The Effect of the Light Intensity and Light Distances of LED and QTH Curing Devices on the Hardness of Two Light-Cured Nano-Resin Composites

Background: Effective polymerization of the composite resin is essential to obtain long term clinical success and has a great importance obtaining improved mechanical properties. The purpose of this study was to measure the effect of the light intensity of LED and QTH curing devices in relation to the light distances, on the hardness (KHN) of two light cure nano-resin composite. Material and Methods: The top and bottom surfaces of the two nanofill composite specimens were evaluated. Two LED and two QTH light curing devices were used at nine different distances. Light intensity was measured with two radiometers placed at these same distances from the curing tip. 360 pvc dies were prepared with circular cavity 3 mm in diameter and 2 mm thick. The tested materials were placed in each cavity. The different light curing distances were standardized by adding pvc spacers dies at different height matching the different distances. Top and bottom surface microhardness were evaluated with a Micro Hardness Tester in knoop hardness numbers (Kg/mm2). Data were statistically analyzed using: Three-way ANOVA, Tukey and Pearsons test. Results: It was revealed that there was a statistically significant difference in microhardness between the composites (p < 0.001), between the nine distances (p < 0.001) and between the four light curing devices (p < 0.001). Increasing the distance of the light source from composite resin, the light intensity and the microhardness values at the top and bottom surface decrease. LED light curing devices produced a greater microhardness results at the bottom surface of the specimens. The Filtek Ultimate nanocomposite (3 m) showed highest microhardness values on the top and bottom surfaces, polymerized with all four curing devices and all nine distances compared to Empress Direct nano composite (Ivoclar vivadent). Clinical significant: Even with high power LED curing light, the distance between the tip of the light source and the restoration surface should be as close as possible. In this study, Filtek Ultimate showed better results (highest microhardness values) than Empress Direct.

Ultraviolet shielding property of crylic acid resin filled with nano-SiO_2

The present status and development trends of nano-composite coatings were briefly introduced. The nano-SiO2 was dispersed into crylic acid resin by ultrasonic wave and high-energy ball milling, the influence of nano-SiO2 on shielding property of coatings was investigated. Relation between particle size distribution of original nano-SiO2 and its dispersal in water and alcohol after treatment were analyzed, respectively. The ultraviolet permeation rate of coatings filled with nano-SiO2 was detected by ultraviolet spectral photometer. And the particle size distribution of coatings was examined by TEM. The results show that particle size distribution is comparative convergence and smaller one order of magnitude after dispersal treatment. The size of most nano-SiO2 in coatings is smaller than 100nm, which indicates that the amount of nano-SiO2 in the resin is 20% （solid content of resin）, the permeation rate of ultraviolet of composite coatings decreases to 20%. The research of its excellent ultraviolet shielding property mechanism indicates minor size and high surface energy of nano-SiO2 can produce different absorption, reflection and scatter actions to different wavelengths.

Development of Cu Nanoparticle Loaded Oil Palm Fibre Reinforced Nanocomposite

Functionalized copper nanoparticles (FCuNPs) have been synthesized by chemical reduction method and polyvinyl alcohol (PVA) performed as a stabilizer in that medium. Analysis observed that the average size of the synthesized FCuNPs was 3.5 nm. The obtained FCuNPs were loaded in the oil palm empty fruit bunch (EFB) natural fibre. Before the loading of FCuNPs in EFB fibres, the surface of the fibres is tailored by the cationic agent CHPTAC since they have a natural tendency to exhibit negatively charged surface owing to the presence of large amount of hydroxyl groups. Thereafter, different types of composite were developed and their properties were studied. The composites were developed by using the untreated empty fruit bunch (UEFB) fibres and FCuNPs loaded EFB (NP-CAEFB) fibres with commercially available unsaturated polyester resin (UPER). The synthesized composites were characterized through FTIR, FESEM, XRD, DSC, tensile strength tests, etc. The obtained biodegradation results indicated that significant weight loss was not observed for neat PER and PER/FNP-CAEFB nanocomposite, whereas, the UEFB/VUPER composite showed ca. 21.4% weight loss at 90 days, which was considered rationally due to the preferential degradation of the fibre.

Nano-SiO_2/E-20/TEOS复合体系

利用纳米二氧化硅颗粒(nano SiO2)、环氧树脂(E 20)和正硅酸乙酯(TEOS)在63℃下共聚制备出三元复合材料.IR及TGA分析表明,增加nano SiO2和TEOS的加入量可显著提高产物的耐高温性能.产物在1070～1100cm-1处的Si—O—Si振动吸收明显增强,表明Si—O—Si链状结构的引入是提高产物耐高温性能的关键;产物在3440cm-1处的—OH特征吸收随TEOS的增加而增强,随nano SiO2的增加而减弱.产物在100℃附近的失重曲线表明,烷基含量的提高及Si—OH的减少可明显增加材料的疏水性能.SEM分析表明,nano SiO2较均匀地分散在基体中,具有增韧作用,C—O—C或Si—O—Si网络的连续性是决定产物均匀性的因素.

CE/nano-SiO_2复合材料的RTM工艺条件

以CE(氰酸酯)树脂为基体,以硅烷偶联剂(KH-560)表面处理过的纳米二氧化硅(nano-SiO2)为改性剂,采用高速均质剪切法制备CE/nano-SiO2复合材料;然后以该复合材料体系的黏度、凝胶化时间、弯曲强度和玻璃化转变温度(Tg)为考核指标,采用单因素试验法优选出满足树脂传递模塑(RTM)工艺用复合材料体系的最佳工艺条件。结果表明:当w(nano-SiO2)=3%、工作温度为(90±10)℃、工作时间≤10 h、固化温度为110～200℃和后处理工艺条件为220℃/4 h时,复合材料在低温时具有良好的稳定性,在高温时具有良好的反应性,完全满足RTM工艺的基本要求。

Nano-ZnO改性对光固化复合树脂机械性能影响的研究

目的研究nano-ZnO改性对复合树脂机械性能的影响。方法通过测定nano-ZnO改性复合树脂的挠曲强度,抗压强度及径向拉伸强度研究其对树脂机械强度的影响,并在电镜下观察复合树脂的显微形貌及其粘接界面。结果当nano-ZnO的添加量为1 wt.%、5 wt.%、10wt.%时,改性复合树脂的挠曲强度,抗压强度及径向拉伸强度与空白对照组之间无明显差别(P> 0. 05);当nano-ZnO的添加量达到15wt.%时,改性复合树脂的各项机械强度均明显降低(P <0. 05)。电镜结果显示nano-ZnO在不影响复合树脂机械性能的各组中均均匀分布,各组树脂-牙本质粘接界面混合层均匀连续,充填树脂与粘接剂间结合良好。结论添加量不超过10 wt.%时,nano-ZnO不会对复合树脂的机械性能造成负面影响,可以作为复合树脂抗菌改性的选择。

Nano-ZnO改性复合树脂抗菌性能的缓释性研究

目的:观察不同添加剂量的nano-ZnO改性复合树脂的锌离子释放规律及浸泡1个月后的抗菌活性。方法:制备不同添加剂量(1wt%,5wt%,10wt%)的nano-ZnO改性复合树脂试件,充分光固化后浸泡于无菌三蒸水中,分别于24h,1周,2周,1个月时使用锌(Zn)测定试剂盒对各组试件浸析液的锌离子含量进行测定,并对浸泡1个月的试件进行抗菌活性测定。结果:不同时间点检测的各组试件的锌离子释放量均随nano-ZnO添加剂量的增加而增加,10wt%的nano-ZnO添加组改性复合树脂在1个月时仍保持较高的锌离子释放水平,并且其同期抗菌活性也显著高于其他实验组(P<0.05)。结论:10wt.%的nano-ZnO添加组改性复合树脂可在一定时间内保持较高的锌离子释放水平,从而达到更加长效性的抗菌作用。

Mechanical Properties of Submicron Glass Fiber Reinforced Vinyl Ester Composite

Vinyl ester (VE) resin inherently has intrinsic brittleness due to its high cross-link density. To improve mechanical performance, micro/nano fillers are widely used to modify this matrix. In present study, glass fiber in submicron scale at low contents was added into VE to prepare submicron composite (sMC). The impact resistance of un-notched sMC degraded with the increase of sGF content while that of notched-sMC remained the unchanged. Flexural properties of sMCs also were the same with that of neat resin. The results of Dynamic mechanical analysis (DMA) test showed the slight increase of storage modulus and the decrease of tan delta value in the case of sMC compared to those of un-filled matrix. However, the Mode I fracture toughness of sMC improved up to 26% and 61% corresponding to 0.3 and 0.6 wt% glass fiber used. The compact tension sample test suggests that there is the delay of crack propagation under tensile cyclic load in resin reinforced by submicron glass fiber. The number of failure cycle enlarged proportionally with the increment of sGF content in matrix.

纤维桩、纳米复合树脂结合氧化锆烤瓷冠修复牙楔状缺损的效果及对龈沟液炎性介质水平、美学评分的影响

目的探究纤维桩、纳米复合树脂结合氧化锆烤瓷冠修复牙楔状缺损的效果及对龈沟液(GCF)炎性介质水平、美学评分的影响。方法选择2018年4月至2021年6月收治的96例牙楔状缺损患者为研究对象,以随机数字表法将其分为对照组和观察组,每组48例。对照组接受金属桩核结合金属烤瓷冠修复,观察组实施纤维桩、纳米复合树脂结合氧化锆烤瓷冠修复。比较两组的修复效果。结果观察组的口腔致病菌检出率低于对照组,修复成功率高于对照组(P<0.05)。修复后,观察组GCF中的神经激肽A(NKA)、组织基质金属蛋白酶抑制剂-1(TIMP-1)、基质金属蛋白酶-9(MMP-9)及白细胞介素-8(IL-8)水平均低于对照组(P<0.05)。修复后,观察组的红色美学指数(PES)、白色美学指数(WES)评分均高于对照组(P<0.05)。修复后,观察组的GCF量及碱性磷酸酶(ALP)、天冬氨酸转氨酶(AST)水平均低于对照组(P<0.05)。结论纤维桩、纳米复合树脂结合氧化锆烤瓷冠修复牙楔状缺损可改善GCF量及GCF中炎性介质、ALP、AST表达,提高修复成功率及美学评分。

纳米二氧化硅含量对硼酸铝晶须-二氧化硅熔附体填料复合树脂弯曲性能的影响

目的研究正硅酸乙酯(TEOS)水解所得纳米二氧化硅(SiO2)含量对硼酸铝晶须(AlBw)与SiO2熔附体填料复合树脂弯曲性能的影响。方法采用TEOS溶胶-凝胶法制得纳米SiO2,按不同比例通过高温烧结使其熔附于AlBw表面,制作试样并测试其弯曲强度和弯曲弹性模量;利用透射电镜(TEM)观察高温处理过程对晶须表面形态的影响以及不同比例的熔附体形貌。结果 AlBw-SiO2熔附体复合填料可显著提高牙科复合树脂的弯曲性能;AlBw和SiO2的质量比为3∶1时牙科复合树脂的弯曲强度达(130.29±8.38)MPa。结论 TEOS溶胶-凝胶法水解所得的纳米SiO2含量可改善AlBw-SiO2熔附体填料复合树脂的弯曲性能。

氨基树脂改性丙烯酸树脂-蒙脱土纳米复合材料的制备

用丙烯酸、硫酸化蓖麻油、乳化剂OP-10、过硫酸钾为原料进行水溶液聚合制得丙烯酸树脂。将丙烯酸树脂与蒙脱土通过插层聚合制备了丙烯酸树脂/蒙脱土纳米复合材料。选用三聚氰胺、双氰胺、尿素为主要原料,制得了良好水溶性的氨基树脂预聚体,用预聚体对丙烯酸树脂-蒙脱土纳米复合材料改性制得最终产品。研究了蒙脱土的加入方式及用量、体系pH值、氨基树脂预聚体合成工艺条件等对最终产品的影响。结果表明:加入钠基蒙脱土,其用量为丙烯酸树脂固体份质量的1%～5%,氨基树脂预聚体固含量占整体混合溶液固含量的10%,pH值为7～9,产品的稳定性好,制备得到的主要是插层型或剥离型的纳米复合材料。

纳米SiO_2及无机盐改性丙烯酸树脂-有机硅烷复合钝化膜的耐蚀性能

为了提高丙烯酸树脂类钝化膜的耐蚀性能,以三甲基氯硅烷对纳米SiO2进行表面改性,制成分散液后与硅烷偶联剂KH-563、丙烯酸树脂及无机盐Ni(CH3COO)2等复配成无铬钝化液,对热镀锌板进行复合钝化。采用红外光谱测试了改性纳米SiO2的结构,采用粒度仪分析其粒径;利用扫描电镜和能谱分析了复合钝化膜的微观形貌和成分;采用电化学及中性盐雾试验分析了复合钝化膜的耐蚀性能。结果表明:纳米SiO2改性后,表面能降低,分散性良好;改性纳米SiO2与丙烯酸树脂发生交联作用,形成了网状结构,提高了复合钝化膜的致密性;复合钝化耐蚀性能较丙烯酸树脂钝化膜及热镀锌板显著提高。

KH-560和SEA-171表面处理纳米SiC改性氰酸酯树脂

采用模塑成型法制备了氰酸酯树脂(CE)/纳米SiC(nano-SiC)复合材料,分别采用小分子偶联剂KH-560和大分子偶联剂SEA-171对nano-SiC进行表面处理,考察了不同含量的nano-SiC对CE/nano-SiC复合材料性能的影响,采用透射电子显微镜(TEM)对复合材料的微观形貌进行表征,并通过模型对其作用机理进行了分析。结果表明,当w(nano-SiC)=1.0%时,经KH-560表面处理后的nano-SiC,其复合材料的冲击强度和弯曲强度比纯CE分别提高了86.28%和29.55%;经SEA-171表面处理后的nano-SiC,其复合材料的冲击强度和弯曲强度比纯CE分别提高了95.06%和34.69%;SEA-171的改性效果优于KH-560,对提高CE的力学性能更有利。

Bis-GMA/(SiO_2-ZrO_2)纳米复合树脂的制备与性能研究

目的:通过添加纳米无机填料对树脂基质进行增强增韧改性,来满足修复性牙科材料的要求,解决树脂基质耐磨性较差、强度低的问题,制备出合适的临床牙科修复材料。方法:采用原位分散法,双酚A-甲基丙烯酸缩水甘油酯(Bis-GMA)和双甲基丙烯酸二缩三乙二醇酯(TEGDMA)共同作为树脂基质,混合加入经过硅烷偶联剂(KH-570)表面处理的纳米氧化硅(SiO2)和二氧化锆(ZrO2)制备新型复合树脂,同时使用高速搅拌和超声分散等制备工艺来改善纳米填料分散体系,运用X射线衍射(XRD)、扫描电子显微镜(SEM)等实验手段对Bis-GMA纳米复合树脂材料进行性能测试及结构表征。结果:使用高速搅拌和超声分散技术可使经过表面处理的纳米SiO2和ZrO2均匀分散在树脂基质中,达到了纳米级原生粒子分散效果,发挥了不同无机填料间的相互作用,能够有效的提高复合树脂材料的机械性能。结论:该方法制备出的高性能Bis-GMA/nano(SiO2-ZrO2)复合树脂牙科材料,能充分满足临床牙科修复学需要。

蒙脱土-氨基树脂纳米复合材料的制备及表征

以天然蒙脱土(MMT)和十六烷基三甲基溴化铵(CTAB)改性的有机蒙脱土(OMMT)为原料,用具有阻燃性质的三聚氰胺、双氰胺-甲醛树脂缩合物(MDFP)作为插层剂与蒙脱土层间的阳离子进行交换,优化反应条件(改性时间、温度及质量配比),制备出层间距不同的蒙脱土-氨基树脂纳米复合材料,用XRD、FT-IR对产物进行表征。结果表明,三聚氰胺、双氰胺树脂缩合物已成功插层进入到两种蒙脱土层间。在50~70℃的水浴下加热,质量配料比小于10%,反应4 h的实验效果最好,有利于制备插层型或插层-剥离型蒙脱土-氨基树脂纳米复合材料。

纳米复合树脂和光固化复合树脂材料在前牙缺损修复中的美学效果及咀嚼功能对比

目的:对比分析纳米复合树脂和光固化复合树脂材料用于前牙美容修复中的应用价值及对修复效果、咀嚼功能的影响。方法:选取2020年2月-2022年2月于笔者医院接受前牙美容修复治疗的80例患者(共186颗患牙)为研究对象,根据随机数字表法将入组患者分为观察组和对照组,各40例。对照组给予光固化复合树脂修复,观察组给予纳米复合树脂材料修复,观察两组前牙修复的优良率,对比治疗前后牙周指标及咀嚼功能的变化。结果:治疗后,观察组前牙修复总优良率明显高于对照组(P<0.05);治疗后两组牙龈指数、龈沟出血指数、菌斑指数、牙松动程度、咬合力、咀嚼效率均得到较大改善(P<0.05),且观察组改善程度均优于对照组(P<0.05)。结论:纳米复合树脂和光固化复合树脂材料在前牙美容修复中均可发挥较好的临床效果,但前者优势更大,修复效果较光固化树脂更佳,不仅能改善牙龈健康状况,还能促进咀嚼功能提升,对于术后尽快恢复也具有积极意义。

碳纤维增强环氧树脂电镀Cu-SiO_2纳米微粒复合镀层

研究了电镀液中SiO2纳米微粒含量对碳纤维增强环氧树脂复合材料复合电镀层的影响。结果表明,硫酸铜电镀溶液中加入一定比例SiO2纳米微粒可使复合材料镀层维氏硬度提高,镀层晶粒得到明显细化,镀层致密度提高,随SiO2纳米微粒含量提高镀层导电性略有下降。

六方氮化硼增强环氧树脂基复合材料的研究进展

环氧树脂作为一种综合性能优异的热固性树脂在众多领域得到广泛应用,但是其固化后脆性大且断裂韧性比较低,六方氮化硼(h-BN)作为一种纳米填料与环氧树脂结合可以显著提高环氧树脂的各项综合性能,同时可以极大增强环氧树脂在实际应用中的潜力。文中首先系统介绍了h-BN的结构与性能特点,以及常用的制备、改性与分散方法。其次,着重阐述了h-BN作为纳米填料添加到环氧树脂中形成复合材料,其对于环氧树脂复合材料的热学、电学、机械以及防腐性能的影响,同时也对h-BN增强环氧树脂各种性能的研究进展进行了阐述。最后展望了h-BN/环氧树脂复合材料的发展与应用前景。

干滑动下端羟基聚丁二烯液体橡胶-环氧树脂复合材料的摩擦性能

用端异氰酸酯基聚丁二烯液体橡胶与环氧树脂制得端异氰酸酯基聚丁二烯橡胶-环氧树脂聚合物(ETPB)。在ETPB中分别加入质量分数为5%和10%的纳米三氧化二铝,并用胺类固化剂固化,制得ETPB/纳米三氧化二铝复合材料。测试了环氧树脂、ETPB和ETPB-纳米三氧化二铝复合材料在干滑动下的摩擦性能,考察了磨损率及摩擦系数与载荷和滑动速度之间的关系,用扫描电子显微镜对几种材料磨损表面进行了观察。结果表明,用端异氰酸酯基聚丁二烯液体橡胶改性环氧树脂可提高干滑动条件下环氧树脂的抗磨损性能;填充纳米三氧化二铝可显著提高ETPB的抗磨损性能,其最佳填充质量分数为5%。

纳米SiO_(2)/桐油基环氧树脂复合材料的制备及性能

通过制备环氧化桐油酸甲酯,并将其与E51环氧树脂共混,得到桐油基环氧树脂。再用硅烷偶联剂KH-570改性纳米SiO_(2),并以不同的质量比添加到桐油基环氧树脂中,探究不同纳米SiO_(2)含量在力学性能、接触角以及耐磨损性能上对桐油基环氧树脂复合材料的影响。结果表明:质量比为6%的纳米SiO_(2)的桐油基环氧树脂复合材料的拉伸和冲击强度都得到了提高,冲击强度较未加入纳米SiO_(2)提高了53.3%,水接触角也从93.3°提高到104.76°,并且添加纳米SiO_(2)之后复合材料的耐磨损性能也随之增强。