焦耳

焦耳处理对Fe（73.5）Cu1Nb3Si（13.5）B9合金丝巨磁阻抗效应影响的研究

Influence of Joule Heating on Giant Magneto-Impedance Effect in Fe_ ( 73.5 ) Cu_1Nb_3Si_ ( 13.5 ) B_9 Wires

在国际单位制（SI）中，功和能的单位是焦耳（J）。

The unit of work and energy in the SI system is the joule ( J ) .

焦耳处理和等温退火对Fe（73.5）Cu1Nb3Si（13.5）B9非晶丝巨应力阻抗效应的影响

Influence of Current-Annealing and Common Annealing on Giant Stress-Impedance Effect in Fe_ ( 73.5 ) Cu_1Nb_3Si_ ( 13.5 ) B_9 Amorphous Wires

焦耳汤姆逊效应会导致井筒温度略微升高，但由于CO2的焦耳汤姆逊系数很小，这种影响也很小。

However temperature change caused by Joule-Thomson effect is really small due to a very small Joule-Thomson coefficient .

焦耳的符号是j。

The symbol for joules is J.

PDMS微流控芯片中焦耳热效应的数值研究

Numerical study on Joule heating effect in PDMS microfluidic chip

ALB上焦耳热场的形态分布特征及环境意义探讨

The distribution pattern of Joule heat on ALB and its environmental significance

如果我们测量热力学量会发现自由焓的变化，等于4千焦，正4千焦。，delta，H，is，4，kiloJoules，，plus，4，kiloJoules。，熵增dS是45焦耳每开尔文。

If we measure the thermodynamics , we discover that dH Delta S is45 joules per Kelvin .

如果再往下看1s层，是一摩尔20兆焦耳。

If you go down to1s , it's20 MJ per mole .

以最高输出光束亮度为目标就其腔参数进行了优化研究和设计。f在20mm.口径钕玻璃激光介质上采用这种腔结构进行了实验研究，获得了数十焦耳近衍射极限的高亮度激光输出。

Its cavity parameters have been designed for getting optimum laser brightness and its output characterization has been investigated experimentally at Φ 20 mm Nd : glass laser .

在封装和PCB基体中的焦耳热负荷可以在ANSYSSI/PI中模拟运行，并纳入到热设计分析中。

Joule heating loads in package and PCB substrates can be performed in ANSYS SI / PI products and incorporated into the thermal design analysis .

输出0.42焦耳的紫外光预电离KrF准分子激光器

A UV-preionized KrF excimer laser with an output energy of 0.42 J

百焦耳级KrF准分子激光装置设计与调试

Design and adjustment of a 100 level KrF excimer laser

12.5焦耳电子束泵浦KrF激光器

12.5 J KrF Excimer Laser Pumped by a High-Intensity Relativistic Electron Beam

同样地，作为能量和功的单位的焦耳是根据物理学家JamesJoule而命名的。

Likewise , the Joule , a unit of energy and work , comes from a physical called James Joule .

百焦耳KrF激光用二极管的实验

Experimental investigation of large area diode for a hundred - joule KrF laser

2焦耳脉冲雪崩放电XeCl激光器

A 2-J pulse avalanche XeCl excimer laser

同时在磁弧的顶部，即在中性线上空产生了感应电流，它的焦耳耗散形成了Hα耀斑。

At the same time , the induction current is produced on the top of arch above the neutral line , and the H_ α flare is formed by Joule dissipation of the current .

从实际气体的维里状态方程出发，导出了实际气体μJ－T的一般形式，并推导了低压条件下范德华气体的焦耳&汤姆逊系数。

The formula of Joule-Thomson coefficient in the condition of low pressure is derived for Van der Waals gas according to the viral equation of state .

暴时极光区热层大气焦耳加热与F区电离耗空的EISCAT雷达观测

Storm-time Joule heating of auroral thermosphere and ionization depletion in the F-region ── eiscat radar observation

6焦耳KrF激光的产生

The production of 6 J KrF laser

我们使用德布罗意关系式，波长等于，除以质量和速度的乘积，h，over，mass，times，volume。，我说明一点，我实际上经常写焦耳，而不是焦耳每秒。

And we can use the de Broglie relationship that wavelength should be equal to h and I want to make note that instead of writing joules per second , I actually wrote out with a joule is .

本文报导输出能量1焦耳的电引发HF激光器，对其输出特性和工作参数的依赖关系进行了实验研究。

An electrically initiated HF laser of 1J output energy is reported . The influence of the operation parameters on the laser output characteristics are investigated experimentally .

焦耳量级光抽运XeF蓝绿激光器

Joule Level XeF Laser Operating in the Blue - Green Region

如何确定He的Joule-Thomson系数，是判断He负焦耳-汤姆逊效应程度的前提和基础。

Calculating the Joule-Thomson coefficients of He ⅱ is the precondition to determine the negative Joule-Thomson effect .

HFW钢管焊缝感应焦耳热的数值计算

Numerical Calculation of the Magnetic Induction Joule Heat in HFW Pipe Seam

两段式焦耳处理是提高材料GMI效应的一种新的而且十分有效的方法。

The results show that the two-step Joule heating treatment is a novelty and effective method for improving GMI effect .

计算天然气焦耳-汤姆逊系数的BWRS方法

The BWRS Method for Calculation Natural Gas Joule-Thomson Coefficient

（NEL）势，计算氢流体的第二维里系数，并从第二维里系数求得波义耳温度、焦耳-汤姆森效应的转变温度，并与实验结果进行了比较。

The Boyle temperatures and the inversion temperatares of the Joule - Thomson effect were found from the second virial coefficient .

本文采用有限元分析方法系统地研究了大尺寸SiC晶体PVT法生长装置中的加热组件不同的耦合间隙对生长系统中的感应磁场、感生电流和焦耳热的影响；

The influences of different coupling widths of the heating subassembly on the induction magnetic field , induction current and Joule heat in the large size SiC growth system have been investigated systematically .