Analyzed the change of hydrate in autoclaved fly ash lime system with acid dissolve, X-ray Diffraction (XRD), Infrared Spectroscopy (IR) and Scanning Electron Microscope (SEM).
通过酸溶、X射线衍射、红外光谱和扫描电镜等手段分析了粉煤灰石灰蒸压系统中水化产物的变化。
To solve the problem of abnormal temperature rise of generator stator slots, unknown foreign powder in the 300MW generator stator water cooling system was characterized and analyzed by SEM and EDS.
为解决发电机定子线圈槽的异常升温现象,利用扫描电子显微镜、能谱仪等现代分析手段对300MW发电机定冷水系统不明异物进行了表征和分析。
Heat resistance, curing reaction, and morphology of the modified phenolic resin system were characterized by TG, DSC, SEM and tem.
借助TG、DSC、SEM和TEM对改性酚醛树脂体系的耐热性能、固化反应和微观形态进行了表征。
A high speed image scanning system was designed to meet the requirement of fast scanning large images, which was based on scanning electron microscopy (SEM).
为满足快速扫描大面积图形的需要,设计了基于扫描电镜的高速图形检测系统。
The distribution of the wollastonite short fiber in the system was observed by means of SEM and a reinforce model of the inorganic short fiber was advanced.
借助扫描电镜,分析硅灰石短纤维在体系中的分散情况,并提出无机短纤维的增强模型。
Effect of transesterification on high-pressure crystallization behaviour of PET/PC blend system was investigated by torque rheometer, DSC, SEM and WAXD measurements.
利用转矩流变仪、DSC、SEM及WAXD等表征手段研究了PET/PC共混体系的酯交换反应对其高压结晶行为的影响。
SEM indicated that the microstructure of Haversian system was destroyed under the impact of bone diagenesis.
其骨组织的显微结构分析指出,成岩作用业已严重破坏了骨骼的哈佛氏系统结构。
The paper studies the influence of temperature system on the microstructure and behaviors of high-performance quartz sand sintering brick by XRD and SEM analyses.
利用石英砂制备高性能石英砂烧结砖,通过对原料和砖体物相分析、砖体的显微结构分析以及砖体的物理性能分析,研究温度制度对砖体性能的影响。
The paper studies the influence of temperature system on the microstructue and behaviors of high-performance quartz sand sintering brick by XRD and SEM analyses.
利用石英砂制备高性能石英砂烧结砖,通过对原料和砖体物相分析、砖体的显微结构分析以及砖体的物理性能分析,研究温度制度对砖体性能的影响。
Microstructure and stress of broad-beam laser hardened gear was studied with SEM, tem and X-ray stress analysis system.
利用扫描电镜、透射电镜和X射线应力分析系统,对齿轮宽带激光淬火后淬硬层显微组织和应力特性进行了细致分析。
DSC, DMA, complex impedance analysis, SEM, and AFM were used to investigate the properties and morphology of the system.
运用差示扫描量热分析、动态力学分析、交流复阻抗谱、扫描电镜和原子力显微镜对体系性能和形态进行了研究。
XRD and SEM are used to analyze hydration-hardening mechanism of the compound system.
并通过XRD、SEM对复合胶凝体系水化、硬化机理进行分析。
It investigated by the measurement of the mechanical properties and SEM show that the filling composite system has an excellent mechanical and properties.
材料经性能测试及扫描电镜(SEM)观察,结果表明;复合体系具有良好的力学性能和加工性能。
The microstructure is observed by means of SEM and phase composition analyzed by XRD. On the basis of the investigation, an optimum heat press system is established.
采用SEM、X射线衍射分别对复合介质的微观结构及其相组成进行了观察与分析,并获得了制备低损耗复合介质的最佳热压工艺制度。
SEM analysis indicated that there was remarkable toughness fracture surface morphology for the epoxy resin system modified with ESBSVP.
SEM结果表明,经ESBSVP改性的环氧树脂体系断面呈现出明显的韧性断裂特征。
By SEM analysis, the addition of CA improved the mutual disperse of TPS and PE, and there also isn't obvious phase interface. So TPS and PE formed an evenly continuous phase system on the whole.
扫描电镜分析结果表明,CA的加入改善了淀粉的塑化程度,提高了TPS在PE中的分散分散性,同时TPS和PE之间也没有了明显的相界面,基本上形成了一个均匀的连续相体系。
The Scanning electron microscopy(SEM) photographs of fracture surface of the hybrid material show that the hybrid material presents homogeneous system without obvious inorganic particle forming.
杂化材料的断面扫描电镜(SEM)分析表明, 硅氧烷的水解缩合并未形成大颗粒纳米粒子而是形成均相体系。
The results proved that different series of SBS could increase the toughness of UP resin and the system was a blend multiphase system with SEM.
结果表明:不同系列的SBS对不饱和聚酯树脂韧性均有提高;SEM测试表明该体系为共混多相体系。
Kinetics of hydrothermal reaction in lime-sand system was investigated by means of quantitative phase analysis, SEM observation, and compressive strength measurement.
本文采用定量相分析法测定灰砂系统水热反应的水化物,并通过SEM观察及试块强度测定等研究了灰砂系统水热反应动力学。
The compositions of the coatings were analyzed by energy dispersive X-ray microanalysis system (EDS). The morphology of the coatings was observed by scanning electron microscopy (SEM).
采用能量色散x射线谱(EDS)分析得出涂层成分,利用扫描电子显微镜(SEM)观察涂层形貌。
The compositions of the coatings were analyzed by energy dispersive X-ray microanalysis system (EDS), and the morphology of the coatings was observed by scanning electron microscopy (SEM).
采用能量色散x射线谱(EDS)分析得出镀层成分,利用扫描电子显微镜(SEM)观察镀层形貌。
The image acquisition system of SEM was designed based on the PCI bus to control the scanning generator, the image acquisition, data communication and the photograph system.
图像采集系统是扫描电镜的一个重要组成部分,用于控制扫描电镜的扫描电源,视频图像采集、数字化与显示,电镜主控计算机与底层微机板的通讯和电镜照相。
They were characterized and analyzed by FE-SEM, Energy Dispersive System(EDS) and X-ray Diffraction (XRD).
利用FE-SEM、能谱分析仪(EDS)和X射线衍射分析(XRD)对其进行了表征和分析。
Furthermore, SEM results indicate that fracture surface of modified system presents ductile fracture features with the increasing of Mioxd content.
SEM结果表明改性后材料断裂面的形态逐渐呈现韧性断裂特征。
Furthermore, SEM results indicate that fracture surface of modified system presents ductile fracture features with the increasing of Mioxd content.
SEM结果表明改性后材料断裂面的形态逐渐呈现韧性断裂特征。
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