lioh
- 网络氢氧化锂
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Performance of LiOH combined with activated carbon fiber
氢氧化锂-活性炭纤维材料的制备和性能试验
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An auto balance reproducing oxygen supplier using KO2 and LiOH was provided .
舱内用超氧化钾和氢氧化锂自动平衡供氧。
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Study on New Modifier ( LiOH ) for Water Glass
新型水玻璃改性剂(LiOH)的研究
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Studies of long-term effect and mechanisms of LiOH on alkali-aggregate reaction
LiOH抑制碱集料反应长期有效性及机理的研究
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Influence of LiOH on the Expansive Behavior of Alkali-Silica Reaction Product
LiOH对碱-硅酸反应产物膨胀行为的影响
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Effect of LiOH as Mineralizer on the ZnO Crystal Morphology Synthesized by Hydrothermal Method
LiOH矿化剂对水热合成ZnO晶体形貌的影响
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The results show that the crystallization degree and the intensity of peak ( 100 ) decreased with the increase of the LiOH concentration .
结果表明,随着LiOH溶液浓度的增加,样品的结晶度降低,晶粒的择优取向(100)晶面的衍射峰强度明显减弱;
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The effects of the adulterating content of Co ( OH ) _2 and LiOH on the electrochemical performance were discussed .
样品按一定比例掺杂LiOH和Co(OH)2制备复合电极,讨论LiOH和Co(OH)2含量对掺杂复合电极电化学性能的影响。
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Composite manganese dioxide developed from EMD and LiOH H2O at 350-400C has shown good performance as cathode material .
在350~400℃的温度条件下,以电解MnO2(EMD)和LiOH·H2O为原材料合成了复合MnO2阴极材料.该材料具有良好的循环性能。
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The surface of superfine boron powder was coated with lithium fluoride prepared by reacting LiOH with HF by the neutral precipitation method .
以LiOH、HF为主要原料,采用中和沉淀法对超细硼粉进行了表面包覆。
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Li-ion battery cathode material LiV_3O_8 was synthesized by gel method and high temperature reaction with LiOH , Li_2CO_3 and V_2O_5 as raw materials .
用LiOH、Li2CO3和V2O5作原材料分别通过凝胶法和高温反应,合成了锂离子电池正极材料LiV3O8。
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The KOH electrolyte is better than NaOH electrolyte . The electrolysis effect will be much better if a few LiOH is added to KOH electrolyte .
由于电解液的电导不同,利用KOH作为电解液的电解效果优于NaOH电解液,如果在KOH电解液中加入少量的LIOH,电解效果更佳。
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In conclusion , the adsorption property and structure of H_2O molecule on LiH surface agree with experimental results well , and LiH-H_2O system has the trend of forming LiOH .
结果显示,H2O分子在LiH表面吸附的吸附性质和构型与实验结果一致,并有形成LiOH的趋势。
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Effects of LiOH in inhibiting alkali-aggregate reaction of two practical alkali-reactive aggregates ( Beijing Aggregate and zeolitization and perlite ) are systematically investigated .
系统研究了LiOH对两种工程活性集料(北京砾石和沸石化珍珠岩)引起的碱集料反应的影响。
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Effect of LiOH on alkali-aggregate reaction expansion of zeolitization perlite-cement mortars during long_term curing at 20 ℃ was investigated .
研究了在20℃长期养护条件下,掺加LiOH对含沸石化珍珠岩集料砂浆碱集料反应膨胀的影响。
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Through espial and analysis by SEM , it is found that the addition of LiOH realizes the control of the macroscopical electrical properties of component by affecting the grain boundary behavior .
借助SEM对样品进行了观察和分析,发现LiOH主要是通过影响晶界的行为来控制元件宏观的电性能。
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The effect of alloying composition on the corrosion resistance of zirconium alloys with Zr-Sn-Nb-Fe-Cr system tested in 350 ℃, LiOH solution and 400 ℃ steam was investigated using Single-Specimen-Method .
描述了用单片试样法研究合金成分对Zr-Sn-Nb-Fe-Cr系锆合金在350℃,LiOH水溶液和400℃蒸汽中耐腐蚀性能影响的结果。
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Compared with other inorganic bases ( LiOH , NaOH , KOH ), we found that cesium hydroxide is the best catalyst because of it " cesium effect " .
由于铯离子效应,氢氧化铯的与其它无机碱(LiOH,NaOH,KOH)的相比,催化效果最好。
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High-pure and well-crystalline nano-LiFePO_4 was prepared by hydrothermal method using analytically pure FeSO_4 , H_3PO_4 and LiOH as the precursors .
以分析纯的FeSO4、H3PO4和LiOH为原料,用水热合成法得到纯度高、结晶好的纳米LiFePO4。
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Doping Al lithium manganese oxides were prepared using Mn_2O_3 , Al ( NO_3 ) _3 · 9H_2O and LiOH · H_2O as raw materials by solid-state method .
以Mn2O3,Al(NO3)3.9H2O和LiOH.H2O为原料,采用固相合成法制备掺铝锰酸锂材料。
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This paper analyses and discusses the optical and electrical properties of the texture surface silicon solar cell . A new method of etching by LiOH is presented , and a preliminary discuss of the etching mechanism is carried out .
本文分析和讨论了绒面硅太阳电池的光学,电学特性,提出了用LiOH腐蚀绒面的新方法,并对腐蚀绒面的机理作了探讨。
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LiFePO_4 has been synthesized by the solvothermal method using FeSO_4 , H_3PO_4 and LiOH as raw materials . The product shows a high purity , good crystallinity , small particle size and homogenous size distribution .
以FeSO4、H3PO4和LiOH为原料,用水热合成法制备纯度高、结晶好、颗粒分布均匀且细小的LiFePO4粉体。
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Using LiOH · H_2O and Mn ( CH_3COO ) _2 · H_2O as raw materials , the positive material Li_4Mn_5O_ ( 12 ) were prepared through the combined methods of microwave sintering and solid-state sintering .
以LiOH.H2O和Mn(CH3COO)2.2H2O为原料,用微波烧结和固相烧结相结合合成了尖晶石型Li4Mn5O12正极材料。
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The results show that using LiOH as lithium resources and extrusion molding after mixed grinding , and adding LiOH after stoving Ni ( OH ) 2 and Co ( OH ) 2 are favorable for the synthesis .
采用LiOH为锂源.采取混合研磨后压块以及烘干Ni(OH)2,Co(OH)2后加入氢氧化锂的预合成方式更有利于合成反应的进行。
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Except the dedolomitization of PL in alkali solutions , cryptocrystalline quartz in PL also react with NaOH , KOH to produce typical ( alkali ) silica product and to form lithium silicate reactes with LiOH .
PL在碱液中除了去白云化反应外,PL中的隐晶石英也与KOH和NaOH反应生成典型的碱硅酸产物,与LiOH反应形成硅酸锂。
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To understand the degradation behavior of corrosion resistance in LiOH aqueous solution for Zircaloy-4 , Scanning Electron Microscope ( SEM ) and Scanning Probe Microscope ( SPM ) are performed to observe the inside and outside surface morphologies of the oxide .
为了研究LiOH水溶液影响Zr-4合金耐腐蚀性能的机理,用扫描电子显微镜和扫描探针显微镜观察Zr-4合金样品在不同介质中腐蚀后氧化膜内外表面的形貌。
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By contrasting the LiOH or NaOH data to KOH at 7M and 8M , the change of the Li + orNa + concentration has little effect on the discharge capacity , internal resistance , voltage plateau and high rate discharge capability .
通过与KOH浓度在7M与8M的数据进行对比,结果发现,Li或Na离子浓度的改变对放电容量、内阻、电压平台以及高倍率性能影响不明显。
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Olivine LiFePO_4 of anode materials for lithium ion batteries were synthesized by low temperature co-precipitation process and succeeding sintering , using LiOH · H_2O , H_3PO_4 ,( NH_4 ) _2Fe ( SO_4 ) _2 · 6H_2O as raw materials .
以LiOH.H2O,H3PO4,(NH4)2Fe(SO4)2.6H2O为原料,采用低温共沉淀结合后续热处理法制备了橄榄石型的锂离子电池正极材料LiFePO4。