The effects of the doping amount, the microwave heating time and power on the products were also investigated.
并分别考察了掺杂量、加热时间和功率对合成产品晶型的影响。
There were significant effect of microwave heating time upon drying rate , the effect of intermittent time upon drying rat depends on the heating time.
微波加热时间对干燥速度影响最大,间歇时间的影响受制于加热时间。
As the microwave heating time increased, the temperature of magnetite concentrates increased too, once the temperature reached a point, the temperature change slowed down.
研究结果表明:随着微波加热时间的延长,磁铁精矿温度逐步升高,到达一定高度后升温速率变缓;
Factors affecting sulfonation reaction such as microwave power, heating time, reactants ratio, swelling agent and the position of reaction container in cavity of microwave oven were investigated.
研究了微波功率、加热时间、反应物配比、溶胀剂、反应器在微波炉内的位置等因素对磺化反应的影响。
The changing regularity of drying speed, moisture content and surface temperature of wood was determined and analyzed at different microwave heating power and different heating time.
测定并分析了不同微波加热功率、加热时间条件下木材的表面温度、干燥速度和含水率的变化规律。
The results indicated that microwave irradiation has the advantage that the reaction time is much shorter compared with traditional heating method.
对微波辐射法和传统加热法试验结果进行比较可以得出,微波辐射法在反应时间上较传统加热法有较大优势。
Ceria and ammonium meta vanadate were selected as the feedstock, with microwave heating cerium vanadate was obtained in short time.
以二氧化铈和偏钒酸铵为原料,微波加热快速合成了钒酸铈。
Compared with the traditional technique of heating extraction, the microwave extraction technique is characteristic of short time, low temperature, low consumption and high quality.
微波萃取技术与传统加热提取技术相比,具有提取时间短、温度低、耗能低、品质高等优良特性。
Compared with the direct heating extraction, microwave extraction can greatly shorten the extraction time, decrease the extraction dosage, and improve the yield of the extractants.
与直接加热提取法相比,微波提取能大大缩短提取时间,降低提取剂用量,并能提高提取物收率。
The microwave heating could be shortened dye time greatly, and saved energy greatly.
微波加热可以大大缩短染色时间,节能效果明显。
The microwave insulator of the utility model has the advantages of short heating time, long heat insulation time and safe and convenient operation.
本实用新型的微波保温器具有加热时间短、保温时间长的优点,且使用安全、方便。
The same heating method in the same heating time, in certain scale, whether far infrared, microwave or drier, the higher the temperature raised the more effective the method was.
同一种加热处理加热相同的时间,无论是烘箱、微波、还是远红外处理在一定范围内温度越高降解效果越佳。
Results demonstrate that microwave heating is time and energy saving compared with the conventional heating.
结果表明,用和常规法相比微波合成钒酸铈可大大缩短合成所需的时间,能耗也大为减少。
The results showed that the reaction heated by microwave irradiation could be finished in a shorter time and could give a higher yield than heated by ordinary heating method.
结果表明,利用微波加热方法要比普通加热方法反应更快、收率更高、后处理更简单。
The utility model has reasonable structure, and the magnetron can constantly send out the microwave at one period, therefore, the electricity is fully used and the heating time is shortened.
本实用新型结构设计合理,磁控管能够在一个周期内不间断的输出微波,充分利用电能,缩短加热时间。
The utility model has reasonable structure, and the magnetron can constantly send out the microwave at one period, therefore, the electricity is fully used and the heating time is shortened.
本实用新型结构设计合理,磁控管能够在一个周期内不间断的输出微波,充分利用电能,缩短加热时间。
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