The optimum reaction temperature and time were given.
给出了最佳反应温度和反应时间。
The proper amount of DBTL catalyst of reaction temperature were given.
确定了适宜的催化剂用量和反应温度。
Polymerization speed increases with the increase of reaction temperature.
聚合反应温度提高,聚合速率加快。
The proper reaction temperature and time are determined in the experiment.
通过试验,确定了合适的反应温度和反应时间。
The effects of reaction temperature and catalyst on esterification has been discussed.
讨论了反应温度、催化剂对酯化过程的影响。
The higher reaction temperature was given, the better crystal morphology was appeared.
水热反应温度的提高有利于获得形貌规则的晶粒;
Static adsorption showed that the adsorption effect was related to reaction temperature.
静态吸附结果表明,反应温度对纤维的吸附效果有影响。
The influence of reaction temperature and gas flow rate on purification efficiency was studied.
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 reaction time on degree of esterification were investigated.
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。
A comparative study showed that the yield was low when the reaction temperature was too low or too high.
反应温度过高或过低,碳纳米管的产率都很低。
Effects of reaction time, ozone concentration and reaction temperature on oxidation of HDPE were studied.
研究了反应时间、臭氧浓度和反应温度对HDPE氧化程度的影响。
The influence which the reaction time and the reaction temperature had made to adsorption capacity was studied.
在此基础上研究和探讨了反应时间、反应温度对吸附剂吸附能力的影响。
The effects of monomer concentration, initiator, reaction temperature and time on copolymerization were studied.
考察了单体浓度,引发剂浓度,反应温度和时间等对共聚反应的影响。
The factors which affect the reaction, such as reaction temperature and raw material ratio, have been discussed.
有关反应温度、原材料配比等因素对反应的影响都进行了详尽的研究。
The effect of phase reaction temperature of salt roasting and other factors on vanadium recovery is investigated.
研究了氯化钠焙烧中相反应温度及其它与钒转化浸出率的有关因素。
The influences of reaction temperature and amount of sulfonating agent on sulfonating reaction were investigated.
考察了反应温度、磺化试剂用量对磺化反应的影响。
The effects of reaction temperature and chloride concentration on the deposition rate of metal are also discussed.
同时还讨论了反应温度和氯化物浓度对金属沉积速度的影响。
Effects of reaction temperature, reaction time, solvent, catalyst and its amount on prepolymerization was studied.
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。
The effects of organic promoter, catalyst amount, reaction temperature and time on the synthesis were investigated.
考察了有机助剂、催化剂用量、反应温度、反应时间等因素对反应的影响。
In the simulated dye wastewater's treating system, increasing reaction temperature benefit to the dyes' degradation.
在模拟染料废水处理体系中,提高反应温度有利于染料的降解。
The catalysts, mechanisms, effects of reaction temperature and reactant flow rate on the reaction were also described.
文中简介了催化剂、反应机理,以及反应温度和进料流率对反应的影响。
The influence of reaction temperature, used solvents and catalysts on the prepolymerization reaction was investigated.
研究了反应温度、溶剂、催化剂及用量对预聚反应的影响。
The influence of catalysts, solvents, reaction temperature, dosage of the reactants on the co-oxidation were discussed.
探讨了催化剂、溶剂、反应温度及反应物用量等对共氧化行为的影响。
The results showed that reaction temperature should be low at first, and then increasing temperature to complete reaction.
结果显示:在较低温度下,通过较长的反应时间可以使反应更好地向设计方向进行。
And discussed the reaction temperature, the ratio of reagent, the solvent concentration, reaction time on the production rate.
并讨论了反应温度、反应物的摩尔比、溶剂的用量、反应时间对产率的影响。
Technological process and formula of the coating is presented and effects of reaction temperature on coating performance discussed.
介绍了该涂料的生产工艺和配方,讨论了反应温度对其性能的影响。
The influence of reaction temperature, initiator level. reaction time and rubber level on the graft polymerization was investigated.
考查了反应温度、引发剂用量、反应时间和胶用量对接枝共聚反应的影响。
The influences of medium alkalinity, solvents, reaction temperature and reaction time on the yield of the product were investigated.
讨论了介质碱性、溶剂、反应温度和反应时间等工艺条件对产物收率的影响。
The product distribution could be improved by using higher reaction temperature to improve atomization and gasification of feedstock.
增大剂油比,提高反应温度可以改善原料油的雾化、汽化效果,对改善裂化产物的产品分布有利。
The product distribution could be improved by using higher reaction temperature to improve atomization and gasification of feedstock.
增大剂油比,提高反应温度可以改善原料油的雾化、汽化效果,对改善裂化产物的产品分布有利。
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