推力器过热会影响推力器的放电过程,导致放电异常。
When thruster overheated, discharging process is been affected, resulting in abnormal discharge.
电压控制的装置出现错误可能会导致蓄电池组充电过度,这反过来可能会加速放电,比正常情况更严重。
A fault in the voltage-control mechanism may thus cause a battery to become overcharged, which, in turn, might precipitate a deeper discharge than normal.
这一发现,碳组成的互动与空气可以重复,建立一个循环充电和放电,导致了开发新的电池。
The discovery that the carbon component's interaction with air can be repeated, creating a cycle of charge and discharge, led to the development of the new battery.
在充满氙气的灯柱中的两个电极之间进行火花放电将产生“电离气体管”,电流通过该管流动,从而导致气体发光。
A spark discharge between two electrodes produces an "ionised gas tube" in the xenon gas-filled lamp piston through which electric current flows which in turn causes the gas to light up.
癫痫是由大脑异常放电造成的癫痫发作,导致不自主的运动或行为。药物治疗能够防止癫痫发作。
Epilepsy is marked by seizures stemming from abnormal electrical activity in the brain, causing involuntary movement or behavior. Drug treatment is given to prevent seizures.
大多数镍氢电池可以接受3倍于自身容量的放电速率。高放电速率会导致释放更少的电量。
Most NiMH batteries can accept discharge rate up to 3 times its capacity. A higher discharge rate will yield lower capacity.
这些优异的壁条件导致了多发弹丸注入、低混杂波电流驱动(LHCD)和长脉冲放电等物理实验的重大进展。
The excellent wall conditions lead to great progresses in the experiments such as the multi-shoot pellet injection, LHCD and long pulse discharges.
即使是低电压充放电,也可能产生大的瞬间充放电电流,这可能会导致电容器性能的损害,比如说短路或开路。
Low voltage charging or discharging may also cause deterioration of capacitor such as shorting and open due to sudden charging and discharging current.
羊癫疯是大家所熟悉的慢性疾病,它病症是由大脑神经元突发性异常放电,导致短暂的大脑功能障碍。
Epilepsy is crazy everyone is familiar with chronic disease, which symptoms are sudden onset of brain neurons by the abnormal discharge, leading to transient cerebral dysfunction.
癫痫是一种临床综合症,它的特征是大脑神经细胞反复发作的异常放电大脑功能失调导致癫痫发作。
Epilepsy is a clinical syndrome, which is characterized by recurrent attacks of brain cells in abnormal discharge of brain dysfunction caused seizures.
局部放电(PD)是导致高压电工设备绝缘击穿的主要原因。
Partial Discharge (PD) is the main cause of insulation breaking down of HV equipments in power system.
由于局部放电脉冲波形是不规则的,显然,它们的频谱是不同的,这将导致在测量点上脉冲波形的畸变。
Since a partial discharge pulse waveform is irregular and the spectrum of each pulse is different, a pulse wave form will be distorted at the measuring terminal of the circuit.
DGA是变压器绝缘监督的一个重要手段,但放电和过热两类故障共存时的故障难分辨会导致诊断正判率较低。
DGA is one of the mainly methods on insulation monitoring of transformer, but the accuracy is low because it is difficult to distinguish between failures when overheating and PD coexist.
目的根据影像法射频消融房室结慢径是一相对盲目的方法,其单次放电的成功率低,导致房室阻滞的危险性高。
Objective Radiofrequency catheter ablation of slow pathway based only on fluoroscopy is relatively blind, with low success rate using single RF delivery, and has a high risk of atrioventricular block.
发育早期神经元无镁诱导的惊厥样放电对发育中神经元线粒体功能的影响可以从早期开始持续相当长的一段时间,从而导致细胞功能的长期改变。
The effect on the mitochondrial function of developing neurons after magnesium-free-induced seizure-like discharge may from the acute phase which lasted for a long period of time.
静电具有高电压、静电感应及尖端放电的特点,放电产生的静电火花容易导致爆炸和火灾事故。
With high voltage, electrostatic electrostatic induction and point discharge, discharge the characteristics of the spark generated is easy to cause the explosion and fire accident.
高放电速率会导致释放更少的电量。
由于复合材料导热性能较差,导致电机整体的散热性能不佳,因而连续放电运行时电机的热性能预估显得十分重要。
Due to the poor thermal conductivity of composite materials, heat dissipation of the machine is severe, and heat performance estimate becomes vital during continuous discharges.
癫痫发作是神经元过度放电而引起的,如果人体在短时间内摄取过量的食盐,食盐中的钠离子可导致神经元过度放电,从而诱发癫痫;
Seizures are caused by excessive discharge of neurons, and if the human body in a short time excessive intake of salt, sodium salt can cause the excessive discharge of neurons, and induce epilepsy;
颞叶癫痫是指导致癫痫发作的神经元放电或损害影响到整个或部分颞叶的局限性癫痫。
Temporal lobe epilepsy is the result of seizures or damage of neurons in the whole or part of the limitations of temporal lobe epilepsy.
颞叶癫痫是指导致癫痫发作的神经元放电或损害影响到整个或部分颞叶的局限性癫痫。
Temporal lobe epilepsy is the result of seizures or damage of neurons in the whole or part of the limitations of temporal lobe epilepsy.
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