1·Cesium tungsten oxide can be incorporated into one or more layers of a bilayer.
可以将氧化铯钨掺入双层的一层或多层之中。
2·The fine tungsten powder has been effectively obtained by hydrogen reduction of purple tungsten oxide.
用氢还原紫色氧化钨可高效地获得细钨粉。
3·The formation of these WO3 tubes is attributed to the lateral coalescence of tungsten oxide nanowires.
这种氧化钨管是由多根平行生长的氧化钨纳米线横向联合而成。
4·The present invention involves bilayers that include cesium tungsten oxide as an infrared absorbing agent.
本发明涉及包含作为红外线吸收剂的氧化铯钨的双层。
5·The result shows that ultra-fine tungsten powder can be produced with blue tungsten oxide under appropriate conditions.
结果表明:在适当的工艺条件下,使用蓝钨可以制得超细钨粉。
6·In this article, the process and main phase composition are studied during the deoxidization of blue tungsten oxide in hydrogen.
研究蓝钨氢还原工艺并分析了蓝钨在氢气还原过程中主要相成份的变化。
7·The tungsten oxide films by two methods were characterized by atomic force microscope, double-beam UV-VIS-NIR spectrophotometer and X-diffractometer.
本文分别用原子力显微镜、双束紫外可见分光光度计、X-衍射仪等表征了用以上两种方法制备的三氧化钨薄膜。
8·In the present study, tungsten oxide nanorods were prepared by a plasma arc gas condensation technique where a gas nozzle was introduced to provide blowing gas.
本研究以电浆电弧为加热源蒸发钨靶材,并藉由气凝合成机制,外加一套吹气装置制备氧化钨奈米棒,分别探讨腔体压力与奈米棒平均直径及产率的关系。
9·The results show that different tungsten oxides, including violet tungsten oxide, blue tungsten oxide and yellow tungsten oxide, are of different microstructure.
结果表明,不同氧化钨——紫钨、蓝钨、黄钨具有不同的微观结构,其中紫钨具有独特的单晶棒状结构,适合生产细颗粒钨粉。
10·The quality of violet tungsten oxide is studied and violet tungsten oxide is classified as well as a new kind of relative visual detecting method is put forward.
研究了紫钨的质量状况,将紫钨分类并提出了一种新的较为直观的检测方法。