ZrO_(2)和UO_(2)芯块表面CeB_(6)涂层的制备和表征

CeB_(6)涂层作为适用先进反应堆燃料型号的自主化整体型可燃毒物材料,具有展平堆芯中子注量分布,实现长周期反应性控制和慢化剂负温度系数控制的功能,可集成在可燃毒物燃料元件中应用于压水堆反应堆堆芯。本研究采用磁控溅射方法在ZrO_(2)和UO_(2)圆柱芯块表面涂覆了CeB_(6)涂层。用X射线衍射仪(XRD)、扫描电镜(SEM)对涂层物相、结构和成分进行了表征,采用热循环及划痕法对涂层与基体的结合性能进行了考核。结果表明,ZrO_(2)和UO_(2)芯块表面制备的涂层为CeB_(6)且膜层较为纯净;CeB_(6)膜层与ZrO_(2)、UO_(2)基体结合性能良好,膜层生长致密均匀;ZrO_(2)基底上CeB_(6)膜层破坏的临界载荷为8.25 N;UO_(2)芯块基底上CeB_(6)膜层破坏的临界载荷为17.6 N。

激光功率对选区激光熔化成形CeB_(6)/AlSi10Mg力学性能的影响

用选区激光熔化成形方法在不同激光功率下制备了CeB6/AlSi10Mg合金,借助激光共聚焦检测仪、光学显微镜(OM)、扫描电镜(SEM)和万能试验机研究了合金表面的显微组织、粗糙度、致密度和力学性能。结果表明:当激光能量密度为64.81 J/mm3时,合金表面的显微组织缺陷最少,三维表面粗糙度最小,致密度最大。添加CeB6有利于提高合金的微结构。在合适的成形参数下,添加CeB6的AlSi10Mg合金的抗拉强度明显高于未添加的AlSi10Mg合金。

6–氨基异喹啉的荧光增强及在白光膜中的应用

有机发光二极管(organic light-emitting diode,OLED)在新一代的照明、显示等领域有着广阔的应用前景。在OLED的制备中,蓝色荧光染料起着不可或缺的作用。使用苯磺酸(benzenesulfonic acid,BSA)将蓝色荧光染料6-氨基异喹啉(6-aminoisoquinoline,6-AIQ)质子化改性为6-AIQ-BSA,使其荧光量子效率从64.71%上升至85.84%。为制备高效的白光薄膜,利用桶状分子羟丙基-β-环糊精(hydroxypropyl-β-cyclodextrin,HP-β-CD)对6-AIQ-BSA实施了超分子包覆,以降低高浓度下荧光猝灭现象。实验表明,将6-AIQ-BSA@HP-β-CD与橙光染料DAST@HP-β-CD以1.7∶1比例混合可以实现白光发射,其CIE色坐标为(0.3324,0.3284)。该混合物薄膜具有白光性好,轻量和柔软等特点,在柔性发光器件中有着广阔的应用潜力。

Microstructure and abrasive wear behaviour of anodizing composite films containing Si C nanoparticles on Ti6Al4V alloy

Anodized composite films containing Si C nanoparticles were synthesized on Ti6Al4 V alloy by anodic oxidation procedure in C4O6H4Na2 electrolyte. Scanning electron microscopy(SEM), energy dispersive spectroscopy(EDS) and X-ray photoelectron spectroscopy(XPS) were employed to characterize the morphology and composition of the films fabricated in the electrolytes with and without addition of Si C nanoparticles. Results show that Si C particles can be successfully incorporated into the oxide film during the anodizing process and preferentially concentrate within internal cavities and micro-cracks. The ball-on-disk sliding tests indicate that Si C-containing oxide films register much lower wear rate than the oxide films without Si C under dry sliding condition. Si C particles are likely to melt and then are oxidized by frictional heat during sliding tests. Potentiodynamic polarization behavior reveals that the anodized alloy with Si C nanoparticles results in a reduction in passive current density to about 1.54×10-8 A/cm2, which is more than two times lower than that of the Ti O2 film(3.73×10-8 A/cm2). The synthesized composite film has good anti-wear and anti-corrosion properties and the growth mechanism of nanocomposite film is also discussed.

PA 6/PA 612共混双向拉伸膜的制备及结晶行为研究

以质量比8020的尼龙6(PA 6)和尼龙612(PA 612)共混制备PA 6/612流延膜,再经纵向和横向拉伸制得PA 6/612双向拉伸膜,考察共混膜的力学性能、熔融结晶行为、微观形貌、结晶结构,并采用Jeriorny修正的Avrami方程、Ozama方程及莫志深方法分析共混膜的非等温结晶动力学。结果表明:PA 6/612双向拉伸膜的纵向、横向抗拉强度分别为249,244 MPa,透光率为92%,雾度为5%,表现出优异的透明性和力学性能;PA 6/612流延膜的结晶温度和起始结晶温度分别为182.2℃和188.1℃,相对于纯PA 6和纯PA 612向低温方向移动,结晶能力降低;PA 6/612流延膜等温结晶过程的晶体为条带状,无黑十字消光图案,晶体尺寸较PA 6、PA 612流延膜小;PA 6/612流延膜以结构不稳定的β晶为主,含有少量α晶和γ晶,有利于双向拉伸;PA 6/612流延膜的Ozama指数在3.5~4.4,表现为三维球状生长的均相成核机理。

Synthesis of free-standing Ga_2O_3 films for flexible devices by water etching of Sr_3Al_2O_6 sacrificial layers

Flexible electronic devices have attracted much attention due to their practical and commercial value. Integration of thin films with soft substrate is an effective way to fabricate flexible electronic devices. Ga_2O_3 thin films deposited directly on soft substrates would be amorphous mostly. However, the thickness of the thin film obtained by mechanical exfoliation method is difficult to control and the edge of the film is fragile and easy to be damaged. In this work, we fabricated free-standing Ga_2O_3 thin films using the water-soluble perovskite Sr_3Al_2O_6 as a sacrificial buffer layer. The obtained Ga_2O_3 thin films were polycrystalline. The thickness and dimension of the films were controllable. A flexible Ga_2O_3solar-blind UV photodetector was fabricated by transferring the free-standing Ga_2O_3 film on a flexible polyethylene terephthalate substrate. The results displayed that the photoelectric performances of the flexible Ga_2O_3 photodetector were not sensitive to bending of the device. The free-standing Ga_2O_3 thin films synthesized through the method described here can be transferred to any substrates or integrated with other thin films to fabricate electronic devices.

Electrochemical Hydrogen Charging on Corrosion Behavior of Ti-6Al-4V Alloy in Artificial Seawater

This study employs advanced electrochemical and surface characterization techniques to investigate the impact of electrochemical hydrogen charging on the corrosion behavior and surface film of the Ti-6Al-4V alloy.The findings revealed the formation ofγ-TiH andδ-TiH_(2) hydrides in the alloy after hydrogen charging.Prolonging hydrogen charging resulted in more significant degradation of the alloy microstructure,leading to deteriorated protectiveness of the surface film.This trend was further confirmed by the electrochemical measurements,which showed that the corrosion resistance of the alloy progressively worsened as the hydrogen charging time was increased.Consequently,this work provides valuable insights into the mechanisms underlying the corrosion of Ti-6Al-4V alloy under hydrogen charging conditions.

Characteristics of Sb6Te4/VO2 Multilayer Thin Films for Good Stability and Ultrafast Speed Applied in Phase Change Memory

The Sb6 Te4/VO2 multilayer thin films are prepared by magnetron sputtering and the potential application in phase change memory is investigated in detail. Compared with Sb6 Te4, Sb6 Te4/VO2 multilayer composite thin films have higher phase change temperature and crystallization resistance, indicating better thermal stability and less power consumption. Also, Sb6 Te4/VO2 has a broader energy band of 1.58 eV and better data retention （125℃ for 103/）. The crystallization is suppressed by the multilayer interfaces in Sbf Te4/VO2 thin film with a smaller rms surface roughness for Sbf Te4/VO2 than monolayer Sb4Te6. The picosecond laser technology is applied to study the phase change speed. A short crystallization time of 5.21 ns is realized for the Sb6Te4 （2nm）/VO2 （8nm） thin film. The Sb6 Te4/VO2 multilayer thin film is a potential and competitive phase change material for its good thermal stability and fast phase change speed.

固相增黏环境氧含量对超高黏尼龙6 薄膜晶点的影响

以相对黏度为3.3的尼龙6(PA 6)切片为原料,在不同氧含量环境下,通过固相增黏制备超高黏尼龙6(PA 6)切片,并利用小型实验室吹膜机制得相应超高黏PA 6薄膜,研究了环境氧含量对超高黏PA 6切片熔融结晶行为、紫外性能,以及相应超高黏PA 6薄膜晶点数和晶点形貌的影响。结果表明:超高黏PA 6切片的结晶起始温度、结晶峰温度、结晶焓随环境氧含量的提高先增大后下降;超高黏PA 6薄膜的晶点数随着环境氧含量的提高而增多,当环境氧含量大于10 mg/kg时,超高黏PA 6薄膜的晶点数超过3个/cm 2,无法满足使用要求;室温下超高黏PA 6切片薄膜的晶点呈带状,当温度升至300℃,晶点周围PA 6完全融化,但晶点仍保持形态不变;PA 6切片在热氧的作用下发生交联反应形成凝胶物质是导致晶点形成的主要原因。

配体调控CsPbBr_(3)/Cs_(4)PbBr_(6)复合薄膜的合成、发光性能及白光LED应用

全无机CsPbX_(3)(X=Cl,Br,I)钙钛矿纳米晶(PNCs)的合成通常需要高温条件和惰性气体的参与,严重阻碍了其实际应用。本文首先利用2-甲基咪唑配体调控再结晶的方法在室温下成功地制备出具有优异发光性能的双相CsPbBr_(3)/Cs_(4)PbBr_(6)PNCs,然后与多种聚合物结合制备出纳米晶复合薄膜。通过X射线粉末衍射(XRD)、透射电子显微镜(TEM)和紫外-可见吸收光谱等测试,证明了聚合物中的双相钙钛矿结构,筛选出综合性能优异的CsPbBr_(3)/Cs_(4)PbBr_(6)@PDMS和CsPbBr_(3)/Cs_(4)PbBr_(6)@EVA复合薄膜,并进行了发光二极管(LED)器件封装。通过Cs4PbBr6 PNCs和聚合物的双重保护,CsPbBr_(3)/Cs_(4)PbBr_(6)@PDMS显示出超过80%的荧光量子产率(PLQY),CsPbBr_(3)/Cs_(4)PbBr_(6)@EVA的水稳定性和空气稳定性得到了显著提高。最后,将CsPbBr_(3)/Cs_(4)PbBr_(6)@EVA复合薄膜成功应用于白光LED器件,其CIE色度坐标为(0.331,0.332),具有标准白光发射。

C-6膜粘附水中日本血吸虫尾蚴技术的研究

在实验室和现场水面,应用C-6膜多点抽样粘取方法检测水中尾蚴。获蚴率达40％,高于现用的尼龙绢条粘取沉淀法约20倍,在现场用现有方法未查获尾蚴的水面,调查钉螺阳性率为零或灭螺后的水面,本法可在一些环境查获尾蚴。本法操作简便,当天可有检测结果,费用仅约为哨鼠法的1％,利于广泛应用。

LDPE/PA6共混阻透薄膜的研制

将LDPE、PA6和PE -g -MAH等混合后加入单螺杆挤出机内 ,经熔融挤出吹塑制成LDPE/PA6共混阻透薄膜。通过考察成型工艺条件及PA6和PE -g -MAH的用量对薄膜阻透性能和力学性能的影响 ,确定了共混配方和薄膜制备工艺 ,阻透薄膜的阻透性能与纯LDPE薄膜相比提高了 10倍以上。

MXD6和黏土对PA6复合薄膜阻隔性能影响的研究

制备了尼龙6(PA6)/聚己二酰间苯二甲胺(MXD6)/黏土共混吹塑薄膜,并研究添加MXD6、黏土对PA6薄膜晶型结构、力学及阻隔等性能的影响。结果表明,MXD6的加入使得PA6的α晶型趋向转化为γ晶型,结晶能力总体降低,薄膜拉伸强度先降低后随着刚性基团的增加逐渐升高,断裂伸长率总体提高。仅加入5份MXD6即可有效提高PA6薄膜对水和二甲苯的阻隔性能,而少量黏土的加入则大幅度提高其对二甲苯的阻隔能力。

填充聚四氟乙烯对尼龙6摩擦磨损性能影响的研究

用Timken试验机考察了热压成形的PTFE填充尼龙6在干摩擦状态下的摩擦磨损性能及PTFE填充量、滑动速度和负荷对摩擦磨损的影响,并用X-光电子能谱仪(XPS)和电子探针(EPMA)研究了金属偶件摩擦表面转移膜的组成与形貌。结果表明,在给定的试验条件下,填充PTFE能够有效地改善尼龙6的摩擦磨损性能,PTFE的填充量在8～20％(vol)之间时的效果较好,8％PTFE填充尼龙6的PV值可比纯尼龙6的高1倍;填充PTFE的效用主要取决于转移膜的特性和PTFE在转移膜中的富集量。

中药贴膜对兔膝骨性关节炎关节液中IL-1、IL-6、THF-α、HA含量水平的影响

目的:通过研究中药贴膜治疗早期兔膝关节骨性关节炎模型关节液白细胞介素-1(IL-1)、白细胞介素-6(IL-6)、肿瘤坏死因子-α(TNF-α)、透明质酸(HA)含量变化,评价其治疗膝骨性关节炎的效果。方法:应用Hulht方法建立兔右膝关节骨性关节炎模型,随机分为模型对照组、治疗1组、治疗2组、治疗3组。分别采用医用橡皮膏外敷、传统方法粉碎的中药粉外敷、玻璃酸钠关节内注射、中药贴膜外敷治疗,另取10只健康白兔作为正常组。治疗6周后采用Elisa法测定各组实验动物右膝关节液IL-1、IL-6、TNF-α的含量;采用放射免疫分析法测定各组实验动物右膝关节液HA的含量变化。结果:关节液中IL-1、IL-6、TNF-α的含量测定结果显示,正常组最低,模型对照组最高;治疗1、2、3组治疗后均有改善,其中治疗2、3组治疗结果优于治疗1组;治疗3组IL-1、IL-6检测结果与治疗2组无差别,TNF-α含量检测结果低于治疗2组。关节液中HA含量测定结果显示模型对照组最低;治疗1、2、3组治疗后均优于模型对照组,其中治疗2组最高,治疗3组其次,治疗1组最低。结论:中药贴膜可以改善动物模型关节液中IL-1、IL-6、TNF-α、HA含量水平,推测中药贴膜治疗骨性关节炎作用机理与降低关节液中IL-1、IL-6、TNF-α,增加HA含量有关。

络合对高黏度尼龙6性能的影响

为了考察络合对尼龙6性能的影响,利用红外光谱、X-射线衍射和DSC研究了高相对黏度尼龙6在与络合剂CaCl2络合及解络过程中性能的变化.通过对纯尼龙6和PA6-CaCl2络合物的溶液制膜进行的比较研究,发现络合后的膜红外光谱图中N-H键、酰胺I带、酰胺II带的位置都发生了偏移.DSC谱图显示:络合后的聚合物熔点降低、熔程变宽、焓变增大,结晶形态也随处理条件不同发生了很大变化.

W^(6+)-TiO_2新型基体复合材料的制备及光催化活性影响研究

以钛酸丁酯和钨酸钠为原料,采用溶胶-凝胶法在不同基体材料上制备了掺杂W6+的TiO2纳米复合材料。利用扫描电子显微镜(SEM),X射线衍射(XRD)及紫外-可见漫反射光谱对其TiO2薄膜的TiO2颗粒形态和相组成进行了详细研究,并以甲基橙为模拟对象,研究了不同浓度的W6+掺杂对催化剂光活性的影响。结果表明:降解效率(η%)随载体、掺杂浓度不同而变,最佳的离子掺杂浓度也有差别;掺杂离子半径、电负性等对TiO2相组成存在一定的影响。

尼龙6/半芳香族尼龙阻隔薄膜的制备及特性

通过尼龙6(PA6)和半芳香族尼龙(MXD6)熔融共混的简单方法制备了一系列的PA6/MXD6共混物,以提高PA6薄膜的阻隔性能。将PA6/MXD6吹塑成膜,利用差示扫描量热法(DSC)、X射线衍射(XRD)、雾度测试和渗透率测试等手段研究了MXD6加入量对薄膜各种性能的影响。此外,考虑到PA6薄膜在耐蒸煮包装领域的应用,文中同时探讨了高温蒸煮对PA6/MXD6共混物薄膜微观结晶结构的影响。PA6/MXD6薄膜的氧气渗透系数会随MXD6的加入而显著降低,明显提高了薄膜的阻隔性,当MXD6用量为20%时达到最佳值;MXD6的加入还显著提高了PA6薄膜的透明性,雾度测试发现PA6/MXD6共混物薄膜的雾度随着MXD6的含量增加而减小,MXD6含量为50%时,其雾度仅为3.59%;DSC和XRD测试结果发现,高温蒸煮过程会提高PA6/MXD6薄膜的结晶度,并促使γ晶型向α晶型转变。熔融共混法利于PA6/MXD6薄膜的大规模生产。

γ射线辐射对尼龙6复合薄膜性能的影响

用 Co γ 射线对尼龙 6 复合薄膜(五层共挤出复合薄膜,尼龙 6/粘接聚乙烯/聚乙烯/粘接聚乙烯/尼龙 6) 60进行辐射改性。研究了辐照剂量对材料性能的影响。结果表明,在 10—50kGy 的剂量范围内,尼龙 6 复合薄膜的机械性能大为提高,收缩率明显减小,尺寸稳定性明显提高,同时,仍保持其原有的良好阻隔性能。

2,4,6-三硝基苯酚在掺杂了铕(Ⅲ)离子的类普鲁士蓝膜修饰的玻碳电极上的电催化还原反应

摘要：制备了用掺杂铕（111）离子的类普鲁士蓝膜修饰的玻碳电极，并研究了2，4，6-三硝基苯酚在此修饰电极上的电化学行为。试验结果表明：与裸玻碳电极相比，2，4，6-三硝基苯酚在此修饰电极上的还原峰电流显著提高，还原电位大大降低，且工作曲线的线性范围明显增宽。在此基础上提出了-种高灵敏度直接测定2，4，6-三硝基苯酚的伏安测定法。在优化的条件下，测得特征还原峰的电流值与2，4，6-三硝基苯酚浓度在4．0×10-5～2．0×10-3mol·L-1及2．0×10-7～8．0×10-6mol·L-1范围内呈线性关系，方法的检出限（3σ）为6．0×10-8mol．L-1。以黄河水样作为基体，用标准加入法做回收试验，测得回收率在97．7％～103．3％之间。