high conductivity formation 中文意思是什麼
high conductivity formation
解釋
高電導率地層- high : adj 1 高的〈指物,形容人的身高用 tall〉;高處的;高地的。2 高級的,高等的,高位的,重要的。3 高尚...
- conductivity : n. 【物理學】傳導性[力],傳導率;導電率[性,系數]。
- formation : n. 1. 構成,形成;設立;編制。2. 組織,構造;形態;形成物,構造物;【軍事】編隊,隊形;兵團。3. 【地質學;地理學】層;組; 【生物學】社區;(植物)群系。adj. -al
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Too much cnts contributed no effect in the improvement of overall performance of the batteries. the batteries with nano - scale coo shows better active properties, the addition of nano - scale coo further the conductivity of the nickel electrode, thus lower the internal resistance of the batteries, higher discharge voltages are achieved accordingly. for the formation of the better conductive net of coooh, the effectivity of discharge rise, that contributes positive effect to the high rate capability of the batteries
浙江人學碩十學位論文摘要正極添迦納米coo的ni / mh電池具有較好的活化性能,納米coo更好地增強了鎳正極的導電性,進一步減小了電池的內阻;正極添迦納米coo的ni / mh電池還具有較高的放電平臺;由於納米coo的納米結構,以及相對于普通c00更大的比表面積,會在堿液中溶解形成更均勻緻密的co0oh導電網路,從而提高了放電效率,對電池的高倍率性能也有積極的影響。 -
It is shown that the high hardness and low thermal conductivity promote the formation of transformed asbs, and the deformed asbs will form if low hardness and high thermal conductivity are involved ; for steel with both high hardness and thermal conductivity, the transformed asbs will transform into deformed ones, due to that the fast heat conduction from high temperature asbs results in rapid temperature rise around and thus decreasing the hardness
研究結果表明:鋼的高硬度和低熱導率有利於形成相變帶;反之,則傾向于形成變帶;對于具有高硬度和高熱導率的鋼,由於高溫相變帶區域的熱量迅速傳遞到周圍的基體組織而使其溫度升高、硬度降底,形成的相變帶會向形變帶轉化。 -
It was found that the defects were formed and the conductivity increased with the addition of co, which improved the diffusion of proton and inhabited the formation of y - niooh. the electrochemical capacity of the electrode with cobalt additives changed slightly after 206 cycles. the electrode can exhibit excellent high - rate discharge performance, the capacity discharged at 6c ( 1800ma / g ) can reach to 77. 7 % of which discharged at 1c condition
在納米ni ( oh ) _ 2電極中加入鈷和鋅添加劑,並全面地分析了它們對電極性能的影響,發現加入鈷添加劑后增強了電極的導電性,形成雜質缺陷,更有利於質子的出入,同時抑制- niooh的形成,提高充放電效率和循環穩定性,電極在經過206個循環后變化甚小;電極的倍率放電性能相當出色,在1800ma g ( 6c )的大電流放電條件下,依然能放出1c的77 . 7 ;在鈷的添加方式中,以co和coo混合添加的效果最佳。
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