磁性胶体根管充填材料的研究现状

医用胶和磁性材料目前已在临床各科扩大使用,在口腔医学中的应用也逐步增多,一些学者[1—4]已经注意到利用磁性材料的特性治疗根尖周病。磁性胶体根管充填材料[5](Statinary field Magnetic Glueg asa root Canal Filling Material简称SG材料),主要由医用胶和磁粉组成,本文从SG材料的生物相容性、密封性能,及其抑菌作用等方面综述其研究现状。

用吸附-交联法在磁性胶体粒子上固载中性蛋白酶

利用吸附-交联法,在磁性胶体粒子表面固载 ASl.398 中性蛋白酶,可以制备出活性达 2500U/g 的磁性固定化中性蛋白酶.该固定化酶具有较好的耐热性和操作稳定性,最适作用 pH6.0—6.5,最适作用温度60℃.考察了交联剂用量、温度、pH及酶与载体比例对 AS1.398 中性蛋白酶固定化的影响.

离体牙永磁体引导磁性胶体材料根管充填的实验观察

对永磁体引导磁性胶体根管充填材料（ＳＧ）根管充填进行离体牙的实验研究。实验组分为永磁体引导和永磁体加扩大针引导两种充填方式。对照组材料为常规酚醛树脂液。结果经Ｒｉｄｉｔ分析显示：酚醛树脂液充填组和永磁体加扩大针引导组的充填效率均优于永磁体引导组（Ｐ＜０．０５）．前两者间无显著性差异（Ｐ＞０．０５）．离体牙的永磁体引导磁性胶体材料充填效果不够理想。

离体牙永磁体引导磁性胶体材料根管充填的实验研究

对永磁体根管充填进行离体牙的实验研究．实验组材料为磁性胶体根管充填材料（ＳＧ材料），分为永磁体引导和永磁体加扩大针引导两种充填方式．对照组材料为常规酚醛树脂塑化液．Ｘ线摄片和镜下形态观察进行充填效率判定．结果经Ｒｉｄｉｔ分析显示；对照组和永磁体＋扩大针引导组均优于永磁体引导组ｐ＜０．０５，前两者间无显著性差异ｐ＞０．０５．

磁性胶体根管充填材料临床疗效的初步观察

门诊选择需要作根管治疗术的病例,用磁胶根充料和常规材料充填根管,经1年后发现磁胶根充的有效率为69.23％,比常规材料83。33％的疗效低(P<0.01)。并对磁胶根充料充填根管的原理、特点、现存不足以及对磁胶组失败病例进行了阐述和分析。

超顺磁性氧化铁胶体溶液的质量研究

目的:研究自制的超顺磁性氧化铁胶体溶液作为磁共振对比剂的可能性。方法:采用电镜、X-射线粉末衍射技术、激光散射等方法对自制的SPIO胶体溶液进行各种理化参数测定。结果:自制的超顺磁性氧化铁胶体溶液颗粒粒径小,稳定性好,磁响应能力性强,具超顺磁性。结论:自制的超顺磁性氧化铁胶体溶液可以作为磁共振对比剂。

双亲性无规共聚物自组装磁性分子印迹纳米粒子四环素光子晶体传感器

以油酸包覆四氧化三铁纳米粒子(OA-Fe3O4)为磁性内核,双亲性无规共聚物P(St-co-VP)为乳化剂,四环素(TC)为模板分子,将光子晶体技术与分子印迹技术相结合,通过细乳液自组装一步法制备了磁性分子印迹纳米颗粒(MMINPs),并基于外界磁场组装构建了可进行裸眼可视化检测的光子晶体传感器。采用透射电镜(TEM)、红外光谱(FT-IR)和热重曲线(TGA)对MMINPs粒子进行了表征。优化了TC-MMINPs的制备条件,考察了TC磁性分子印迹光子晶体传感器(TC-MMIPCs)的灵敏度、响应时间和选择性。结果显示,在TC质量浓度1.0×10^(-4)~1.0 g/L范围内,质量浓度的对数与反射波长呈线性关系,检出限(S/N=3)为1.0×10^(-4)g/L。该传感器响应速度较快,在30 s内即可完成响应,印迹因子为3.41。其响应具有特异性,对于与四环素结构相似的氯霉素的选择因子为5.92。该传感器已成功用于某品牌舒缓保湿喷雾中TC的分析。

液态金属中磁性胶体的稳定化理论

本文提出小胶粒对大胶粒的范德华吸引力可形成小颗粒云，它有屏蔽彼此聚集成较大颗粒的倾向。用热力学方法分析了考虑有限尺寸的小颗粒体系。这对于液态金属中磁性颗粒的稳定分散有一定意义。

磁性液体密封研究的现状与趋势

介绍了磁性液体密封（ＭＦＳ）研究的现状及主要研究成果。分析了ＭＦＳ的发展趋势。

Fe_3O_4/P(NaUA-St-BA)核-壳纳米磁性复合粒子的合成与表征

以表面包敷有反应型的表面活性剂NaUA(十一烯酸钠)的Fe3O4磁性胶体粒子为种子,运用无皂乳液聚合方法原位制备出Fe3O4P(NaUAStBA)核壳纳米磁性复合粒子.Fe3O4磁性胶体粒子的粒径为10nm左右.IR和TG结果分析表明,苯乙烯、丙烯酸酯和NaUA在Fe3O4粒子的表面发生了聚合反应,形成P(NaUAStBA);TEM和激光粒度分析仪测试结果显示,Fe3O4P(NaUAStBA)复合粒子具有核壳结构而且粒子分布均匀、平均粒径60nm;TG测试的结果表明,NaUA在Fe3O4粒子的包覆率为13.83%,P(NaUAStBA)共聚物的包覆率71.85%;振动样品磁强仪(VSM)测试的磁滞回线则表明由无皂乳液聚合得到的Fe3O4P(NaUAStBA)复合粒子具有超顺磁性,可避免磁性微球在磁场中的团聚.另外,合成的磁性胶乳可稳定存放数月.

纳米PEG/Fe_3O_4磁流体的制备

以水为载液,聚乙二醇(PEG)为表面活性剂,采用磁性粒子制备与表面活性剂包裹同时进行的方法,制备了纳米PEG/Fe3O4磁流体,并且分析了PEG浓度对产物微观形貌和粒径的影响.研究表明,PEG浓度是影响产物形貌和粒径的重要因素,改变PEG浓度,可制得球状和棒状产物.进一步的研究表明,内层的Fe3O4与外层的PEG之间存在物理吸附作用和氢键键合.

Effect of Cyclic Deformation on Magnetorheological Elastomers

Fatigue properties of magnetorheological elastomer （MRE） samples were investigated based on cis-polybutadiene rubber by using a fatigue test machine. Three MRE samples with iron particles mass fraction of 60%, 70%, and 80% were fabricated, and their properties dependence of three strain amplitudes （50%, 75%, and 100%） were measured. The absolute magnetorheological （MR） effect, storage modulus, and loss modulus of MRE samples after fatigue were evaluated by a modified dynamic mechanical analyzer. The results revealed that MR effect, storage modulus, and loss modulus of MREs containing 80% iron particles depended strongly on the strain amplitudes and the number of cycles, while storage mod-ulus and loss modulus of MREs containing 70% iron particles also depended on the strain amplitudes and the number of cycles but not as strongly as sample which contains 80% iron particles, but the properties of MREs containing 60% iron particles after cyclic deforma-tion were almost independent of the fatigued conditions. In order to investigate the fatigue mechanism of MREs, the sample was carried out with a quasi-static tensile testing and its surface morphology during testing was observed in situ by scanning electron microscopy.

Preparation of Rare-Earth Composite Ferrite Magnetic Fluid

Water-based rare-earth ferrite (Re xFe 3- xO 4)magnetic fluids were prepared by chemical co-precipitation method. The result shows that saturation magnetic intensity of ferrite magnetic fluids can be improved by adding Dy 3+ and the saturation magnetic intensity will reach the highest if n(Fe)∶n(Dy 3+ )=30∶1. The modification and formation mechanism of Re xFe 3- xO 4 particles is discussed in detail. The physicochemical properties are investigated by the Gouy magnetic balance, IR, TEM, XRD, and EDX, etc.

The structure and properties of Fe_3O_4/P (NaUA-St-BA) magnetic composite nano particles

Fe3O4/P （NaUA-St-BA） core-shell composite micro spheres were in situ prepared by soapless polymerization of styrene and butyl acrylate, with Fe3O4magnetic colloidal particles coated with NaUA. The results of IR and XRD analysis demonstrated that the desired polymer chains have been covalently bonded to the surface of Fe3O4 nano particles. The morphology analysis by TEM confirmed that the composite particles have the core-shell structure and a relatively uniform diameter of about 100nm. The magnetic properties of the obtained composite latex particles were measured by VSM and found that they exhibited super paramagnetic properties. Finally, the prepared magnetic composite particles latex is stable for several months.