The characters of quartz crystal temperature sensor have been introduced.
介绍了石英晶体温度传感器的主要性能指标。
Meanwhile, the range of additive contents and crystal temperature were discussed.
同时,讨论了添加剂的添加量范围和适宜的结晶温度。
The continuous temperature coefficient was got by fitting the crystal temperature coefficient.
拟合了晶体的温度系数,得到了连续的温度系数值。
The influences of heat transfer coefficient and cooling water temperature on crystal temperature are computer.
计算了不同对流换热系数和冷却水温度对晶体温度的影响。
The PT acid content in PTA was controlled from the aspects such as in-feeding, crystal temperature, slurry flow and residence time.
从进料、结晶温度、浆料流速和停留时间等几个方面进行控制,降低了PTA中的PT酸含量。
Besides, the crystal temperature influenced on experiment result was analyzed, and temperature matching condition of LBO was given out.
另外从理论上分析了晶体温度对实验结果的影响,推导出了LBO晶体的温度匹配条件。
With the help of the orthogonal experimentation we analyse the academic number of the Pre-freezing and sublimation-drying time, measure co-crystal temperature and the drying time.
通过正交试验对预冻时间和升华干燥时间进行了分析,测量了黄瓜的共晶点温度和干燥时间。
To prevent from heat crack, the choose of aluminum alloy with small crystal temperature range and the use of metal cast model, as well as adoption of gradual solidification style will be effective.
选择有效结晶温度范围小的铝合金、采用金属型铸型以及逐层凝固的冷却方式可以有效消除裂纹。
Why snow crystal shapes change from thin, flat plates to long, slender needles when the temperature changes remains something of a scientific mystery.
为什么在温度变化时雪晶的形状也随着变化,从薄且平的盘状变成长且细的针状,这仍是一个科学之谜。
We looked at pressure change before, actually, in discussing the third law, the fact that the entropy goes to zero as the absolute temperature goes to zero for a pure, perfect crystal.
在讨论热力学第三定律的时候,我们讨论过压强变化,即对于纯净的完美晶体,随着温度下降到绝对零度熵也变成零。
The subsidence of the bottom and the cracks in the middle of the bottom are caused by temperature gradient and melt gravity during crystal growth.
晶体生长期间,温度梯度和熔体重力引起的热应力和压力应力使坩埚底下陷并在底的中部产生裂隙。
With decreasing grain sizes, its crystal structure, ferroelectricity and phase transition temperature all indicated the character of size effect.
随着晶粒尺寸的减小,它的晶体结构、铁电性和相变温度等都表现出尺寸效应。
X-ray spectral lines emitted by high temperature plasma can be taken by means of crystal spectrograph in laser-plasma experiments.
在激光等离子体实验中,用晶体谱仪可获得高温等离子体所发射的X光谱。
These results indicate that the microhardness of crystals depends not only on the crystal structure and lattice energy but also on temperature.
最后指出晶体硬度不仅与晶体的结构、晶格能有关,而且也与温度的影响有关。
The system error of infrared photometric measurement on the saturation temperature and supersaturation of crystal magma were qualitatively and quantitatively analyzed.
对于红外光度法测量晶浆饱和温度、过饱和度的系统误差作了定性和定量的分析。
The test conducted includes the temperature, salty, density, crystal structure, uniaxial compressive strength and flexural strength of sea ice.
试验内容包括海冰的温度、盐度、密度、晶体结构、单轴压缩强度和弯曲强度。
The growth velocity of the crystal depends on the undercooling, temperature gradient and original particles in the precursor.
晶体生长速率取决于过冷度、温度梯度和初始粉末颗粒尺寸。
This paper presents an expression for temperature distribution in growing crystal by considering the ambient temperature gradient as a variable introduced in LEC model.
本文把环境温度梯度作为一个变量引入LEC法生长的理论模型中进行分析,得到了晶体中温度分布的表达式。
The factors influencing the morphology and strength of the samples such as heating temperature, extraction condition, crystal content and powder diameter were discussed.
探讨了热处理温度、萃取条件、晶须含量、粉体粒径对偏磷酸钙产物形貌和复合材料强度的影响。
Equivalent thermal conductivity was introduced to simplify the structure of photonic crystal fiber, and then three dimensional temperature field model of photonic crystal fiber laser was established.
通过引入等效热传导率对光子晶体光纤结构进行简化,建立了光子晶体光纤激光器的三维温度场模型。
Scientists aren't sure why temperature affects crystal formation and leads to different shapes of snowflakes.
科学家们不能确定为什么温度影响结晶状的形成和导致不同的雪花的外形。
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;
It is written in a C51 liquid crystal display of the temperature measuring device, can display the measured temperature.
这是用C51编写的有液晶显示的温度测量仪,能显示测量的温度。
Its crystal structure, and piezoelectric properties and depolarization temperature were investigated.
研究了该体系陶瓷微观结构、压电性能和退极化温度的变化规律。
The effects of the reaction time, the sintering temperature on the crystal morphology of HAP and homogeneity were investigated.
研究了化学反应时间与烧结温度对HAP的结晶度和颗粒均匀性的影响规律。
The results show that compared with the common semi-dull PET chip, the super bright PET has higher crystallization temperature, lower crystal enthalpy and crystallinity.
结果表明,和常规半消光PET切片相比,超有光聚酯切片冷结晶温度较高,结晶热焓较低,结晶度较小;
Of TCXO, Microprocessor temperature compensated crystal oscillator (MTCXO) is a comparatively new-type digital compensated crystal oscillator.
在TCXO中,微处理机补偿晶体振荡器(MTCXO)是一种比较新型的数字式温度补偿晶体振荡器。
After adding the crystal change promoter a, the content of FeOOH in iron red was decreased and the temperature of crystal seed preparation was properly raised.
加入晶型转化促进剂a可以减少铁红中水合铁含量,同时可适当提高晶种制备的温度。
The crystal structure, and piezoelectric properties and depolarization temperature of the ceramics were investigated.
研究了该体系陶瓷微观结构、压电性能和退极化温度变化规律。
In order to improve the frequency stability of the frequency modulation circuit and the crystal oscillator, using the temperature compensation circuit is extremely effective method.
为了提高调频电路和晶体振荡器的频率稳定度,采用温度补偿电路是一种极其有效的方法。
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