富钛,enrich Ti species
1)enrich Ti species富钛
英文短句/例句
1.METHODS OF PREPARING HIGH GRADE TITANIA FEEDSTOCK FROM PANZHIHUA TITANIUM CONCENTRATE用攀枝花钛精矿制取高品位富钛料的途径
2.Study on Preparing Ti-rich Feedstock by Selective Leaching the Modified Titanium Slag with Hydrochloric Acid Solution;稀盐酸选择性浸出改性钛渣制备富钛料的研究
3.Status quo of production of titanium ores and concentrates at home and abroad and trend of development;国内外钛矿和富钛料生产现状及发展趋势
4.CHARACTERIZATION AND EVALUATION OF TS-1 WITH ENRICHED Ti SPECIES ON ITS SURFACE表面富钛TS-1分子筛的表征与评价
5.Study on the Calcination Condition of New Preparation Technology of Ti-rich Material from Ilmenite Concentrate由钛精矿直接制取富钛料新工艺煅烧条件的研究
6.Influence of sintering temperature on electrical properties of Ti-rich CaCu_3Ti_4O_(12) ceramics烧结温度对富钛CaCu_3Ti_4O_(12)陶瓷电学性能的影响
7.Pre-concentration and separation of cadmium in environmental water with potassium tetratitanate whisker四钛酸钾晶须预分离富集环境水样中镉
8.Application of Immobilized Nanometer Titanium Dioxide in the Separation/Preconcentration and Speciation of Trace Elements;负载型纳米二氧化钛在痕量元素分离富集及形态分析中的应用
9.Investigation for the Separation/Enrichment and Mechanism of Inorganic Environmental Hormones by Solid Phase Extraction on Titanium Whisker钛基晶须材料固相萃取分离/富集无机环境激素及机理研究
10.Study on simultaneous determination of zinc and copper by flame atomic absorption spectrometry after pre-enrichment with nanometer titanium dioxide纳米二氧化钛预富集火焰原子吸收光谱法同时测定锌铜的研究
11.Flame Atomic Absorption Spectrometry Determination of Cadmium in Environmental Water with Preconcentration and Separation by Sodium Trititanate Whisker三钛酸钠晶须预富集/分离与FAAS法联用测定环境水中镉的研究
12.The results showed that zirconolite - rich and pyrochlore - rich synrocs were suitable waste form for solidification of actinide wastes.研究表明,富钙钛锆石和富烧绿石型人造岩石都能很好地固化包容锕系核素废物.
13.Determination of Lead and Cadmium in Water by Flame Atomic Absorption Spectrometry after Separation/Pre-concentration with Manual-Controlled Injection Porous Nano-Barium-Strontium Titanate Microspheres Separator手控注射式钛酸锶钡多孔球富集器分离富集-火焰原子吸收法测定水中铅和镉
14.Studies and Applications of the Separation and Preconcentration of Trace Elements with Nanometer Titanium Dioxide and Determination by Atomic Absorption Spectrometry;纳米二氧化钛在分离富集—原子吸收光谱法测定痕量元素中的研究与应用
15.Study on Separation/Enrichment of Heavy Metals in Environment by Nanoscale TiO_2 Solid Phase Extraction Combine with Spectroscopy;纳米二氧化钛固相萃取与光谱法联用分离/富集/分析环境中重金属研究
16.Application of Novel Supported Nanometer TiO_2 for Determination of Heavy Metal by Flow Injection Preconcentration-Flame Atomic Absorption Spectrometry新型负载纳米二氧化钛在流动注射预富集—火焰原子吸收法测定重金属中的应用
17.DETERMINATION OF TRACE LEAD ION IN WATER BY FAAS AFTER PRECONCENTRATION BY THE NANO-BARIUM-STRONTIUM TITANATE IMMOBILIZED ON SILICA GEL G硅胶G基纳米钛酸锶钡吸附富集-火焰原子吸收法对水中Pb~(2+)的测定
18.Determination of trace lead using flame atomic absorption spectrometry after adsorption and enrichment with glass fiber filter loaded with barium-strontium titanate负载钛酸锶钡的玻璃纤维滤膜吸附富集-火焰原子吸收光谱法测定痕量铅
相关短句/例句
titanium slag富钛渣
1.Preparation of rutile titanium dioxide fromtitanium slag using molten method;熔盐法处理富钛渣制备金红石型TiO_2
3)enrichment titanium富集钛
4)rich titanium product富钛料
1.A new technology for preparingrich titanium product,which includes microwave reduction-mineral separation-microwave leaching,was put forward on the basis of the abundant situation of titanium mineral resource in Panzhihua-Xichang zone and the advantages and disadvantages of actual productive methods on makingrich titanium product.针对攀西地区丰富的钛资源现状和现行富钛料生产工艺优缺点,提出了微波加热还原钛精矿复合球团—选矿分离—微波浸出制取高品质富钛料的新工艺路线。
5)contained Ti-iron富钛生铁
1.Because of bad flow ofcontained Ti-iron in production,the pouring temperature has to be raised.河北省是富钛生铁矿藏丰富之省 ,在利用富钛生铁生产球铁铸管工艺中 ,因富钛生铁流动性差的原因 ,被迫提高浇注温度 ,导致能耗高且稀土元素烧损大、成品球化不良及延伸率下降。
6)Ti rich concentrate富钛精矿
延伸阅读
富钛料氯化车间设计富钛料氯化车间设计者。流态化氯化工艺流程见图。熔融盐氯化工艺,除炉型与之截然不同外,其收尘冷凝系统与之相同。 在海绵钦工程设计中,当粗四氯化钦产量大于4000t/a时,要设计两套以上氯化系统,其中一套备用。氯化的收尘冷凝系统要与氯化炉的最大产量相适 应。流态化氯化除对原料的品位及Cao+MgO含量有要求外,还要求粒度为80一120目的高于80%;锻烧后石油焦的固定碳高于90%,粒度为20~80目的高于8。%;混合氯气浓度(体积浓度)高于80%。氯化炉反应带温度为800~loo0C,炉子出口温度为500一 70。℃。收尘冷凝器最后的出口温度为120一150℃;淋洗塔最后的出口温度不高于5℃;冷冻盐水温度为一10~一lsC。沸腾压差为588一98oPa;炉子出口压 力为98一392Pa;折流板槽出口压力为98P。。氯气压 力为0.2一0.3MPa。熔融盐氯化与流态化氯化技术条件大体相同。氯化系统中四氯化钦的淋洗,第一套管futoili0O IuhuoCheiion sheil”/、”’“’‘“’一’一’?·’一,一’一~一‘”’‘一’-·-一~一‘.~.~,.一,石,.,‘,,,二。.:冷凝器的冷却介质为水;第二套管冷凝器的冷却介质富针料氮化车间设计(ehlorination of rieh’万赞竺“了’丫一r-”~/‘’‘、’“一~口’‘~“““‘’、一r”~一_·-,·-·一丫.’.一采用冷冻液。titaniferous material shop design)以富钦料”一玉公奋*、二二,*,,。二r*小、二,.*‘:‘。““、‘,I。。‘“。‘~‘-·一。一6‘·/切二。二设备选择主要设备有氯化炉、收尘冷凝器、淋洗车间生产的钦渣或金红石(天然或人造)为原料,经氯*,。.‘,十.,工,。J,。二二~。“,、~‘~~‘月“、.lry’~~塔和沉降槽等。化和收尘冷凝系统,生产粗四氯化钦的海绵钦厂车间,*,。,,‘,。二二,二『‘*,。*、,,.,、二。,二、、二。。,工,二。,、,。Jl,二,,十.川流态化氯化炉多为圆柱型流态化床,结构简单、制设计。