玻璃微球

Ar在玻璃微球中的辐照增强扩散效应研究

Radiation enhancing diffusion of Ar into hollow glass microsphere

SiO2水玻璃微球辐射增强扩散研究

Radiation - enhanced Diffusion in Glass Microsphere

肝癌组织经~（32）P玻璃微球内放射治疗后的细胞凋亡改变

Apoptosis after Phosphorus-32 Glass Microspheres Intra-Radiotherapy in Hepatocellular Carcinoma

放射性医用~（32）P玻璃微球的研制

Research on Radiotherapy Phosphorus - 32 Glass-microsphere

经皮瘤内注射~（32）P玻璃微球对肝癌组织的影响

Influence on the tumor after percutaneous intra-tumor injection of ~ ( 32 ) P-GMS in liver cancer

Al2O3引入对空心玻璃微球化学稳定性的提高

Improvement of chemical stability of hollow glass microspheres by introducing Al_2O_3

空心玻璃微球负载TiO2光催化回收银

Immobilization of TiO_2 on Hollow Glass Microbeads and Photocatalytic Recovery of Silver

空心玻璃微球附载TiO2清除水面漂浮的油层

Photocatalytic degradation of oil films floating on water by TiO 2 supported hollow glass

小剂量顺铂联合~（32）P玻璃微球对小鼠S180瘤细胞的细胞毒作用

Cellular Toxic Effect of Low Dose Cisplatin Combined with Interstitial Injection of ~ ( 32 ) P Glass Microspheres on Mouse Solid Tumor S180

通过X射线光电子能谱（XPS）和X射线衍射仪（XRD）对玻璃微球／银复合微球的表面化学组成进行分析。

The chemical composition of the Ag / silica beads core-shell composite particles were studied by X-ray photoelectron spectroscopy ( XPS ) and X-ray diffraction ( XRD ) .

对于镍包覆空心玻璃微球，400℃热处理可以使Ni-P合金镀层晶化，并使晶粒长大，有利于提高镀层的磁性能。

Heat treatment on Ni-coated hollow glass microspheres can crystallize the Ni-coating , which is beneficial for improving the magnetism of the products .

制备了掺有稀土发光材料的高折射率玻璃微球，并用XRD、SEM等进行了表征。

Glass microspheres doped with rare earth elements were prepared and characterized by powder X ray diffraction ( XRD ), scanning electron microcopy ( SEM ), and Raman spectrum and so on .

通过CO2激光器熔融不同直径的熔锥光纤以得到相应直径的石英玻璃微球，利用此微球和熔锥光纤，构造了球微腔耦合系统。

The quartz microspheres with different diameters are fabricated by melting the taper fibers with corresponding diameters using CO2 laser . The spherical microcavity coupling system is constructed with taper fiber and the quartz microsphere .

已经应用于神光I和II系列实验的薄壁玻璃微球，壁厚降到1μm以下，提高了中子产额，并获得内爆特征信息。

Hollow glass microsphere with thin wall ( below 1 μ m ) has been used in Shen-Guang I ( SGI ) and Shen-Guang II ( SGII ), which improves neutron yields and provides critical information in explosion .

以空心玻璃微球为载体，采用浸涂法制备TiO2／beads光催化剂；

The TiO 2 / beads photocatalyst was prepared by the dip coating technique using the hollow glass microbeads as a supporter and TiO 2 / beads were characterized by XRD , SEM and TG DTA .

本文在理论上模拟了钕玻璃微球在810nm波长附近的共振光谱，并通过与实验结果的比较识别和分析了出现的模式。

The resonant spectra around 810 um wavelength of a Nd-glass microsphere was simulated theoretically .

目的探讨经肝动脉灌注32磷玻璃微球（32PGMS）核素内照射治疗手术不能切除的肝细胞癌的疗效。

Objective To investigate the efficacy of internal radiation of 32 P glass microspheres ( 32 P GMS ) in unresected hepatocellular carcinoma ( HCC ) via subcutaneous arterial port .

利用该法在空心玻璃微球中充入了0.02～3MPa的氖诊断气体。

The gas Ne has been filled in glass microsphere with pressure of 0.02 ~ 3MPa by this method .

分别测量了TiBa玻璃微球和TiBa平板玻璃的拉曼光谱，发现TiBa玻璃微球的拉曼光谱上有明显的结构共振。

The Raman spectra of TiBa glass plate and TiBa glass microsphere were measured and the structural resonance in Raman spectrum of glass microsphere was found .

【结论】腹腔注射小剂量顺铂联合32P玻璃微球间质注射内放射治疗对小鼠S180实体瘤细胞的细胞毒作用较单独应用有明显增强。

[ Conclusion ] The combination using of low dose cisplatin interstitial injection of 32P-GMS is able to enhance the cellular toxic effect on mouse solid tumor S180 comparing to single using of cisplatin or 32P-GMS .

球面调制靶的制备技术是ICF研究的重要组成部分之一，其关键难点集中在对空心玻璃微球（HGM）外表面生成预定的扰动条纹的微细加工。

Manufacturing technology of micro-spheres perturbation target is an important part of ICF research , the key difficulty is micro-machining on the surface of a HGM ( Hollow Glass Micro-spheres ) and engendering scheduled perturbing stripe .

空心玻璃微球（HGM）在常温常压下对DT气体的渗透率低，机械强度高，在惯性约束聚变靶的制备工艺中是一种常用的DT燃料容器。

Hollow glass microsphere has low penetrating efficiency to DT gas at room temperature and common pressrue , as well as high mechanical intensity , which makes it usually be used as the vessel of DT fuel in ICF .

本文报告了应用90y玻璃微球制剂治疗BALB/C裸小鼠移植性人肝癌的效果。

In this study , Y-90 glass microsphere have been given by means of external regional infusion therapy to BALB / C nude mice bearing liver cancer transplanted from man .

目的研究瘤体内注射32磷-玻璃微球（32P-GMS）对裸鼠人肝癌移植瘤的抗癌作用。

Objective To study the antitumor effect of phosphorus-32 glass microspheres ( 32 P GMS ) intratumoral injected to the implanted human hepatocellular carcinoma cell mass of nude mice .

实验及测试结果表明，添加了中空玻璃微球HGS的水泥浆有效地降低了密度，并且其混合、泵送及抗压强度、胶结质量等完全可以满足井下作业的要求。

Results indicates that the hollow glass microsphere can reduce the density of HGS light weight slurry effectively , and also the blending , pumping , compressive resistance and cementing quality of this material can meet downhole operation 's requirements .

这种新的方法采用偶联液处理空心玻璃微球，它可以增加微球表面的活性点，加快化学镀反应速度，提高微球包覆率，还可以在10um小粒径微球上得到致密包覆层。

The new pretreatment method followed by electroless plating can increase the number of active spots on the surface of glass spheres , improve the plating speed , complete the plating coat , plate metal on 10 um diameter micro-sphere .

用火焰飘浮法制备了3种组成的镝锂硼（Dy2O3Li2OB2O3，简称DyLB）玻璃微球。

Dysprosium lithium borate ( DyLB ) glasses with three different compositions were prepared by traditional melting process in the system of Dy_2O_3-Li_2O-B_2O_3 , and then were made into glass microspheres using flame spray spheroidization process .

在超声引导下将不同剂量~（90）Y玻璃微球（~（90）YGM）注入兔肝内，以观察局部注射后同位素的体内分布及注射区肝脏的组织学变化。

Different doses of ~ ( 90 ) Y glass microspheres weres injected into the livers of rabbits under ultrasound guidance to observe the distribution of isotope in the body and the histologic alteration in the liver .

对于直径200μm，壁厚2μm的空心玻璃微球，球内氢气最高压力可达20～25MPa，单位质量贮氢效率为13%～16%。

The maximum hydrogen pressure could reach 20 & 25 MPa in the hollow glass microspheres with 200 μ m diameter and 2 μ m membrane thickness . The hydrogen mass fraction was 13 % to 16 % .

在对玻璃微球性质的分析和准分子激光机光路传输系统解析的基础上，讨论了利用248nmKrF准分子激光刻蚀玻璃材料的问题。

Based on the analyzation of the properties of HGM and the BDS ( Beam Delivery System ) of the 248 nm KrF excimer laser , several problems of etching glass micro-spheres utilizing excimer laser were discussed , and several experiments of etching glass chips were successfully carried out .