suboxide
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美
网络 低值氧化物; 低氧化物; 次氧化物; 低价氧化物
双语例句
- In this paper, several methods for preparing titanium suboxide are given and its wide uses in new areas are mentioned.
本文介绍了低价氧化钛的各种制备方法及其在各个新开发领域中的应用。 - The relationship between oxygen content of titanium suboxide, particle size, doped NbO and its electrical properties is studied.
通过实验对低价钛氧化物的氧含量、粉末粒度、掺杂NbO与其电性能之间的关系进行了研究。 - The results show that the dissolution of Ag was restrained by forming of a silver suboxide film on the surface under low oxidant concentration and atmospheric pressure conditions ( e.g., in NH_3-O_2-H_2O system);
结果表明,在常压下氧化剂浓度低时(如在NH3-O2体系中),浸取反应受在Ag表面上生成的氧化物膜所阻碍; - Niobium suboxide anode for electrolytic capacitor in the present study has such features as high specific capacity, small leakage current, steady capability and high reliability.
本课题研究的低价铌氧化物电解电容器阳极具有比容高、漏电流小、性能稳定、可靠性高的特点。 - While under Oxygen-combustion atmosphere, the high CO2 ( g) concentration and decrease of char temperature would restrain the vaporization of trace element to a certain extent, meanwhile the translation of trace element to simple substance qr suboxide would also be restrained.
富氧燃烧条件下,高浓度的CO2(g)以及碳颗粒温度的降低在一定程度上会抑制痕量元素的蒸发,同时CO2(g)也会抑制痕量元素向气相次氧化物及单质的转化。 - Due to the influence of properties, resource and cost, anode material of electrolytic capacitor changed from Al to Ta, Nb and suboxide in turn.
因受性能、资源、价格等不同因素的影响,电解电容器阳极材料由铝钽铌低价铌氧化物等在不断的更新换代。 - The electrolytic capacitor anode of Titanium suboxide concerned in this paper have the advantage of high capacity, little leakage current, resourceful and low cost.
本课题研究的低价钛氧化物(TiO)电解电容器阳极具有比容高,漏电流较小,资源丰富,价格低廉等优点。 - Preparation of new electrolytic capacitor anode of niobium suboxide
新型电解电容器阳极材料低价铌氧化物的制备 - Titania slag quenching and cooling is very good, for it greatly lowers the transformation degree from titanium suboxide to rutile.
采用钛渣出炉后喷水急冷的措施,大大降低了低价钛的金红石转化程度。 - Niobium suboxide anode is prepared with method similar to that for tantalum electrolytic capacitor and its electric property is investigated by electrolytic capacitor anode testing.
按与钽电解电容器相似的工艺将低价铌氧化物粉末制成了阳极,并采用电解电容器阳极测试方法对其电性能进行了研究。