在这些传感器中,有些对诸如光亮、温度等物理现象作出反应。
Some of these sensors react to physical phenomena such as light, temperature, and so on.
对温度的变化能作出快速的反应,并具有自动复位功能。
Changes in temperature can make a quick response, and automatic restoration of function.
怎么样可以降低反应的温度而使脚料减少。
How to reduce the temperature of reaction is expected to reduce the foot.
对拨基合成反应的温度进行了研究。
Abstract; the temperature of carbonyl synthesis reaction is studied.
当温度降低时,相反的反应就会发生。
摘要对羰基合成反应的温度进行了研究。
热解温度是影响煤矸石热解反应最主要的因素。
Temperature is the main factor to influence the coal residue pyrolysis.
结果表明,整个反应的速率常数受温度的影响较为复杂。
The results show that the temperature dependence of rate constants is complicated.
通过正交实验考察了反应时间、反应温度对聚乙烯醇酯化程度的影响。
The influence of reaction temperature and reaction time on degree of esterification were investigated.
选择和控制反应过程的温度是反应器设计和控制中的重要问题。
It is very important for reactor design and control to choose and control the temperature throughout the reaction process.
掌握反应速率常数与温度的关系。
To master the relation of reaction rate constant and temperature.
研究反应温度和气体流量对磷化氢净化效率的影响。
The influence of reaction temperature and gas flow rate on purification efficiency was studied.
分别考察了温度、催化剂、溶剂对单元反应过程的影响。
The effects of temperature, catalyst and solvent on cell reaction were studied.
探讨了温度对轴向配位反应的影响。
The influence of temperature on the axial reaction was discussed.
在很窄的温度范围以外,反应可能是爆炸性的。
The reaction may be explosive outside narrow temperature limits.
聚合反应温度提高,聚合速率加快。
Polymerization speed increases with the increase of reaction temperature.
对平行反应最优温度控制问题作了完整的研究和统一处理。
The optimal temperature control of the parallel reaction is completely studied and developed.
确定了适宜的催化剂用量和反应温度。
The proper amount of DBTL catalyst of reaction temperature were given.
本文讨论了年龄、温度对免疫反应影响的机理。
The influential mechanism of age and temperature on immune response has been discussed.
而随着温度的上升,反应越完全。
With the increase of temperature, the reaction is more complete.
结果表明,反应温度是影响水解速率的主要因素。
The results showed that hydrolysis temperature is a crucial factor to control the reaction rate.
提高反应温度和延长反应时间,均有利于锰锌铁氧体的晶化过程。
The crystallization process can be prompted by increasing the reaction time and temperature.
研究了合成温度和恒温时间对反应过程的影响。
The influence of synthesis temperature and holding time on synthesis was investigated.
该试纸反应不受温度影响。
The reactive temperature had no effect on the test paper reaction.
水热反应温度的提高有利于获得形貌规则的晶粒;
The higher reaction temperature was given, the better crystal morphology was appeared.
探讨了反应温度、反应时间、溶剂、催化剂及用量对预聚反应的影响。
Effects of reaction temperature, reaction time, solvent, catalyst and its amount on prepolymerization was studied.
通过试验,确定了合适的反应温度和反应时间。
The proper reaction temperature and time are determined in the experiment.
给出了最佳反应温度和反应时间。
改变反应温度,研究了配合物的液相生成反应的热力学性质。
The thermokinetics of formation reaction was studied at different temperature by liquid-phase reaction.
并且研究了反应时间和反应温度等最佳条件。
At the same time, we have researched the optimum conditions of reaction and reaction temperature.
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