The abrasive wear loss of the coatings was significantly influenced by particle temperature.
分析表明粒子的温度对涂层磨粒磨损质量损失有较大的影响。
Focuses influence on particle temperature out the urea prilling tower with the type of tower, granulator means, and natural conditions etc.
主要论述了尿素出塔粒子温度受造粒塔的类型、造粒手段,自然条件等方面的影响。
However, if a straight line is fitted for logarithmic spectrum data to give the particle temperature, it is better to minimize the temperature square error sum.
如果将能谱实验数据的对数拟合成直线以求得粒子温度,则最好对温度误差的平方和极小化。
The char particle temperature is calculated under the steady combustion condition by the mass and energy balance equation, the effect on the particle temperature by some parameters are analyzed.
通过建立单颗粒焦碳的质量和能量平衡方程,计算求解出焦碳颗粒在稳定状态下的温度,分析了一些参数对细焦碳颗粒温度的影响。
The study also shows that the ignition and combustion of boron particle lie on the resorting time and the environment temperature, and have no direct relationship with after-burning chamber's length.
研究还发现,硼颗粒的点火燃烧主要取决于硼颗粒在补燃室内的滞留时间和所处的环境温度,而与补燃室的长度没有直接关系。
This paper presents the application of wear particle analysis to the study of the effect of a particular factor (e. g. ionitriding temperature) on bearing failure.
本文介绍了磨损粒子分析在研究特殊因素(如离子氮化温度)对轴承失效的影响中的应用。
The influence of carbonizing temperature and time was investigated by XRD in this study. The morphology and particle distribution of the powder were observed by SEM.
根据X射线衍射图研究了直接还原碳化温度及时间对反应产物的影响,用扫描电镜观察了粉末颗粒形貌和粒度分布。
Temperature, SO_2 concentration, particle size, limestone type and original micro structure of sample affect the overall process of direct sulfation.
温度、so_2浓度、颗粒大小、石灰石类型和样品的微观结构影响着直接硫酸化反应过程。
The effects of reaction temperature and organic additives on the particulate properties such as the particle morphology and size are discussed.
本文对反应温度和有机添加剂对颗粒性能的影响,如颗粒的形貌和大小,进行了讨论。
Effects of coal rank, coal maceral, temperature, heating rate, coal particle size, residence time, atmosphere, and pressure on the phenols production in coal conversion were discussed in this paper.
本文探讨了煤化度、煤岩组成、温度、加热速度、煤颗粒大小、停留时间、反应气氛和压力对煤转化过程中酚类产生的影响。
The increase in the fluctuation intensity of gas temperature will further enhance the instantaneous particle mass loss during the coal devolatilization processes.
随着气相温度脉动强度的增加,这种加快颗粒瞬时质量下降即挥发分释放的趋势更为明显。
Study shows that particle diameter, oxygen and temperature of combustion environment play an important role on burnout or time for burnout of coal.
研究表明,煤粉颗粒的尺寸大小、燃烧环境中的氧量及环境温度对煤粉的燃尽或燃尽时间有很大的影响。
The results showed that the solid particle became finer, more homogeneous and rounder with the decrease of temperature or the increase of shearing rate.
研究表明:适量提高剪切速率或降低温度,半固态组织的固相颗粒会变得细小、均匀和圆整。
With the increase of particle size of the raw materials, combustion temperature and propagating rate will both reduce.
随着原料颗粒尺寸的增大,燃烧温度和燃烧波速度都减小;
When temperature dips below the optimal fusion level, the individual particle switches back on, reinstating current flow and heat deposition.
当温度骤降低于最优融合水平时,个别电颗子开关激活,恢复电流和升温。
The influences of vacuum decomposition conditions (temperature, time and particle size of cobalt oxalate) on the particle size and oxygen content of cobalt powder were tested.
考察了真空热分解条件(温度、时间、草酸钴粒度等)对产物钴粉粒度和氧含量的影响。
The color is the important physical property of the material, the factors. Such as structure, smooth degree of surface, size of particle and temperature, etc. have something to do with it.
颜色是物质的重要物理性质,它与物质的结构、表面光滑度、颗粒大小及温度等因素有关。
Corresponding to the formation of three new phases, the particle size reduced with temperature elevating.
随着温度的升高,粒径尺寸的变化存在三个明显减小的阶段,对应三个新相的形成。
The dependences of seepage velocity and bending strength on agglomerant content, forming pressure, particle diameter of the aggregate, soaking time, firing temperature and so on were discussed.
分别从外加粘结剂百分数、成型压力、骨料粒径、保温时间、烧成温度等因素对渗水砖的渗水速度和强度的影响进行了探讨。
When the size of resin particle decreased or the temperature increased, the rate of exchange reaction increased.
树脂粒径越小,反应温度越高,则反应速率越快。
Other factors of influencing er effect such as size and shape of particle, volume fraction, electric field strength, shear rate, temperature are discussed.
并对影响电流变液电流变效应的其它因素如聚苯胺粒子大小、形状,体积分数,外加电场强度,剪切速率,外界温度等进行了实验分析。
The results show that the temperature of the smaller char particle is close to the bed temperature, and there also exists a peak value for the burn-out time of char particles versus their diameters.
结果表明:粒径越小,其温度越接近于床内环境温度,而且燃尽时间随粒径变化的曲线将出现峰值。
The manufacture technology of sintered steel filter and influence of primary particle shape and size, pressing pressure and sintering temperature on filtering performance are discussed.
较详细地论述了不锈钢粉末冶金过滤器的制造工艺及原始粉末形状、粒度、压制压力和烧结温度对过滤性能的影响。
Effects of emulsifier types and amounts, polymerization temperature and feed methods on particle size, stability of latex and water proofing property of films were investigated.
探讨了乳化剂种类和用量、聚合温度及加料方式对乳胶粒大小、胶乳稳定性和胶膜耐水性的影响。
The hydrogen energy spectra during ICRF heating were measured with neutral particle analyzer in the HT-6M Tokamak lon temperature increase are observed.
介绍了用电荷交换分析器测量了HT-6M托卡马克离子回旋共振频率加热时的氢离子能谱,观察到离子温度的增加。
Microstructure, plasticity and mechanical properties at room temperature of the nano particle reinforcement aluminum matrix composites fabricated by in situ reaction and matrix alloy were studied.
用原位合成法制备了纳米颗粒增强铝基复合材料,研究了复合材料微观组织、室温拉伸强度、塑性,并与基体合金进行比较。
Influence of compound emulsifier's ratio and amount, reaction temperature, polymerization types and functional monomer amount on the emulsion resin particle size and its distribution were studied.
系统研究了复合乳化剂配比及用量、聚合温度、聚合方式和官能团单体含量对共聚物乳胶粒径及其分布的影响。
The influence of magnesium basic carbonate on MgO activity and particle size under conditions of different calcining time, calcining temperature and surface active agent.
碱式碳酸镁在不同的锻烧时间、锻烧温度、加表面活性剂等各种条件对氧化镁活性及粒度的影响。
The influences of particle size, calcining temperature, and time on the preparation of lime with high activity from small particles of limestone were studied.
研究了石灰石粒度、煅烧温度和时间对小颗粒石灰石煅烧制备高活性度石灰的影响。
The influences of particle size, calcining temperature, and time on the preparation of lime with high activity from small particles of limestone were studied.
研究了石灰石粒度、煅烧温度和时间对小颗粒石灰石煅烧制备高活性度石灰的影响。
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