1) SEM microanalysis
SEM显微分析
1.
The chinese sulfate types acid rain\'s condition is simulated,taking ordinary portland cement blank mortar to be the contrastive system;using slag micro-fine powders to improve the concrete property of resisting acid rain is researched;the law of the properties are studied through mass loss rate,compressive strength loss,flexural strength loss and SEM microanalysis.
综合考虑抗压强度和抗折强度,25%掺量最能强化砂浆抗酸雨侵蚀的性能;在SEM显微分析中可以观察到,矿粉砂浆较空白砂浆结构密实,微裂纹少。
2) SEM analysis
SEM分析
1.
Cement experimental method,chemical analysis,XRD analysis and SEM analysis are used in this paper.
方法采用水泥性质实验、化学分析、XRD分析及SEM分析。
2.
The slag corrosion resistance of the Al_2O_3-MgO castable is investigated by SEM analysis method.
利用SEM分析手段研究了铝镁浇注料的抗渣性能。
3.
Through the measurement method of particle size and SEM analysis, it is indicated that the diameters of speiolite fibres were or close to nano-meter grades.
本研究是在大量实验室试验和扩大试验研究基础上,应用多学科的相关理论及现代测试分析技术对河南南阳、河北易县纤维海泡石进行剪切破碎、湿法介质搅拌超细磨矿、精细分级等机械方法制备海泡石纳米纤维,通过粒度分析和SEM分析,表明制备海泡石纤维直径达到或接近纳米级。
4) SEM
SEM分析
1.
Analysis of craze for injection moulding products of polyetherimide using SEM
运用SEM分析聚醚酰亚胺注射成型制品开裂
2.
Through the analysis upon the interface between active material and the grid by means of Voltammetry,XRD and SEM,we believe a passivation layer is formed along the interface between active material and lead grid under high temperature and the differen.
通过对活物质及板栅界面进行电位扫描,XRD及SEM分析,认为其主要原因为过高的干燥温度使正极板栅表面形成界面钝化层,钝化层与活物质本体在组成及微观结构的差异影响了电池的初始性能。
5) FE-SEM analysis
FE-SEM分析
6) microscopic analysis
显微分析
1.
The commercial application demonstrates that the catalyst microscopic analysis technology offers a good application pro.
利用显微分析技术,对两套催化裂化装置在不同工况下各部位采集到的催化剂样品进行显微观察与分析,并且将观察分析结果与催化剂的检测数据、装置操作参数、产品收率分布等数据进行对比,逐步建立起催化剂微观特征、工艺操作、产品之间的关联,达到根据显微分析结果对装置工艺操作进行优化的目的。
2.
Through the fatigue load testing of deformed and nearly intact bellows which had been operated for one cycle, stress analysis at changing load conditions and microscopic analysis of micro and macro fatigue cracks, complete process from the initial formation of bellow damages, crack development to final cracks was studied.
通过对使用一个周期,受损伤失稳变形的和近乎完好的波纹管疲劳载荷实验,结合交变载荷下的应力分析,以及失效件宏观和微观疲劳断口的显微分析,探讨了波纹管损伤的形成,裂纹的扩展,直至断裂全过程,揭示了管网体系中波纹管的损伤疲劳失效机理。
补充资料:[3-(aminosulfonyl)-4-chloro-N-(2.3-dihydro-2-methyl-1H-indol-1-yl)benzamide]
分子式:C16H16ClN3O3S
分子量:365.5
CAS号:26807-65-8
性质:暂无
制备方法:暂无
用途:用于轻、中度原发性高血压。
分子量:365.5
CAS号:26807-65-8
性质:暂无
制备方法:暂无
用途:用于轻、中度原发性高血压。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条