The distribution of fluid temperature in the tundish during plasma heating is investigated with water modeling.
采用水模在线加热研究等离子加热中间包流体温度的分布。
The bottom blowing solution was put forward to solve the temperature accumulation in the plasma heating zone in a six-strand tundish.
针对宝钢六流连铸中间包等离子加热区域温度积聚严重的现象,提出了底吹气的解决方法。
Service operation shows that the first wall design satisfies the needs of physics experiment, especially for plasma heating experiments.
HL - 1m装置的运行结果表明,第一壁能满足辅助加热实验的要求。
And it can produce high output power in pulse and continuum wave. It can be used in plasma heating, accelerator, radar, communication, electron rivalry, microwave weapon and so on.
对于等离子体加热、先进加速器、雷达、通讯及电子对抗、微波武器等领域有很大应用价值,受到了世界各国的高度重视。
The problem of heating the plasma with such configuration by adiabatic compression is discussed, the variation of all the equilibrium configuration with time during the compression is given.
重点研究了对这样的位形进行绝热压缩加热等离子体问题,给出了在压缩过程中整个平衡位形随时间的演化。
In fusion research, the neutral beam injection has become an efficient method for heating plasma.
在受控核聚变研究中,中性束注入已经成为加热等离子体的有效手段。
In this paper accurate solutions for the single frequency heating conditions have been obtained based on equations derived for laser plasma electron-ion coupling.
本文在导出激光等离子体电子、离子耦合方程的基础上求得了单频加热无穷行列特征矩阵的准确解;
Special consideration was given to the collision-free stochastic heating of the low pressure plasma.
在计算过程中,考虑了低气压等离子体无碰撞随机加热机制的作用。
This system can be used to study the plasma accumulation and heating, potential shielding and electrostatical end plug of axial symmetric tandem mirrors.
该装置将开展等离子体积累与加热、电势屏蔽、静电堵漏轴对称串级镜端塞的研究。
The high plasma current allowed in a RFP is expected to be sufficient to heat the plasma to ignition without the need of auxiliary neutral-beam or radio-frequency heating.
在反场箍缩条件下可允许用强等离子体电流充分加热等离子体到点火温度,而不需要辅助的中性束或射频加热系统。
This paper systematically discusses the technology of plasma tunish heating molten steel in tunish and also the influence of tunish structure and the slag on heating efficiency.
文章对唐钢连铸中间包钢水等离子加热技术进行了较系统的论述,研究了中间包结构和炉渣等对加热效果的影响。
Both the heating of plasma and the acceleration of particles are important topics in plasma physics and plasma astrophysics.
研究等离子体加热和粒子加速问题,是等离子体物理和等离子体天体物理中的重要课题。
The heating of a two ion-component plasma in a toroidal device through the damping of the electric field of fast wave by cyclotron resonance with minority ions is considered.
本文考虑环形系统双成份等离子体中快波电场与少数成份离子共振时,快波经回旋阻尼以加热等离子体。
The approximate description of tokamak plasma evolution during fast heating is discussed.
本文讨论了环流器等离子体在快加热过程中位形演变的近似描述问题。
The article researched heating mechanics of hollow cathode discharge effect and the process of hollow cathode plasma sintering cerium-tungsten alloy billets.
本文研究了空心阴极效应的发热机理及空心阴极等离子烧结铈钨坯的工艺。
IS-A type 10cm duopigatron ion source that was made for heating plasma In the HT-6M Tokamak has high current, high power and high proton composition.
为加热HT-6M托卡马克等离子体而研制的IS-A十厘米双潘宁离子源具有强流、大功率、高质子比等特点。
In this paper, a set of dynamical equations is derived for the implosion and heating of plasma in a field-reversed pinch.
本文给出了一组动力箍缩方程,它描述了场反向位形中等离子体的动力箍缩和加热。
The diagnostic methods, experiment results and some discussion in MM-2 ECRH experiment for heating plasma and building a hot electron ring have been presented in this paper.
主要叙述了MM-2装置通过ECRH加热等离子体并形成热电子环的实验诊断方法,原理、结果和讨论。
The heating in the future with the plasma technologies is very much the same.
在未来,应用等离子技术加热也是相同的。
The NC flame and plasma arc cutting is an advanced heating cutting technique.
数控火焰等离子切割是一种先进的热切割技术。
The invention discloses a vent pipe of a plasma display screen. A vent pipe heating assembly is fixed on a vent pipe sealing-off part and consists of a metal ring.
本发明公开了一种等离子显示屏的排气管,其中,排气管发热组件固定在排气管封离处,由金属环构成。
Spark plasma sintering (SPS) is a type of novel fast sintering technology, which is characterized by high heating rate, short sintering period and high efficiency.
电火花烧结技术是一种新型的快速烧结技术。具有升温速度快、烧结时间短、效率高等特点。
The plasma can be touched by bare hands and can be directed manually by a user to place it into root canal for disinfection without causing any heating, electrical shock, or other painful sensation.
这种装置产生的等离子体可以直接用裸手触摸,且能由使用者直接放入牙齿根管中来进行杀菌消毒,而不会导致过热,触电或者其它疼痛的感觉。
The plasma can be touched by bare hands and can be directed manually by a user to place it into root canal for disinfection without causing any heating, electrical shock, or other painful sensation.
这种装置产生的等离子体可以直接用裸手触摸,且能由使用者直接放入牙齿根管中来进行杀菌消毒,而不会导致过热,触电或者其它疼痛的感觉。
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