Experiment result shows that the EDFA gain decreases while temperature increases.
从理论和实验两方面证实了EDFA的增益随温度的升高而降低。
On the other hand, both the glass temperature and cold crystallization peak temperature of PEEK increases and melting peak strength decreases while the melting time becomes longer.
熔融时间延长时,聚醚醚酮的玻璃化转变温度和冷结晶峰温度均提高,熔融峰强度减弱。
It is demonstrated that the high temperature temporal strength increases with the increasing of iron content while as the room temperature strength decreases.
随着铁含量增加,合金的高温短时抗拉强度增加,但室温抗拉强度下降。
Results show that the elastic modulus and flow stress decreases with the increase of temperature, while the stress rises with the strain rate increases.
结果表明:弹性模量和流变应力随变形温度的升高而降低,而流变应力随应变速率的提高而增大。
The melting temperature of PA6/PTFE blends increases with PTFE content, while the melting enthalpy decreases with PTFE content.
PTFE共混物的熔融温度随PTFE含量的增加而升高,熔融焓却随PTFE含量的增加而降低。
The experimental results show that in the process of flow excursion the mass flow rate and the inlet temperature decreases, while the exit temperature increases smoothly.
研究结果表明:在发生静态流量漂移时,系统循环流量下降、加热段的进口温度下降而出口温度上升;
When carbon conversion efficiency increases, the gasification temperature decreases, while the yield of dry gas, the heating value and the gasification efficiency increase.
在气化压力增加的过程中,气化温度和气体热值增加,干气体产率和气化效率下降。
At room temperature and high temperature the tensile strength of the forging decreases firstly and then increases while the ductility changes on the contrary.
室温和高温拉伸强度随锻造火次的增加呈现先减少后增加的趋势,塑性则先增加后减小。
The viscosity of liquids decreases rapidly with an increase in temperature, while that of gases increases with an increase in temperature.
液体黏度随温度上升迅速降低,气体黏度则随温度上升而增加。
With the temperature increasing, the peak energies for both emissions show a red shift. Moreover, the yellow emission intensity decreases while the violet emission intensity increases.
随着温度升高,这二种发光峰对应的峰值能量均红移,黄光发射峰的发光强度降低而紫外发光峰的强度则增强。
With the temperature increasing, the peak energies for both emissions show a red shift. Moreover, the yellow emission intensity decreases while the violet emission intensity increases.
随着温度升高,这二种发光峰对应的峰值能量均红移,黄光发射峰的发光强度降低而紫外发光峰的强度则增强。
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