zinc electrode 中文意思是什麼

zinc electrode 解釋
鋅電極
  • zinc : n. 【化學】鋅 (Zn)。vt. (zinced, zincked) 用鋅包,在…上鍍鋅。 flowers of zinc = zinc oxide 鋅華,氧化鋅。
  • electrode : n. 1. 電極。2. 電焊條。adj. -less 無電極的。
  1. Effect of the carbon black on the electrical performance of gas diffusion electrode of zinc - air battery

    炭黑對鋅空氣電池空氣擴散電極電性能的影響
  2. As a part of zinc air battery, air electrode has become the key factor to the character of zinc - air battery, because of the stagnancy of the zinc electrode which is the anode electrode in the battery

    空氣電極作為鋅空氣電池中的一部分,在鋅電極的研究幾乎進入停滯階段的現在,現已成為決定整個鋅空氣電池性能的關鍵。
  3. Air electrode is one of the most important components in zinc - air cell. the main effect factors on performance of air electrode are catalysts ’ oxidation and deoxidization capability and structure of oxygen electrode

    空氣電極是鋅-空氣電池的重要組成部分之一,影響空氣電極性能的主要因素是催化劑的氧化還原性能和空氣電極結構。
  4. The addition of calcium hydroxide in zinc electrode can reduce the solubility of zinc oxide and improve discharge capacity, cycling life and utilization of active material

    在氧化鋅中加入氫氧化鈣能顯著降低氧化鋅在堿性溶液中的溶解度,明顯改善鋅電極的放電容量、循環壽命以及活性物質的利用率。
  5. The low solubility of calcium zincate produced from the chemical reaction of zinc oxide and calcium hydroxide in alkaline solution can improve the cycling life the zinc electrode, and the discharge capacity will tend to be stable. furthermore, the effects of la2o3 additives on the electrochemical performances of zinc electrodes were investigated. the results shows that the addition of la2o3, in zinc electrode can improve the area of reduction peak and the hydrogen evolution potential which means the cathodic hydrogen evolution reaction can be hindered

    氧化鋅與氫氧化鈣在堿性溶液中化學反應生成的難溶於堿的鋅酸鈣可以使鋅電極的循環壽命得到提高,放電容量也趨于平穩,此外還考察了氧化鑭對鋅酸鈣電極電化學性能的影響,結果表明:添加適量氧化鑭能明顯改善鋅電極的電化學性能,使鋅電極的還原峰電位正移,電極反應可逆性得到改善,同時也可抑制鋅電極析氫反應的發生,提高了鋅電極的陽極電流,對陽極反應有一定的活化作用;同時還可以改善鋅電極的放電特性,增加電極的放電容量。
  6. By means of the electrochemical measurement, the effect of the metal oxide additives such as pbo, bi2o3, in2o3 and electrolytic additive of : c16h33 ( ch3 ) 3nbr. on the performance of zinc electrode were investigated

    電極添加劑主要考察了pbo 、 bi _ 2o _ 3 、 in _ 2o _ 3三種金屬氧化物對鋅電極性能的影響,電解液添加劑主要考察了十六烷基三甲基溴化銨的添加對鋅電極性能的影響。
  7. The result shows that the addition of pbo, bi2o3, in2o3 in zinc electrode can improve the morphology of zinc deposition and prevent it from dendrite growth and deformation. and also, the dendrite growth of zinc was inhibited by the addition of c16 ( ch3 ) 3nbr in the electrolytes through the absorption in active sites on the surface of zinc electrode which will suppress zinc deposition

    實驗結果表明:在電極中適量添加pbo 、 bi _ 2o _ 3 、 in _ 2o _ 3三種金屬氧化物可以明顯改善鋅沉積形態、抑制鋅枝晶和變形;十六烷基三甲基溴化銨通過在鋅電極表面的活性中心上特性吸附,抑制鋅在這些位置的沉積,產生較均勻的沉積,從而達到抑制枝晶的效果。
  8. The research and development of chemical power sources, zinc - based and nickel - zinc batteries was reviewed. the shape change, dendrite formation, corrosion and passivation of the rechargeable zinc electrode and the ways to solve the above problems were discussed as well

    本文全面概述了化學電源的發展,鋅基電池的現狀以及鋅鎳電池的發展狀況,分析了可充鋅電極存在的變形、枝晶、腐蝕與鈍化的原因及其解決途徑。
  9. For the other hand, la2o3 additives can improve the activation process and discharge capacity obviously for zinc electrode. the appropriate content of la2o3 additives in zinc electrode can increase the electrochemical properties of the zinc electrode. zn / ni battery with the zinc electrode containing calcium additive showed better discharge capacity and charge - discharge cycling life

    以鋅酸鈣為活性物質的鋅電極能得到更高的鋅利用率,且以鋅酸鈣為活性物質的鋅鎳電池的循環壽命明顯優于以氧化鋅為活性物質的鋅鎳電池;兩層隔膜的鋅鎳電池的放電容量高於一層隔膜的鋅鎳電池,容量衰減速度也明顯小於後者。
  10. 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。
  11. The coexistence of co and coo additive in the electrodes has the best effect on the electrochemical properties. however, in this paper, the zinc additive did not promote the properties of the electrode, the discharge capacities and the cyclic life of both electrodes using nano ni ( oh ) 2 and spherical ni ( oh ) 2

    而鋅添加劑在本論文的研究中並沒有起到積極作用,納米ni ( oh ) _ 2電極和球形ni ( oh ) _ 2電極的電極容量和循環壽命在摻鋅添加劑后都有所降低。
  12. Solid astra luoyang fire of anti - corrosion materials engineering limited, founded in 1993, is the collection of china ' s famous anti - corrosion materials research and production and fire at the scene for the construction of an integrated enterprise, in addition to fire anti - corrosion coating production, but also professional cathodic protection system for the production of various sacrificial anode and supporting materials, products including magnesium - based, zinc - based, aluminum sacrificial anodes, with magnesium, magnesium rod, with zinc, titanium / mixed metal oxide anode zone, a titanium, astm265, high silicon anode cast iron, steel or cement testing poles, various reference electrode welding mode and flux, mandatory current cathodic protection act by magnetic saturation potentiostatic yee

    洛陽固雅特種防腐防火材料工程有限公司成立於1993年,是國內著名的集防腐防火材料科研生產和現場施工為一體的綜合性企業,除生產防腐防火塗料外,還專業生產陰極保護系統所需的各種犧牲陽極和輔助材料,產品包括鎂基、鋅基、鋁基犧牲陽極、鎂帶、鎂棒、鋅帶、鈦/混合金屬氧化物陽極帶、一級鈦、 astm265 ,高硅鑄鐵陽極、鋼制或水泥測試樁,各類參比電極、焊模和焊劑,強制電流法陰極保護用磁飽和恆電位儀等。
  13. After removing the enclosure away, you will discover that battery is composed of electrode, chemical substance, zinc coating electrode, insulating material and external coating

    試試把外殼移走,你會發現電池由電極化學物質鋅電極絕緣物料及外殼組成。
  14. After removing the enclosure away, you will discover that battery is composed of electrode, chemical substance, zinc coating ( electrode ), insulating material and external coating

    試試把外殼移走,你會發現電池由電極、化學物質、鋅電極、絕緣物料及外殼組成。
  15. The electrode potential of zinc was less than that of ndfeb magnetic powders. ndfeb magnetic powders were protected because zinc had been the anode through the electrochemistry corrosion

    金屬鋅鍍層比基體ndfeb電極電位更負,在發生電化學腐蝕作用時,可起到犧牲陽極保護基體的作用。
  16. Then, the preparation and electrochemical behavior of pasted zinc electrode and its application in the zn / ni battery were studied systematically in this paper

    在此基礎上,本文對鋅電極的制備及電化學性能、以及在鋅鎳電池中的應用作了較系統的研究。
  17. As the material of batteries, zinc electrode has many problems, such as dendrite growth, shape - changing, passivation, corrosion and so on

    但是,鋅作為電極材料使用仍然存在問題,表現為:鋅枝晶、形變、鈍化和腐蝕。
  18. Zinc acts as negative material of zinc manganese dioxide batteries, with the advantages of low cost, little poison and easy treatment. in another way, as the material of batteries, zinc electrode has many problems, such as dendrite growth, shape - changing, passivation, corrosion and so on. at present, the main way to solve these problems is to add mercury and its oxide to zinc electrode

    鋅錳電池採用鋅粉作為電池的負極材料,鋅資源豐富、價格低廉、毒性小、易處理,但是鋅作為電極材料使用存在枝晶、形變、鈍化和腐蝕等問題,目前,解決這些問題的主要方法是加入汞及其氧化物。
  19. At present, the main way to solve the problems is to add mercury and its oxide to zinc electrode

    目前,主要解決問題的方法是在電極中加入汞及其氧化物。
  20. Mechanism of cryogenic treatment improving electrode life for spot welding zinc - coated steel sheet

    深冷處理提高鍍鋅鋼板點焊電極壽命的機理
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