您的位置:汉字大全 > 行业英语 > 化学 > bismuthic acid是什么意思

bismuthic acid是什么意思

中文翻译铋酸

网络释义

1)bismuthic acid,铋酸2)bismuth vanadate,钒酸铋3)BiScO3-based,钪酸铋基4)bismuth silicon oxide,硅酸铋5)sodium bismuth titanate,钛酸铋钠6)bismuth titanate,钛酸铋

用法例句

    Novel palladium oxide (PdO)/bismuth vanadate (BiVO4) visible light-induced composite photocatalysts were prepared by the impregnation method.

    通过浸渍法制备了新型可见光活性的氧化钯(PdO)/钒酸铋(BiVO4)复合光催化剂。

    In order to improve the high-temperature resistance of bismuth vanadate yellow pigment,it was coated with SiO2 through hydrolysis reaction of tetraethoxysilane(TEOS).

    为了提高钒酸铋(BiVO4)黄色颜料的耐高温性,利用正硅酸乙酯(TEOS)的水解反应,在BiVO4表面形成SiO2膜,使钒酸铋黄色颜料经过1 000℃的高温煅烧,依然颜色鲜艳。

    The novel non-toxic bismuth vanadate pigment can be the effective substitute for yellow toxic inorganic pigments.

    新型无毒的钒酸铋颜料可作为毒性无机黄颜料的一种良好替代品。

    The researches of BiScO3-based piezoelectric materials are very important because of their excellent properties, especially their high Curie temperature for the uses in high temperatures.

    钪酸铋基压电材料因其优异的性能及高的居里温度,近年来受到各国学者的极大关注。

    Study of Sodium Bismuth Titanate Ceramics Prepared by Metalorganic Decomposition Method;

    金属氧化物沉积法制备钛酸铋钠陶瓷的研究

    Sodium bismuth titanate, (Na_(0.

    钛酸铋钠(Na_(0。

    Sodium bismuth titanate based lead-free piezoceramics are regarded as the most promising candidates in place of lead based piezoceramics so far, however, doping modification of existing materials or developing new piezoelectric material system seems not to make any further progress for the improvement of lead-free pieoceramics.

    钛酸铋钠基无铅压电陶瓷被认为是最有希望取代铅基的压电陶瓷材料,然而到目前为止,通过掺杂改性的方法来改善无铅压电材料的压电性能,或者开发新的材料体系的方法都是有限的。

    Ethyl-assisted hydrothermal synthesis of bismuth titanate photocatalyst;

    乙醇助水热法制备钛酸铋光催化剂的研究

    Spectrum Study on the Formation of La Modified Bismuth Titanate Film;

    掺镧钛酸铋薄膜制备过程的光谱研究

    Photocatalytic Degradation of Methylene Blue over Ag-loaded BiVO_4 Photocatalysts;

    银—钒酸铋光催化降解亚甲基蓝的研究

    Preparation of Bismuth Vanadate Yellow Pigment and its Influence Factors;

    钒酸铋黄色颜料的制备及其影响因素

    Study on Preparation, Characterization and Mechanism of BiVO_4

    钒酸铋光催化剂的制备、表征及其作用机理研究

    Study on Preparation and Property of V-Doped and Nd/V Co-Doped Bismuth Titanate Ceramics;

    钒掺杂及钕/钒复合掺杂钛酸铋陶瓷制备和性能的研究

    Studies on Preparation and Properties of Nanosized Vanadate Luminescence Materials and Bismuth Titanate Series Photo-catalytic Thin Films;

    钒酸盐纳米发光材料和钛酸铋系光催化薄膜的制备及性能研究

    Synthesis and Property Study of Isopolyoxovanadate Hybrid Material and Sandwich-type Transitional Complex with Tungstobismuthate Compounds

    同多钒酸盐杂化化合物及夹心型多金属铋钨氧酸盐化合物合成与性质研究

    bismuth nitrate pentahydrate

    硝酸铋(五水合物)

    Bismuth phosphomolybdate blue spectrophotometric method for the rapid determination of phosphorus in vanadium-nitrogen alloy

    铋磷钼蓝分光光度法快速测定钒氮合金中磷量

    Optical Absorption Spectra of Bismuth Titanate (BTO)

    纯钛酸铋晶体和掺铝钛酸铋晶体的光吸收谱

    " Designations for LiNbO3, LiTaO3, Bi12, GeO20, Bi12 SiO20 piezoelectric crystals"

    GB/T9532-1988铌酸锂、钽酸锂、锗酸铋、硅酸铋压电单晶材料型号命名方法

    vanadium catalyst for manufacture of sulfuric acid

    硫酸生产用钒催化剂

    Study on Syntheses、Characterization and Supramolecular Structures of Bismuth(Ⅲ) Complexes with Ligands of N,N-dialkyldithiocarbamate and Xanthate;

    氨荒酸铋及黄原酸铋配合物的合成、表征及超分子结构研究

    a mineral consisting of chloride and vanadate of lead; a source of vanadium.

    一种含铅的氯化物和钒酸盐的矿物,是钒的来源。

    Any of three anions, VO3, VO4, or V2O7, containing pentavalent vanadium.

    钒酸盐三种阴离子,VO3,VO4,或V2O7之一,含有5价的钒

    a salt or ester of vanadic acid; an anion containing pentavalent vanadium.

    钒酸的一种盐或酯,一个含有五价钒的阴离子。

    Study on Li_3V_2(PO_4)_3 and all-vanadium lithium-ion batteries

    磷酸钒锂材料及全钒锂离子电池性能研究

    Study on Extracting Vanadium from Vanadium-bearing Stone Coal of Guizhou Tongren by Acid Leaching Extraction under Oxygen Pressure

    贵州铜仁含钒石煤氧压酸浸萃取提钒研究

    Study on the Occurrence of V,Ti during Reduction Process of the Acidic Vanadium-Titanium Slag

    钒钛酸性渣还原过程中钒钛赋存状态的研究

Copyright © 2022-2024 汉字大全www.hanzidaquan.com All Rights Reserved 浙ICP备20019715号