水平驱动光开关采用单层体硅结构,另外两种光开关都采用了硅-玻璃的键合结构。
The first is formed with monolayer bulk silicon structure, the others use the silicon on glass bonding structures.
研究结果指出,接触法炭黑与氧化炉法炭黑的表面在碳氧键合结构形式及含量上有很大的差异;
The differences in structural type and contents of carbon-oxygen single bond between the contact black and the furnace black are very evident.
根据超声引线键合实验平台电路结构,设计了PZT(压电陶瓷)驱动信号采集电路。
According to the circuit of ultrasonic wire bonding experiment platform, a piezoelectric transducer (PZT) driver signal acquisition circuit was designed.
增韧效果与体系的相态结构、化学键合和环氧基体的延展性有关。
The toughening efficiency was related to morphology, chemical bonding and epoxy resin matrix deformation of the system.
射线晶体结构表明,环糊精与客体分子以1:1 的化学计量比键合。
X-ray crystallographic analysis displaces that the cyclodextrin includes guest molecule with 1:1 stoichiometry.
对C18键合硅胶基质整体柱的结构和色谱行为进行了研究。
The structure and chromatographic behavior of C18 bonded monolithic silica capillary columns were characterized in this thesis.
从静电驱动的角度阐述此种反射镜的结构设计原理,并对具体加工中的腐蚀和键合工艺进行了详细讨论。
The design of structure was put forward from the theory of electrostatic actuating and some aspect associated with the process such as etching and bonding were discussed in details.
刚性粒子表面带环氧官能团后,与基本材料形成了化学键合的界面层结构,对粒子的增韧也十分有利。
The data also show that the particle surface having some epoxy groups can be of great advantage to toughening because the chemical bond is formed in the interphase between particle and matrix.
本文综述了基于化学键合作用的荧光探针及其常见的键合类型和染料母体结构。有48篇参考文献。
The fluorescent probes based on chemical bonding, the types of bonding and the structures of dye moieties are reviewed with 48 references.
它的分子结构中含有双键、羧基和阴离子,可以把常用乳化剂乳化时在乳胶粒表面的物理吸附结合方式改变为化学键合形式。
Using the emulsifier, the way of physical absorption that con- ventio nal emulsifiers combine with the latex can be transferred into chemical bonding .
但是络合物活性和结构间的确切关系以及DNA和铂络合物的键合性质迄今仍不清楚。
But the exact structure-activity relationship and the nature of binding between DNA and platinum complex are not yet understood.
在此基础上确定了自动组装系统的组成结构,并详细介绍了研制的具有力感知功能的微操作手、三工位键合炉以及显微视觉等关键技术模块。
The automatic assembly system consists of a micro force sensor integrated micromanipulator, a bonding centre with three working cells, and a microscopic vision module.
最后,采用室温键合技术,将带有微纳结构的基片与盖片封合成玻璃微-纳流控复合芯片。
Finally, the channel-structured glass substrate was sealed to a cover glass plate by using room temperature bonding technique.
其合成方法以溶液聚合为好。增韧效果与体系相态结构、界面键合和环氧基体的延展性有关。
The best synthetic method was solution polymerization and the toughening efficiency was related to morphology, interfacial bonding and matrix deformation of the system.
传感器的结构建立在SOI材料上,在关键工艺中采用硅熔融键合技术。
The structure, which is fabricated on the SOI material, and its fabrication process have been designed based on the theoretical analysis.
利用该多孔纳米结构作为键合层,由于纳米尺度效应,可以在较低的温度和压力下实现热压键合。
The porous nano-structure is used as a bonding layer, and thermocompression bonding can be realized at lower temperature and pressure due to the nano-scale effect.
还通过对该复合材料的结构表征初步推测,该复合材料含有硫醇基,由硫-硫键断裂和键合实现能量释放与存储。
From the structural characterization, it is deduced that this composite material includes a polymer with mercaptan attaching to the...
还通过对该复合材料的结构表征初步推测,该复合材料含有硫醇基,由硫-硫键断裂和键合实现能量释放与存储。
From the structural characterization, it is deduced that this composite material includes a polymer with mercaptan attaching to the...
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