英语翻译本论文利用A与B在没有催化剂存在的情况下反应生成C.并通过三因素三水平正交试验得到了C的最佳反应条件,最佳反应条件为:反应温度X ℃,反应时间Y h,反应压力Z MPa.通过研究反应温
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英语翻译本论文利用A与B在没有催化剂存在的情况下反应生成C.并通过三因素三水平正交试验得到了C的最佳反应条件,最佳反应条件为:反应温度X ℃,反应时间Y h,反应压力Z MPa.通过研究反应温
英语翻译
本论文利用A与B在没有催化剂存在的情况下反应生成C.并通过三因素三水平正交试验得到了C的最佳反应条件,最佳反应条件为:反应温度X ℃,反应时间Y h,反应压力Z MPa.通过研究反应温度、反应时间、反应压力与A的吸附量以及产物粘度的关系可知,反应温度越高,A的吸附量以及产物粘度越大,但反应压力、反应时间对A的吸附量以及产物的粘度影响不大.比较反应温度、反应时间、反应压力三者之间的实验结果可知,A的吸附量与产物粘度有密切的关系,A的吸附量越大,产物粘度也越大.并通过红外光谱、碳谱检测手段表征了C的结构,利用凝胶渗透色谱计算出C的聚合度.
英语翻译本论文利用A与B在没有催化剂存在的情况下反应生成C.并通过三因素三水平正交试验得到了C的最佳反应条件,最佳反应条件为:反应温度X ℃,反应时间Y h,反应压力Z MPa.通过研究反应温
本论文利用A与B在没有催化剂存在的情况下反应生成C.并通过三因素三水平正交试验得到了C的最佳反应条件,最佳反应条件为:反应温度X ℃,反应时间Y h,反应压力Z MPa.通过研究反应温度、反应时间、反应压力与A的吸附量以及产物粘度的关系可知,反应温度越高,A的吸附量以及产物粘度越大,但反应压力、反应时间对A的吸附量以及产物的粘度影响不大.比较反应温度、反应时间、反应压力三者之间的实验结果可知,A的吸附量与产物粘度有密切的关系,A的吸附量越大,产物粘度也越大.并通过红外光谱、碳谱检测手段表征了C的结构,利用凝胶渗透色谱计算出C的聚合度.
意思为:
In this paper,using A and B in the absence of reaction in the presence of C catalyst.And the best reaction conditions of C were obtained by three factors and three levels of orthogonal test,the optimum reaction conditions were:reaction temperature X ℃,reaction time Y,reaction pressure h,Z MPa.The adsorption capacity of the reaction temperature,reaction time,reaction pressure and A and the relationship between the product viscosity,the higher the reaction temperature,the adsorption quantity of A and the viscosity of product is high,but the A adsorption amount of reaction pressure,reaction time and the effect of the product viscosity is not.The experimental results were compared between the reaction temperature,reaction time,reaction pressure three shows,there is a close relationship between the A adsorption amount and the viscosity of product,the more the adsorption of A,the viscosity of product is greater.And characterized by infrared spectroscopy,NMR detection was characterized by means of C,using gel permeation chromatography to calculate the degree of polymerization of C.
This paper use A and B in the absence of the presence of catalyst reaction
generated C. And through three factors and three levels orthogonal experiment
got C the best reaction conditions, t...
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This paper use A and B in the absence of the presence of catalyst reaction
generated C. And through three factors and three levels orthogonal experiment
got C the best reaction conditions, the optimum reaction conditions as follows:
reaction temperature ℃, X Y h reaction time, reaction pressure Z MPa. By
studying the reaction temperature, reaction time, reaction pressure, and the
adsorption quantity of A known and the relationship between the viscosity of
product, the higher the reaction temperature, the adsorption quantity of A
product and the greater the viscosity, but the reaction pressure, reaction time
on the adsorption quantity, and A little effects on the viscosity of the
product. Comparison between reaction temperature, reaction time, reaction
pressure of experimental results shows that the adsorption quantity of A product
with viscosity has A close relationship, A adsorption amount, the greater the
viscosity of product. And through ir spectra and carbon spectrum detection means
to characterize the structure of the C, gel permeation chromatography is used to
calculate the degree of polymerization of C.
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化剂存在的情况下反应生成C。翻译下面这段话
The dissertation shows and B reacted without catalyst to form C and finded the best reaction condition by the three factors and three levels orthogonal test. The best reaction condition: X℃.Yh and Z...
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The dissertation shows and B reacted without catalyst to form C and finded the best reaction condition by the three factors and three levels orthogonal test. The best reaction condition: X℃.Yh and Z MPa. By investigating change of the temperature ,the reaction time and the pressure ,we find:
1 the absorbing capacity of A and viscosity of product increasing when the temperature rising
2the change of the reaction time and the pressure did not much affect the the absorbing capacity of A and viscosity of product
In the comparative analysis of the test result of the change in temperature,time and pressure,we drew a conclusion: the viscosity of product is affected by the absorbing capacity of A,the viscosity become greater when the absorbing capacity becoming greater. We showed the structure of C by nfrared spectrography and C NMR detection ,caculated the degree of po;ymerisation of C by gel permeation chromotography.
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