinate AI content of the powder prepared by the sol-gel method was higher than that of the powder prepared by coprecipitation. The higher content of five-coordinate Al corresponded to higher alkali-activation reactivity. The 29Si MAS NMR data showed that for the powder prepared by the sol-gel method, silicon was replaced by aluminum at secondary coordination sites of the central Si atoms during calcination. However, for the powder prepared by single-batch coprecipitation, the main change was from a low degree of polycondensation to a high degree of polycondensation.

Kinetics of Reduction of Iron Oxide in CaO-SiO_2-Al_2O_3-Fe_tO Slags with Graphite Powder

The reduction rate of Fe^tO in CaOSiO_2Al_2O_3Fe_tO slags with graphite powder has been determined in an alumina crucible at 1 673-1 823 K. The effects of temperature, slag basicity and Fe_tO content on the reduction rate have also been discussed. Test results show that the reduction rate increases with the increase of temperature or Fe_tO concentration in slags, and the reduction rate has a parabolic relation with slag simple basicity or optical basicity. The maximum reduction rate is observed around CaO/SiO_2=1.5 of molten slags. The reaction order is 1.26 or 1.31, and the reduction activation energy is 126.8 or 129.7 kJ/mol respectively in regard to Fe_tO content or Fe_tO activity calculated by using regular solution model. The reduction rate of Fe_tO in CaOSiO_2Al_2O_3Fe_tO slags with graphite powder is in the range of 0.15×10^-4-0.86×10^-4 molO/cm^2·s.

Simultaneous Determination of 2- and 3-MCPD Esters in Infant Formula Milk Powder and Edible Vegetable Oils by Gas Chromatography-Mass Spectrometry

Esters of 2- and 3-monochloropropane-1,2-diol (MCPD) are significative contaminants of processed edible oils used as foods or food ingredients. The aim of this study was to develop and validate a new method by GC-MS for the simultaneous quantification of 2 and 3-MCPD esters in infant milk powder and edible vegetable oils. The developed protocol included fat fraction in infant milk powder and edible vegetable oils samples was extracted and treated with sodium methylate-methanol to cleave the ester bonds of the 2- and 3-MCPD esters, moreover, standard samples of deuterium isotope-labeled 2- and 3-MCPD palmitic acid double esters and stearic acid double esters were used as the internal standards. Furthermore, this method was validated when it was applied to food products, concrete manifestation in its good accuracy (the recovery of MCPD esters ranged from 86% to 114%), high sensitivity (the LOD of 3-MCPD and 2-MCPD esters were 0.025 and 0.020 mg/kg, LOQ were 0.075, 0.060 mg/kg, respectively) and satisfactory repeatability (RSD below 6.8%) for all analytes. In the 150 commercial edible vegetable oils and infant formula milk powder samples, we obtained a preliminary profile of MCPD ester contamination.

溶胶-凝胶法改良人工林马尾松尺寸稳定性及其机理研究

马尾松是广西地区重要的人工林资源之一,但其尺寸稳定性较差,极大地限制了其在木材工业中的使用。本研究选用基于SiO_(2)的溶胶-凝胶法对马尾松进行改良,探讨了浸渍时间对马尾松尺寸稳定性的影响,并通过扫描电子显微镜(SEM)、X射线能谱(EDS)、傅里叶变换红外光谱(FT-IR)、X射线光电子能谱(XPS)、X射线衍射(XRD)揭示了溶胶-凝胶法对马尾松的改良机理。研究结果表明:经过6 h溶胶浸渍处理的改性马尾松尺寸稳定性最好,相较于未处理的马尾松,浸渍6 h的改性马尾松的浸渍率为5%,60 h吸水质量增加率由34.7%降低至28.2%,60 h吸湿体积膨胀率由16.5%降低至11.1%,72 h抗老化性能由18.02的色差值降低为11.9。溶胶-凝胶法对马尾松尺寸稳定性的改善机理体现在两个方面:其一,通过形成玻璃层状及膨胀结构可以阻挡水分的进入;其二,通过氢键及化学键的形式与细胞壁进行结合,以起到永久的润胀作用。

纳米SiO_(2)强化CO_(2)地质封存页岩盖层封堵能力机制试验

页岩为CO_(2)盐水层地质封存常见盖层岩石类型,强化盖层封堵能力有利于提高CO_(2)地质埋存量和安全性。为探究随CO_(2)混注纳米SiO_(2)(SNPs)强化盖层封堵能力的有效性和可行性,对CO_(2)地质封存页岩盖层样品开展原地条件下的超临界CO_(2)酸蚀反应试验,基础组为页岩样品-地层水、对照组为页岩样品-地层水+超临界CO_(2)、优化组为页岩样品-地层水+SNPs+超临界CO_(2),并采用核磁共振测试、场发射扫描电镜可视化观测、X射线衍射测试和岩石力学试验,探究CO_(2)酸蚀反应前后的页岩孔隙结构、表面形貌、矿物成分及力学性质特征。结果表明:优化组的大孔孔隙分量及孔隙度和渗透率增大幅度低于对照组;与对照组相比,优化组黏土矿物与碳酸盐岩矿物相对含量损失少,表明随CO_(2)混注SNPs可使岩样内部酸蚀作用减弱;SNPs在岩石端面吸附聚集或进入岩心孔喉,可使优化组页岩样品力学性能损伤程度降低;随CO_(2)混注SNPs有利于强化CO_(2)盐水层地质封存盖层封堵能力。

溶胶-凝胶SiO_(2)减反膜的制备与光学性能研究

碱催化溶胶-凝胶多孔SiO_(2)减反膜具有优异的光学性能及抗激光损伤性能,是高功率激光装置中的重要组成部分,但其与光学元件之间的结合强度低,使得膜层易发生接触破坏。本研究以“神光II”高功率激光装置溶胶-凝胶多孔SiO_(2)减反膜为基础,通过提拉法在其表层涂覆致密的SiO_(2)薄层后得到机械强度提升的双层SiO_(2)减反膜(SiO_(2)-MTES),并与常用的单层氨固化SiO_(2)减反膜(SiO_(2)-HMDS)进行相关应用性能的综合比较。结果表明,涂覆SiO_(2)-MTES的熔石英在约800 nm处的峰值透过率大于99.6%,运用1-on-1激光损伤阈值测试方法测得该双层SiO_(2)减反膜的零几率激光损伤阈值为51.9 J/cm^(2)(1064 nm,9.1 ns),与涂覆SiO_(2)-HMDS的性能相当。同时,SiO_(2)-MTES膜层与水的接触角达到117.3°,且在相对湿度大于90%的高湿环境中膜层的透过率较稳定。多次擦拭实验结果表明SiO_(2)-MTES的耐摩擦机械强度明显优于SiO_(2)-HMDS,有效提升了膜层与光学元件之间的结合强度。

纳米SiO_(2)复合粒子/有机硅低聚物透明超疏水复合涂层的制备及其性能

将Stöber法制备的胶体SiO_(2)粒子溶液与粉体SiO_(2)粒子进行物理共混得到SiO_(2)复合粒子溶液,以三乙氧基甲基硅烷(MTES)与正硅酸乙酯(TEOS)为前驱体制备的酸性有机硅低聚物为黏结剂,使用3-氨丙基三甲氧基硅(KH540)与全氟癸基三甲基氧硅(PFDT)对其进行改性,通过喷涂法在玻璃基底上制备出SiO_(2)复合粒子/酸性有机硅低聚物复合透明超疏水涂层。考察了SiO_(2)复合粒子、酸性有机硅低聚物、KH540及PFDT对复合涂层的影响。结果表明,当SiO_(2)复合粒子溶液由粒径为110 nm的胶体SiO_(2)粒子溶液与粒径为50 nm的粉体SiO_(2)粒子(其用量为胶体SiO_(2)粒子溶液质量的1%)组成、SiO_(2)复合粒子溶液与酸性有机硅稀释液质量比为4∶1、KH540与PFDT的添加量(以混合液总质量计,下同)均为1%时,制备的复合涂层在可见光波长范围内透光率可达88%,静态接触角达155°,在800目砂纸上磨损60 cm后仍能保持超疏水性能,具有良好的自清洁性。

溶胶-凝胶法制备SiO_(2)减反射薄膜及其耐久性

目的增加太阳光在太阳能电池玻璃盖板的透过率,以期提高太阳能电池的转换效率。方法以正硅酸乙酯为原料、乙醇为溶剂、氨水为催化剂,采用碱催化溶胶-凝胶浸渍提拉法,在玻璃表面制备了SiO_(2)减反射薄膜,研究了溶胶中正硅酸乙酯与乙醇物质的量比和提拉镀膜速度对SiO_(2)薄膜光学性质的影响,分析了减反射薄膜的耐久性。结果碱性溶胶制备的SiO_(2)为非晶相,采用浸渍提拉法在玻璃表面制备的薄膜结构疏松,且存在微裂纹。采用正硅酸乙酯与乙醇物质的量比为1∶20、提拉速度为500μm/s及正硅酸乙酯与乙醇物质的量比为1∶30、提拉速度为1000μm/s制备的SiO_(2)薄膜,折射率分别为1.35和1.33,厚度分别为101.11、102.63nm,最大透过率分别高于未镀膜玻璃6.57%和6.94%,在400~1100nm波长范围内的平均透过率分别高于未镀膜玻璃5.01%和5.34%,表明该薄膜具有优异的减反射性能。玻璃表面制备SiO_(2)薄膜后,水接触角约为5°,具有超亲水性。将未镀膜玻璃及镀膜样品在实验室放置5个月后,采用正硅酸乙酯与乙醇物质的量比为1∶20、提拉速度为500μm/s及正硅酸乙酯与乙醇物质的量比为1∶30、提拉速度为1000μm/s的制备SiO_(2)薄膜的最大透过率分别高于未镀膜玻璃7.50%和6.71%,在400~1100 nm波长范围内的平均透过率分别高于未镀膜玻璃5.94%和5.59%,表明SiO_(2)薄膜的减反射性能具有较好的耐久性。结论采用碱催化溶胶-凝胶法在玻璃上制备的SiO_(2)减反射薄膜具有超亲水性及优异的减反射耐久性,在太阳能电池玻璃盖板上具有潜在的应用价值。

TEPA改性Cu-BTC@SiO_(2)复合气凝胶制备及其捕集CO_(2)特性研究

在“碳达峰、碳中和”这一国家重大战略背景下,CO_(2)捕集已经成为当前重大科技发展方向。固体吸附剂吸附法在CO_(2)的捕集过程中应用广泛,其中SiO_(2)气凝胶具有成本低、合成方法灵活、分离效率高、表面易修饰等优点。然而,SiO_(2)气凝胶材料也存在CO_(2)/N_(2)吸附选择性低,CO_(2)吸附容量有待继续提高等缺陷。为解决上述问题,制备了一种Cu-BTC@SiO_(2)复合气凝胶CO_(2)吸附材料。首先,利用扫描电子显微镜(SEM)、傅里叶红外光谱(FTIR)和氮气吸脱附测试对材料表面化学和孔隙结构进行了系统表征。然后,通过二氧化碳吸附测试对其CO_(2)吸附量、选择性吸附、循环吸附进行了研究。最后,采用理论与试验研究结合的方法,对吸附剂的CO_(2)吸附动力学进行了研究。结果表明:Cu-BTC与SiO_(2)气凝胶具有结构协同作用,与Cu-BTC复合后的SiO_(2)气凝胶不会改变材料的Si-O-Si骨架结构,同时可以保持Cu-BTC的晶体结构不受到损坏。复合材料具有726.431 m^(2)/g的高比表面积,570.781 m^(2)/g的微孔比表面积和0.184 cm^(3)/g的高微孔体积。负载四乙烯五胺(TEPA)后CO_(2)吸附量高达3.20 mmol/g,CO_(2)/N_(2)选择性吸附系数为40.8,循环10次CO_(2)吸附循环,吸附容量仅下降14%,提高了SiO_(2)气凝胶材料的CO_(2)吸附容量和吸附选择性。Avrami分数动力学模型对吸附试验结果拟合相关系数为0.99,且Avrami指数nA为1.9表明吸附剂对CO_(2)的吸附是非均质的多层吸附,既有物理吸附又有化学吸附,且以物理吸附为主。利用具有丰富微孔结构的金属有机骨架材料Cu-BTC与SiO_(2)气凝胶进行复合,使复合材料具有分级微/介孔结构,通过增强分子间作用力(范德华力)来增强材料对CO_(2)的物理吸附;使用TEPA对材料进行浸渍改性,利用有机胺和酸性气体之间的酸碱相互作用来增强材料对CO_(2)的化学吸附。

基于SiO_(2)纳米颗粒的无标记化学发光氯霉素适体传感器

经由食物链长期摄入氯霉素残留物会给人体带来各种危害和疾病。因此,建立快速、准确且高灵敏的食品中氯霉素检测方法具有重要意义。采用溶胶-凝胶法制备了表面氨基化的SiO_(2)纳米颗粒,并用X射线衍射、透射电镜和红外光谱对其进行了表征。然后,利用酰胺键和碱基互补配对作用在SiO_(2)纳米颗粒表面依次组装互补DNA链和氯霉素适配体,成功构建了无标记化学发光氯霉素适配体传感器。该传感器制备简便,其中的氯霉素适配体既可作为生物识别元件,又可与苯甲酰甲醛反应产生化学发光信号,无需标记信号分子。该传感器的氯霉素检出限为3.26×10^(-9) mol·L^(-1),且选择性较好。将该传感器应用于实际样品中进行加标,回收率在94.67%~103.00%之间,表明该适体传感器可用于食品中氯霉素的检测。

钙长辉长无球粒陨石GRV 13001中SiO_(2)相的特征及其成因

钙长辉长无球粒陨石中SiO_(2)相的形成与母体经历的热改造作用密切相关,能在一定程度上指示母体的热变质历史。以中国第30次南极科学考察队发现的一块钙长辉长无球粒陨石GRV 13001为研究对象,重点分析了不同产状的SiO_(2)相,发现其可分为成分较纯的不规则粒状方石英和石英、富Al和K的板条状鳞石英以及高钙辉石边部的蠕虫状SiO_(2)相3种类型。不同产状SiO_(2)相的成因及其指示的陨石母体热变质历史为:(1)母星体浅表层岩浆快速冷却结晶,形成充填型不规则粒状方石英;(2)经历缓慢热变质作用形成4型热变质程度辉石,同时导致充填物中部分方石英转变为石英;(3)缓慢热变质作用期间,相对短暂且高温的重新加热事件引起充填物区域物质部分熔融,从而形成板条状鳞石英,亦导致原生辉石颗粒边缘高钙辉石次生边的形成,生长过程中蠕虫状SiO_(2)相被包裹进次生边。不同产状SiO_(2)相的成因为其陨石母体经历的热改造过程提供了依据。

SiO_(2)高效节能气凝胶隔热材料的制备及性能研究

以N,N-二甲基甲酰胺为干燥剂,通过常压干燥法制备了SiO_(2)气凝胶隔热材料,研究了正硅酸乙酯和水的摩尔比对SiO_(2)气凝胶形貌、物相结构、孔径分布、力学性能和导热性能的影响。结果表明,SiO_(2)气凝胶隔热材料为典型的非晶结构,具有有序的介孔孔道,随着水摩尔比的增大,气凝胶的孔道结构有序度逐渐提高,宏观形貌更加完整且致密,摩尔比n(TEOS)∶n(水)=1∶30制备出的气凝胶的多孔网格结构最为致密。随着水摩尔比的增大,SiO_(2)气凝胶的比表面积、抗压强度先增大后降低,导热系数先降低后增大。当摩尔比n(TEOS)∶n(水)=1∶30时,气凝胶比表面积最大为441 m^(2)/g,对应的孔体积为0.414 cm^(3)/g,孔径分布为3.75 nm,抗压强度最大为29.79 kPa,导热系数最低为0.022 W/(m·K),保温性能最优。以TMCS和正己烷对SiO_(2)气凝胶进行疏水改性,体积比V(TMCS)∶V(正己烷)=1∶10时,SiO_(2)气凝胶表面的接触角达到最大值139.6°,疏水性能最佳,热稳定性也得到改善。

微纳化封装芳香载体的制备及缓释性能研究

芳香纺织品是备受关注的功能纺织品。芳香气味具有舒缓压力、调节情绪、改善睡眠等功效。但是芳香物质存在易挥发的问题,提高香味的长效释放和耐水洗性一直是芳香纺织品制备有待解决的问题。文中以硅烷偶联剂对纳米二氧化硅进行表面结构调控处理,构建有机-无机复合材料,探索芳香物质微纳化封装;将微纳化封装的芳香载体材料通过原位固定法负载到织物上,并对织物的芳香释放性能和耐久效果进行评价。结果表明,由微纳化封装的有机-无机复合芳香载体制备的芳香纤维结构体具有适宜的香气和长效释放的效果,由此形成的织物加香技术,可广泛应用于纺织品芳香整理,在芳香功能纺织品的制备应用中拥有巨大潜力。

含氯再生骨料混凝土中钢筋抗锈蚀性能试验研究

沿海地区废弃混凝土受氯离子侵蚀,为使其更好地再生利用,探究含氯再生骨料混凝土的改性方法及钢筋抗锈蚀性能,以矿物掺合料种类及掺量、再生骨料强化为变量,设计15组混凝土,对混凝土中钢筋通电加速锈蚀,并通过电化学工作站的线性极化法和电化学阻抗谱法测试其钢筋电化学指标。结果表明:含氯再生骨料混凝土中钢筋锈蚀进程快于普通不含氯再生骨料混凝土;纳米SiO_(2)溶液强化含氯再生骨料,以及在混凝土中复掺矿物掺合料均可提高含氯再生骨料混凝土钢筋抗锈蚀性能;通过强化改性的含氯再生骨料混凝土的钢筋抗锈蚀性能不低于普通再生骨料混凝土。

纳米SiO_(2)改性界面剂对混凝土黏结性能的影响

混凝土结构修补加固后的工作性能取决于新旧混凝土的界面黏结性能,增强新旧混凝土黏结强度的有效途径之一是使用界面剂。通过新旧混凝土界面的斜剪试验、劈裂抗拉试验和界面过渡区SEM形貌分析,对比研究了纳米SiO_(2)溶液、纳米SiO_(2)砂浆、砂浆、丁苯乳胶、环氧树脂5种类型界面剂以及凿毛处理的界面黏结效果,分析了纳米SiO_(2)溶液、纳米SiO_(2)砂浆作为界面剂提升界面黏结性能的机理。试验结果表明:3.75%纳米SiO_(2)砂浆界面剂对新旧混凝土界面的修补效果最好,其界面过渡区的水化反应更充分,生成的网状C-S-H凝胶使得整体结构更加紧密,28 d的斜剪强度和劈裂抗拉强度最高,分别为27.3 MPa和6.3 MPa,其斜剪强度甚至比最优粗糙度(6 mm)26.5 MPa要高。

两亲SiO_(2)纳米颗粒的制备和界面扩张流变行为研究

制备了一种两亲SiO_(2)纳米颗粒,借助红外光谱及接触角测量证实了相关基团在SiO_(2)纳米颗粒表面的成功接枝,探究了其界面活性和界面扩张流变行为。通过动态界面张力测量及小幅正弦振荡实验发现,两亲SiO_(2)纳米颗粒相比亲水和疏水SiO_(2)纳米颗粒能够更稳定地吸附在界面形成一层吸附膜,降低界面张力,同时由于其扩散交换速度较慢,界面扩张模量大于亲水和疏水SiO_(2)纳米颗粒。进一步的大幅线性压缩实验发现两亲SiO_(2)纳米颗粒在表面比为0.35时其界面吸附量会发生激增,扩张模量迅速增大,其形成的界面膜具有抵抗较大程度形变的能力。