1) micro-wave exchange
微波交换法
1.
The preparations include in-situ polymerization、blending and micro-wave exchange,Application prospects of the materials also evaluated.
综述了目前UPR/纳米复合材料的制备方法,包括原位聚合法、共混法、微波交换法,介绍了UPR/纳米复合材料的优异性能,最后展望了不饱和聚酯树脂纳米复合材料的应用前景。
2) intermittent microwave heating
交替微波法
1.
A material of tungsten carbides on multiwalled carbon nanotubes(WC/MWCNT)was prepared by an intermittent microwave heating method and used as the support to load Pd nanoparticles(Pd-WC/MWCNT)for alcohol oxidation.
用交替微波法制备了碳化钨与多壁碳纳米管复合材料(WC/MWCNT),以该材料为载体制备了Pd基催化剂(Pd-WC/MWCNT),并将催化剂用于醇的催化氧化反应。
2.
Pt/CNT catalyst was prepared by intermittent microwave heating method using pre-treated MWCNT as supporter and ethylene glycol as reducing agent.
以处理后的MWCNT为载体、乙二醇为还原剂,用交替微波法制备了Pt/CNT催化剂。
3) WS routing algorithm
波带交换算法
1.
We give the methods for WS routing algorithm research.
并分析了研究波带交换问题与波长路由问题(RWA)的不同之处,总结了波带交换算法常用的分析和研究方法。
4) intermittent microwave heating
交替微波加热法
1.
CeO2/Ccomposites were prepared by intermittent microwave heating (IMH) method and then were used as supportto make Pt-CeO2/C catalysts.
用交替微波加热法快速制备CeO2/C复合材料,进而制备Pt-CeO2/C。
2.
CeO_2/C composite was prepared by intermittent microwave heating (IMH) method and used as support to make Pt-CeO_2/C catalyst.
用交替微波加热法快速制备CeO2 /C复合材料 ,进而制备Pt CeO2 /C。
5) Wavelet transform
小波交换
1.
Based on property of time and frequency localization, frequency decomposition and time-shift invariety of wavelet transform,Wavelet transform was applicated in investigation of denoise, resolving overlapped peak, and recovering useful information in oscillographic chronopotentiometric signal.
本文根据小波交换所具有的时频局域化、分频和时移不变性等性质,将其用于未波计时电位信号平滑与去噪、重叠峰分辨、有用信息提取多方面的研究。
2.
This paper proposes that the wavelet transforms, programned in 3 languages is a virtual method to reduce the influence of noise on the chromatogram signals, processing chromatogram data that are obtained from the power .
由于色谱信号总被噪声污染,严重影响了色谱信号处理的准确性,提出基于小波交换的色谱信号消噪处理方法,利用3套编程软件混合编程处理电厂采集的色谱数据,取得了很好的效果。
3.
A processing method of eliminating noises from chromatographic signals based on wavelet transform has been put forward.
提出了基于小波交换的色谱信号消噪处理方法。
6) waveband switching
波带交换
1.
Dynamic waveband switching with signal quality constraints in WDM mesh networks;
WDM网状网中考虑传输损伤的动态波带交换算法
2.
Application of grouping policy of data channel in optical burst switching networks to Waveband Switching networks;
OBS数据信道分群调度机制在波带交换中的应用
3.
New algorithms for waveband switching network and performance analysis;
波带交换新算法及其性能分析
补充资料:微波等离子体原子吸收光谱法
分子式:
CAS号:
性质:一种利用微波等离子体作为原子化器的原子吸收光谱分析技术。用微量注射器将几微升样品加到钽丝上,先用小电流加热干燥样品,再增大电流加热使样品蒸发。氩气将样品蒸气载入微波等离子体焰炬中,经历原子化后再进入原子吸收池经原子吸收,测量吸光度,根据吸光度大小确定被测元素的含量。
CAS号:
性质:一种利用微波等离子体作为原子化器的原子吸收光谱分析技术。用微量注射器将几微升样品加到钽丝上,先用小电流加热干燥样品,再增大电流加热使样品蒸发。氩气将样品蒸气载入微波等离子体焰炬中,经历原子化后再进入原子吸收池经原子吸收,测量吸光度,根据吸光度大小确定被测元素的含量。
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