Results: the excitation temperature and electron density decreased when the concentration of HCl and HAc increased.
结果:随着醋酸、盐酸浓度的增加,等离子体激发温度、电子密度随之降低。
The excitation temperature of laser plasma was measured to explain the mechanism that the line intensities increase.
为解释谱线强度增强的机理,测量了等离子体的激发温度。
Objective: To investigate the influence of excitation temperature and electron density in ICP for HCl and HAc solvents.
目的:探讨了醋酸、盐酸对电感耦合等离子体激发温度、电子密度的不同影响。
The results show that the relations between the excitation temperature and arc dischargable post under different current and different electrode gap.
在电极间隙增大时电弧放电柱放大而激发温度升高。
Conclusion: HCl and HAc result in the decrease of excitation temperature and electron density. HAc has more obvious impact on excitation temperature and electron density.
结论:醋酸、盐酸使等离子体激发温度、电子密度降低,醋酸比盐酸对等离子体激发温度、电子密度影响更显著。
The methods measuring excitation energies and temperature of highly excited nuclear matter and their reliability have been summarized.
评述了高激发核的激发能及核温度的测量方法,以及这些测量方法的可靠性。
As a result of selective excitation, heat will be generated in a homogenate leading to an increase of its temperature.
这种选择性激发的结果就是在匀浆中产生的热量会尽快达到它所需要的到达的温度。
In the high tension field, the excitation and ionization of particles on the fuel drop surface only need the lower cylinder temperature to realize the better second atomization.
在高压电场中,燃油液滴表面的粒子得以激化和离子化,只需较低的汽缸温度,就可得到较好的二次雾化。
The dynamic properties of the circular tube VE dampers are tested under different environment temperature, excitation frequencies and shear strain amplitudes.
本文对筒式粘弹性阻尼器在不同环境温度、激励频率和应变幅值下的动力性能指标进行了试验研究。
The calculated results of excitation and rotation temperature consistently illustrate the plasma jet is non-thermal in nature.
射流的激发温度和转动温度结果显示,这是一种冷的等离子体射流。
When measuring temperature using an RTD, the excitation current itself produces I 2r, or Joule heating, producing an indicated temperature somewhat higher than the temperature being measured.
当测量温度中使用电阻式温度检测器,励磁电流本身这个温度产生I2r,或焦耳热化,产生一个比指示温度稍微高一点的温度标准。
As a result, the process of the spin excitation delay through spin polarized excitation is not related to temperature; however, the process through thermal excitation is temperature dependent.
结果表明:经自旋极化激发实现的自旋激化弛豫过程与温度无关,而经热激活的自旋激发弛豫过程与温度有关。
The pressure difference and change between high-pressure chamber and low-pressure chamber at different speed excitation and oil temperature are obtained.
模拟得到了叶片式液压减振器模型在不同速度激励、油液温度下,相邻高、低压腔内压差大小及变化规律。
The absorption, fluorescence, excitation and infrared spectra of such crystal were measured and analyzed at room temperature.
测定了该晶体的结构以及吸收光谱、荧光光谱和激发光谱。
Fe-based nanocrystalline core transformer inverter which has a high saturation magnetic flux density, high efficiency, small excitation power, low loss, good temperature stability.
铁基纳米晶逆变变压器磁芯其具有高饱和磁感应强度,效率高,激磁功率小,损耗低,良好的温度稳定性。
In this paper, excitation effects of alkali, gypsum, lime and temperature on the pozzolanic activity of fly ash were researched.
研究了碱、石膏、石灰和温度对粉煤灰火山灰活性的激发作用。
The influence rules of absorber structure parameters, exterior excitation and air speed on the increased oil temperature are also analyzed.
编程分析了筒式减振器缸体结构参数、外界激励以及空气流速对其油液温升的影响规律。
Furthermore, the influences of the elastic collision rate on the temperature increase of the atom cloud in the process of parametric excitation are also addressed.
此外,还研究了弹性碰撞速率对参变激发过程中原子温度上升的影响。
Temperature distribution and its amplitude of the sensor under constant current excitation are simulated with finite element method.
用有限元方法模拟了恒流加热方式下气压对传感器温度分布和温度大小的影响。
In operation, a small excitation current is passed across the element, and the voltage, which is proportional to resistance, is then measured and converted to units of temperature calibration.
在操作中,微弱电流通过元件,电压与电阻正比,然后测量并转换为温度校正的组件。
Motor has thermo-elements to monitor temperature, electronic tachometer and high pressure oil jacking device when needed. The excitation device currently uses micro- computer control device.
电机带有测温元件以监控温度,还带有电子测速装置、需要时可带高压油顶起装置。
Can be controlled by temperature and inorganic non-metallic high-temperature activator hydration activity of plugging the excitation and the thickening and hardening speed and strength after curing.
可以通过温度和活化剂控制无机非金属高温调堵材料水化活性的激发及稠化、硬化速度以及硬化后的强度。
Can be controlled by temperature and inorganic non-metallic high-temperature activator hydration activity of plugging the excitation and the thickening and hardening speed and strength after curing.
可以通过温度和活化剂控制无机非金属高温调堵材料水化活性的激发及稠化、硬化速度以及硬化后的强度。
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