煅烧碳质页岩用作水泥混合材的研究--水泥工程杂志社 关键词:碳质页岩;活性;煅烧温度;水泥混合材 [gap=970]Keywords: carbonaceous shale; activity; calcination temperature; cement admixture
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...焙烧温度 钯 二氧化钛 负载型催化剂 [gap=1312]Keywords】: terephthalic acid,p-carboxy benzaldehyde,hydropurification,calcination temperature,palladium,titanium dioxide,supported catalyst ..
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...calcination temperature;spray-drying technology;slurry reactor;attrition resistance; 费-托合成;铁基催化剂;焙烧温度;喷雾干燥技术;浆态床反应器;抗磨损性能; Copper has less resistance than lead.
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optimum calcination temperature 最佳煅烧温度
calcination temperature system 焙烧温度
calcination temperature and time 焙烧温度和时间
lower temperature calcination 低温煅烧
low-temperature calcination 低温煅烧
low temperature calcination [建] 低温煅烧
middle temperature calcination 中温煅烧
The outcome indicates that when calcination temperature is higher than 500℃,catalytic activity reduced obviously.
结果表明当焙烧温度高于500℃时,催化剂活性明显降低。
参考来源 - 低浓度甲烷催化燃烧整体式催化剂的研究The optimum preparation conditions are as follows:mass ratio of attapulgite to TiO2 1:3.0 and calcination temperature 450℃.
制备复合催化剂的最佳条件:凹凸棒土与TiO2的质量比为1:3.0,煅烧温度为450℃。
参考来源 - TiOThe relation between firing temperature and calcination temperature was discussed. The effect of fired temperature on ceramic density was studied.
粉体干压成型后,对比不同温度烧结陶瓷的性能,得到最佳烧结温度,并讨论了烧结温度与预烧温度之间的关系和对瓷体密度的影响。
参考来源 - 片式PTCR元件用粉体的solThe optimum support calcination temperature of Pt/Al2O3-TiO2 catalysts was 900℃which was determined by investigation of support calcination temperature.
通过对载体焙烧温度的考察得出:Pt/Al2O3-TiO2催化剂载体最适合的焙烧温度为900℃。
参考来源 - 重整抽余油加氢催化剂及工艺研究②Experimental results show that Calcined modified lithium slag optimum process parameters is, calcination temperature of 1000℃, calcination time of 45min,after rapid cooling and grinding 15min to be modified products.
②高温化学改性锂渣最佳的工艺参数:煅烧温度1000℃,煅烧时间45min。 煅烧后粉体经过急速冷却,粉磨15min后得到化学改性粉体。
参考来源 - 改性锂渣硅铝酸盐混凝土研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The suitable process system, such as calcination temperature and calcination time etc. has been found out.
摸索出合适的煅烧温度、煅烧时间等工艺制度。
The flux dosage and calcination temperature, which affect luminosity of the fluorescent powder, are the major controlling factors.
激活剂用量和煅烧温度影响荧光粉的发光亮度,是主要控制因素。
The effect of calcination temperature, content of nickel and molybdenum on the selective hydrogenation performance of catalyst were investigated.
考察了载体焙烧温度、金属镍与钼的负载量对催化剂选择性加氢性能的影响。
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