The thermal activation of coal gangue has the optimum activation temperature when keeping the same fineness;
在保持细度相同的情况下,对于煤矸石的热力活化存在最佳活化温度;
The principles of effect of system pressure, activation temperature and content of fluorine were obtained by the phase diagrams.
通过相图讨论了系统压力、激活温度和氟含量对低压金刚石薄膜淀积条件的影响,可以为实验研究提供理论指导。
A lot reaction factors, involving activation temperature, activation time, reaction temperature, reaction time, the amount of solvent, were investigated in detail.
详细地考察了活化温度和活化时间以及反应温度和反应时间、溶剂用量对烯丙基醚化反应的影响。
Results indicated that activation temperature, temperature holding time and activation agent ratio determined the depth of activation and the micropore distribution.
实验结果表明,活化剂用量、活化温度和活化时间都决定着活化反应的深度。
Subsequently, the porosity of activated carbon can be controlled by modification of the concentration of phosphoric acid, impregnation ratio and activation temperature.
磷酸活化活性炭的孔隙结构能通过调整磷酸浓度、浸渍比和炭活化温度进行控制。
The results show that choosing a temperature corresponding to the maximum sensitivity on the TAC curve as the activation temperature is very important in the multiple activation method.
结果表明在多次激活中采用能使样品获得最高灵敏度的激活温度是十分重要的。
And proceeded the research to a series of influence factor in activate process, such as the activation time, activation temperature the concentration of calcium carbonate and the dose of activators.
并对活化过程中的一系列影响因素,如活化温度、活化时间、碳酸钙悬浊液浓度、表面改性剂用量进行了研究。
The rate of antioxidant degradation is affected by extrusion temperature, holding time, heating methods and the activation energy of the antioxidants.
挤压稳定化温度、保温时间、加热方法和抗氧化组分的活性能影响抗氧化组分的分解速率。
Low temperature heating, based on the aesthetically integrated Concrete Core Activation (both used for heating and cooling), has an extremely low environmental impact.
低温加热,基于美观的综合混凝土核心(可用于加热和冷却),对环境影响极低。
The influences of strain and temperature on microstructure of AZ91D alloy for upsetting in the strain-induced melt activation process were investigated.
研究了AZ 91d镁合金在应变诱发熔化激活法处理过程中形变率和形变温度对组织的影响。
A quantitative relationship between dynamic fracture toughness and temperature and loading rate has been obtained through thermal activation analysis.
通过热激活分析,可以获得定量描述动态断裂韧性、温度及加载速率之间的关系。
The activation of terres rares in aluminum impregnation changing with temperature, and the effect on seeping depth are discussed.
对渗铝中稀土的活化作用随温度的变化及对渗层深度的影响等进行了探讨。
The calcining temperature and the grinding time of mechanical-thermal complex activation has little influence on the early strength of coal gangue cement, but has great influence on late strength.
机械-热力复合活化的煅烧温度、粉磨时间参数对掺煤矸石水泥早期强度的影响不大,但对后期强度有较大影响。
In this paper, calcined coal gangue at different temperatures is studied systematically, so as to look for the optimum calcined temperature, and its activation mechanism is briefly discussed.
对不同温度煅烧的煤矸石进行了系统研究,以寻求煤矸石最大活性的煅烧温度,并对其活化机理进行了初步探讨。
The activation ambience, reaction temperature, catalyst's send live time, gas flow rate were used to study the best catalyst.
对最优催化剂进行了活化气氛、反应温度、催化剂致活时间、反应气流速等方面的考察。
Whereas the apparent activation energy (Q) is affected by microstructure, temperature and strain rate.
合金的表观激活能与材料的状态、变形温度及变形速率有关。
The effects of electrode activation condition, current density, electrolyte temperature on electrolytic reduction are discussed.
讨论了电极活化条件、电流密度、电解液温度等因素对电解还原反应的影响。
Experimental data showed that for the treated wood there was an increase in char yield and LOI, and decreases in activation energy and temperature of decomposition.
结果表明,经过阻燃处理的木材其氧指数和剩碳率比未处理的木材升高,而热降解反应活化能和分解温度降低。
The activation energy of growth was calculated from the relation between growing rates and reaction temperature.
由线性生长速度与温度的关系计算了生长活化能。
The microstructure of AZ61 magnesium alloy by strain-induced melt activation (SIMA) process was studied to reveal the effects of prior compressive deformation, isothermal temperature and holding time.
研究了AZ61镁合金在应力诱发熔体激活法(SIMA)制备半固态坯料过程中预变形量、等温温度和保温时间对其组织的影响。
The electrical properties of the films were characterized by their room temperature electrical conductivity and the activation energy.
利用薄膜的暗电导和激活能对硅薄膜的电学特性进行了表征。
Concretely, the effect of different mol ratio, reacting time, reacting temperature, solvent styles, etc. on the reacting activation have been probed into.
研究了不同摩尔比、反应时间、反应温度、溶剂种类等对反应活性的影响。
The activation surface and the process of heating cleaning have also been analyzed systematically and the optimum temperature and time for surface cleaning have been determined in the paper.
本文还对激活表面及热清洁工艺进行了系统地分析,确定出了最佳的表面清洁温度及时间。
When temperature of coloring solution and activation conditions change, it can be changed, but the deepest color tone is orange - red.
而改变槽液温度、活化条件可改变饱和色,但最深色调为桔红色。
The enthalpy change, activation energy and glass transient temperature can be obtained with samples of only a few milligrams.
只使用微量试样,即能获取该样品的焓变、活化能、玻璃化转变温度等。
With the content of disordered carbon declining, the reactivity fall, ignition temperature and ignition activation energy increase.
随煤焦的无序碳含量减少,其活性变小,对应的着火温度增加,活化能增加。
A new silicon membrane, which is employable in gas separation at higher temperature, is developed by control pyrolysis and activation of a thermosetting.
通过热固性硅树脂膜的控制裂解和活化,开发出一种新型的可用于高温气体分离的硅膜。
The problem of the low early strength of Belite cement can be solved by adding minerals which has high early strength or appropriate activation or burning at low temperature.
虽然贝利持矿物早期强度较低,但通过引入早强矿物或加适当的稳定活化剂或低温煅烧等方式可以解决贝利特水泥早强低的问题。
A new silicon membrane, which is employable in gas separation at higher temperature, is developed by control pyrolysis and activation of a thermosetting. silicon resin membrane.
通过热固性硅树脂膜的控制裂解和活化,开发出一种新型的可用于高温气体分离的硅膜。
A new silicon membrane, which is employable in gas separation at higher temperature, is developed by control pyrolysis and activation of a thermosetting. silicon resin membrane.
通过热固性硅树脂膜的控制裂解和活化,开发出一种新型的可用于高温气体分离的硅膜。
应用推荐