焙燒溫度 的英文怎麼說
中文拼音 [bèishāowēndù]
焙燒溫度
英文
firing temperature-
Techniques, and their physico - chemical parameters such as specific areas, particle size distributions and diffusion coefficients are measured by the bet method, laser scattering technique and galvanostatic intermittent titration technique ( gitt ), respectively. sem photographs show that these samples are made up of the irregular porous granules, which are conglobated by many small spherical crystals
溫度助p 』 c賊品中有明顯的尖晶石相雜質,充放電曲線表現出3v和4vmglz臺,而焙燒溫度在sic 』 c以下的樣品充放電曲mn有一個3v平臺,充放電循環過程中沒出現明顯的3v平臺向4v平臺轉化的現象,表明該樣品在循環過程中結構是愧箍淀的。It ' s obtained that ph = 6. 5 is a suited ph value for getting ideal product with good properties. the calcinate temperature is the key factors to transform the precursor to a pure product with spinel structure
研究了不同的工藝條件如溶液ph值、焙燒溫度、焙燒時間、焙燒方式、 li / mn的比值對產物結構的影響。The precursors of lico0. 8ni0. 2o2 cathode material for lithium - ion batteries are prepared from lithium hydroxide, cobalt acetate, nickel acetate and oxalic acid by the method of low - heating solid - state reactioa the ucoagnioiqz samples are obtained by sintering the precursors at different temperatures for 12hr. their structures and morphologies are studied by the powder xrd and sem
由於mil :的jalllieller效應使mhoj面體發生畸變,焙燒溫度對樣品晶體棚及電化學性能的影響4肽,與同樣方法合成的li帥及eenaq相比, d仙血o的晶胞形狀變得更加扁平,晶胞體積增大。The characteristic of different products at different calcinating temperatures and time, ph value of solution, raw materials were investigated. the results show that perfect spinel li4mn5o12 crystals whose size belongs to nanometer can be obtained from the precursor of lithium manganese oxides after being calcinated. it is founded that calcinating temperature has great influence on the crystal structure of li4mn5o12 and the optimized temperature is 500
結果表明焙燒溫度是影響產物結構性能的最重要的因素,最佳焙燒溫度為500 ,溫度小於200不能形成完整的尖晶石結構,而焙燒溫度超過500產物會發生分解;綜合考慮焙燒時間最佳為8小時;溶液ph值也是影響產物性能的因素之一,實驗證明前驅體合成ph = 9 . 0最佳;另外不同的原料也會影響產物的結構,考察了不同鋰源的影響,選擇li _ 2co _ 3為最佳鋰源。Hence we combined coprecipitation method, using zinc carbonate as enclosure dose causing the crystal nucleus can not grow up, zinc titanate acts as phase - transition accelerant, thereby we can obtain rutile nanometer tio2 powder at lower calcining temperature and in briefer calcining time relatively
因此我們結合共沉澱法,引入碳酸鋅作包覆劑控製品粒長大,利用鈦酸鋅作品型促進劑,在相對較低的焙燒溫度和較短的保溫時間內制得到了金紅石型納米tio _ 2粉體。Results show that the grain size of all samples is below 100nm, and the lattice parameters and grain sizes are dependent on the sintering temperature
結果表明,前驅體的焙燒溫度對樣品的晶型、晶胞參數及晶粒尺寸有很大影響。In this paper, concentrated sulfuric acid and titanium dioxide are used to prepare the tios04 solution that test later required under long time heat. the influences of reaction time and reaction temperature to yield of tioso4 are discussed. in the experiment of preparing tio2 powder, reaction temperature, ph values, material ratio, operation way, velocity of feed, calcining heat and time are researched by the principle of nucleation and growth in thermodynamics and kinetics
在制備tio _ 2粉體實驗中,根據成核生長的熱力學和動力學原理,深入分析了沉澱反應時環境的溫度、 ph值、反應物配比、操作方式、加料速度等因素對ti ( oh ) _ 4粒度的影響,以及焙燒溫度和保溫時間等因素對制得的納米tio _ 2粉體性能的影響,得出了制備銳鈦型納米tio _ 2粉體的優化工藝條件。The effect of amorphous hydrated ruo _ 2 power production is discussed here, including : selection and ratio of solvent, selection and concentration of precipitator, terminal ph of titration and anneal temperature and time of colloid. research indicated that terminal ph and anneal temperature are the most important influence factors on physical and electrochemical properties of amorphous hydrated ruo _ 2 power
討論了超細氧化釕粉體的制備影響因素,包括:溶劑選擇和配比、沉澱劑選擇和濃度、滴定終點ph值以及焙燒溫度和時間對氧化釕粉體粒度分佈及電化學的影響,研究表明:沉澱終點ph值以及膠體焙燒溫度對粉體物理和電化學性能影響較大。The more favorable experiment conditions of preparing anatase nanometer tio2 powder are obtained from a lot of data. preparation technology of rutile nanometer tio2 powder is researched on the base of experiment of anatase nanometer tio2 powder. the influences of enclosure dose ' s quantity, preroasting temperatures phase - transition accelerant ' s quantity and calcining intensity and so on on the properties of inclusion body - zntio3 / ti ( oh ) 4, granule size and properties of rutile nanometer tio2 powder are discussed
在銳鈦型納米tio _ 2粉體的制備基礎之上,進一步研究了金紅石型納米tio _ 2粉體的制備工藝,探討了包覆劑用量、預焙解溫度、晶型促進劑量及焙燒溫度和保溫時間等因素對znco _ 3 / ti ( oh ) _ 4沉澱包覆體性能、金紅石型納米tio _ 2粉體產品的粒度和性能的影響。Final temperature firing temperature
最終焙燒溫度This paper explores mainly the influence of reduction roasting temperature, time and pulverized coal consumption on content of soluble zinc
本文主要探討還原焙燒溫度、時間和煤粉用量對可溶鋅含量的影響。The reaction activity of the catalyst can be adjusted by changing the preparing condition, which including the calcination temperature, the metal load and the carrier
制備過程中焙燒溫度、負載量以及不同催化劑載體的選用都會影響所得催化劑的性能。Due to preparing high grade rutile nanometer titanium dioxide in the same method have more disadvantages such as tall calcining heat, easy agglomerate, reunite gravely and difficult to attain the nanometer grade
由於用與之相同的方法制備金紅石型納米tio _ 2粉體存在焙燒溫度高、易燒結、團聚現象嚴重等缺點,難以達到納米級。Spinel limn2o4 begin to form at 350 with the sintering time of 4 hours because there are one li + and two mn2 + in one precursor molecule. when the sintering temperature is larger than 750, a specific sintering route is designed to avoid the formation of li2mno3 impurities
前驅體的焙燒溫度和焙燒時間對limn _ 2o _ 4樣品的晶相結構有很大的影響,焙燒溫度高於750時,應採用分段焙燒工藝以防止局部高溫形成li _ 2mno _ 3雜質。In this paper, the optimum conditions of catalyst preparation were found by studying the influences of the sol - gel process parameters on the crystal structure of the nanometer la1 - xsrxmno3, such as the value of original solution ph, the temperature of water bath, the baking temperature of sol
本文研究了採用溶膠-凝膠法制備納米鈣鈦石型氧化物催化劑過程中,初始溶液ph值、水浴溫度、焙燒溫度對納米la1 - xsrxmno3晶體結構影響。In order to overcome the disadvantages of traditional solid brick, to protect environment and to economize resources, the author first recommended the experimental study of drying and firing of coalstore - shale fired perforated brick. the result assumed the effect of percentage of water content, raw material fineness, temperature and insulation time on property of coalstore - shale perforated or hollow brick
論文首先針對傳統實心磚存在的問題,從環境保護和資源綜合利用出發,以頁巖、煤矸石為原料制磚,通過頁巖、煤矸石制磚中乾燥、焙燒試驗研究,總結了原料化學成份、顆粒粗細程度、乾燥速度、含水率以及焙燒溫度等因素對煤矸石多孔磚、空心磚性能的影響。By the increasing of temperature, liyco3 - xo4 was further changed into licoo2 and lixco1 - xo, and then licoo2 formed by the reaction of lixco1 - xo with li2o. the reaction that produces licoo2 is almost completely done at 700, although some remaining li2o and li2co3 present as a partially amorphous film dispersed on the surface of licoo2, which can accelerate the growth of licoo2 crystallites. however, when temperature is higher than 850, some of licoo2 begin to decompose into the solid solution phase of liyco2 - yo2 and lixco1 - xo, and damaged its own crystal structure
制備licoo _ 2的合成反應中licoo _ 2的微結構不斷發生變化,隨著焙燒溫度升高, co _ 3o _ 4晶粒逐漸減小, licoo _ 2晶粒和顆粒逐漸長大,晶格內部缺陷減少, licoo _ 2晶格趨于完整,在焙燒溫度為850時licoo _ 2晶粒達到最大值;焙燒溫度低於700 ,晶胞參數a隨著焙燒溫度上升而減小,晶胞參數c隨著焙燒溫度上升而增大;而高於700則晶胞參數基本保持不變。In this work, layered lini1 - xalxo2 ( 0 < x 1 / 2 ) solid solution materials were successfully synthesized by current co - precipitation method in the air, and their preparation and properties were deeply and systematically explored. influences of different factors on the structure and properities of samples were studied, including li resources, different performs, li / m ( oh ) 2 molar ratio, calcining heat condition, the best synthesis technics were concluded : sintered for 16h at 700 from li source ( lithium nitrate ) : m ( oh ) 2 = 1. 05 : 1, ultrasonic vibration for dispersing and catalysing are best. lini0. 8al0. 2o2 exhibited a discharge capacity of 130. 7 mah ? g - 1 in the voltage range of 2. 8 ~ 4. 40v and at a specific current of 0. 2 c. a new co - precipitation method was proposed, it included ultrasonic for dispersing and catalysing, by dropping lioh to the aqueous solution of metal nitrates, hydroxides of metals were precipitated and the resulting solution was evaporated as received
採用傳統共沉澱工藝在空氣氣氛中成功地合成出了二元lini1 - xalxo2 ( 0 < x 1 / 2 )層狀固溶體系列,綜合考察了不同鋰源、預處理方式、鋰的配比量、焙燒溫度等條件對合成產物的結構和性能的影響,確定出了最佳合成工藝:以硝酸鋰為鋰源,超聲波作為分散動力源,鋰源與鎳鋁金屬鹽摩爾比為1 . 05 : 1 , 700下焙燒16h的lini0 . 8al0 . 2o2樣品電化學性能最佳,在2 . 8 ~ 4 . 40v之間, 0 . 2c的倍率放電可逆容量達130 . 7mah ? g - 1 。Through the synthesis of licoo2 by using non - water dispersant and two - step roasting, influences of microstructures of precursor, the roasting temperature and the reaction time on the electrochemical properties of licoo2 were studied. it indicated that co3o4 with nano - crystalline have very good electrochemical property, and can shorten solid reaction time
02的制備工藝,考察了不同微結構的co30 ;先驅物,焙燒溫度和焙燒時間等工藝條件對licoo ,電化學性能的影響,其中以納米晶co3o ;制備出的licooz表現出優良電化學性能,且大大縮短了反應時間。( 2 ) the affecting factors such as components in precipitation process, the add - on, add on of precipitator, calination temperature and calination time were studied in the preparation process of ceo2 nanoparticles. the tg was used to analyze the processor, the xrd, sem and tem were used to characterize the size of crystal type of products. by a series of designed experiments the interaction between different factors and impacts on the preparation of ceo2 nanoparticles were probed, and the optimum preparation condition was gotten
( 2 )對納米二氧化鈰制備過程中可能的一些影響因素(反應組分的濃度,沉澱劑的加入量,焙燒溫度,焙燒時間等)進行了研究,並通過tg ? dta分析手段對前驅物進行熱重分析;用xrd 、 sem及tem等測試手段對產物的粒度和晶型進行分析;探索了各個因素對納米二氧化鈰制備的影響及各因素間的交互作用;確定了在該試驗條件下制備納米二氧化鈰比較優化的制備條件。分享友人