閃電沖擊 的英文怎麼說
中文拼音 [shǎndiànchōngjī]
閃電沖擊
英文
lightning strike-
Blitzkrieg ? increases the ground attack and shock attack values of armor units
閃電戰:增加裝甲部隊地面火力和沖擊力。Added melee lightning damage to holy shock
神聖沖擊)會增加閃電傷害!The shorter the interval between the two pulses of the current wave, the fewer strikes the varistors can endure. at the same time, the dc ljima changes fast - slowly - fast alone with the experiment continuing. microstructual disorder, such as variations in the height of the electrostatic potential at grain boundaries and electrode protrusions into the zinc oxide varistors, causes substantial temperature rise in a microscopic region around the defect and is the source for failure
雷電的多重閃擊對雷電過電壓保護器件的影響更加嚴重,本文首次採用不同間歇時間雙脈沖電流沖擊對氧化鋅電阻進行了多次試驗,試驗表明:氧化鋅電阻在雙脈沖電流沖擊下更容易出現老化破壞現象,間歇時間越短,電阻能耐受的沖擊次數越少;此外,直流u _ ( 1ma )值隨沖擊次數的增加具有快一慢一快的下降過程。The influence of microstructure on the flashover performance of alumina ceramics has been studied systematically through investigating the flashover performance of different alumina ceramic samples. experimental results reveal that the flashover performance is affected by the grain sizes and its dispersiveness. the smaller grain size is, the higher flashover performance ; the less dispersiveness of grain sizes is, the higher flashover performance
3 .通過研究用不同工藝制備的氧化鋁陶瓷絕緣子(同一材料配方不同燒成工藝、同樣氧化鋁含量不同添加劑)在沖擊電壓作用下在真空中的沿面閃絡特性和表面帶電特性,首次深入系統地探索了材料微觀結構對陶瓷材料沿面閃絡性能的影響規律。Surface flashover across the insulators in vacuum is the major limitation of the performance of the high power system, such as high power microwave tube, pulse power switch, high - energy linear accelerator, etc. flashover studies are of considerable importance in many applications. alumina ceramics are used widely in vacuum insulation system. the flashover and charging performance have been systematically investigated on alumina ceramics in vacuum under pulse voltage ( 0. 7 / 4 ^ 8 )
真空中絕緣子沿面閃絡現象是制約高功率微波管、脈沖功率開關、高能粒子加速器等系統性能的主要原因,這是因為真空中絕緣子在一個比自身及相同真空間隙擊穿電場低得多的電場下就發生了表面閃絡的緣故,研究真空中絕緣子沿面閃絡現象及其形成機理對于改善和提高系統性能有重要意義。It can endure the surge current from connected capacitor banks without isolation and mechanical damage
能承受與其配套的最大容量的電容器組合閘涌流的沖擊,而不發生電氣絕緣閃絡擊穿和機械損傷。The main contributions to the study on the flashover of insulators in vacuum are as follows : 1. a set of test system for the studies on flashover of insulators in vacuum has been developed, which consists of vacuum system, electrode system, e - dot pulse voltage measurement system, surface charge measurement system, current monitor system and luminescence signal measurement system
本文主要完成了以下工作: 1 .通過設計加工真空及試驗電極系統,研製e - dot沖擊電壓測量系統、真空中表面電荷測量系統、沖擊電流和表面微弱光信號測量系統,建成了國內第一套用於研究真空中絕緣子沿面閃絡現象的試驗平臺。2. the pre - flashover phenomena of alumina insulators in vacuum have been investigated. according to the experimental results, a reversed pre - flashover current was observed repetitively, which often occurs at the tail of pulse voltage close to zero ( sometimes after the applied pulse voltage )
首次發現了大量的、重復性的反向預閃絡現象,即在沖擊電壓波尾附近電壓幅值已經接近零、甚至在沖擊電壓作用完后(已沒有電壓)的情況下仍然存在試樣表面發光現象,同時伴有反向的電流脈沖。Solid state recorder based on flash has a number of remarkable advantages, such as, high capacity density, small dimension, low power consumption, low cost, non - volatility, endurance for shake and impulsion and wide - range temperature and so on. due to these merits, it has attracted the attentions of the researchers in the world
基於flash (閃速存儲器)的固態大容量存儲器具有容量密度大、體積小、功耗低、成本低、掉電數據不丟失、抗震動和沖擊、溫度適應范圍寬等特點,因而受到了航天領域研究人員的廣泛關注。Moreover, owing to rapid use of large numbers of nonlinear or impactive loads in power system, many power quality problems will be caused, such as voltage sag, swell, unsymmetry, flicker, fluctuation, harmonic and so on
然而,隨著電網中沖擊性、非線性負荷的不斷增加,導致電網電壓波形發生畸變、波動、閃變和三相不平衡等電能質量問題卻越來越嚴重。With the development of power electronic technology, much nonlinear, impactive and imbalance load emerges in power system. as a result, power quality has deteriorated. the problem of voltage fluctuation and flicker, one issue of power quality, becomes more and more serious
近年來,依託電力電子技術發展起來的用電負荷日益增多,由於它們非線性、沖擊性及不平衡的用電特性,造成諸多電能質量問題,電壓波動與閃變就是其中之一。Methods for the determination of the lightning impulse breakdown voltage of insulating liquids
絕緣液體的閃電脈沖擊穿電壓測定方法分享友人