电镀与涂饰
電鍍與塗飾
전도여도식
ELECTROPLATING & FINISHING
2009年
11期
9-13
,共5页
邹剑平%高军伟%钟发平%王旭
鄒劍平%高軍偉%鐘髮平%王旭
추검평%고군위%종발평%왕욱
镍氢电池%负极%电镀镍%循环寿命%内压
鎳氫電池%負極%電鍍鎳%循環壽命%內壓
얼경전지%부겁%전도얼%순배수명%내압
nickel hydride battery%negative electrode%nickel electroplating%cycle life%inner pressure
采用含有240 g/L NiS0_4·7H_2O、40 g/L H_3BO_3、50 g/LC_6H_5Na_3O_7·2H_2O的镀液,在镍氢电池的负极表面电沉积上一层厚度约为0.1 μm的镍层.镀镍修饰后,负极材料的电化学特性发生了明显变化,如极化电阻显著降低,使得水在负极材料上放电更加容易,改善了镍氢电池的充电行为.使用表面镀镍的负极材料后,镍氢电池的内部压强在正常充电与过充过程中都显著降低,这可能是因为镀镍层减缓了氢原子结合而变成氢气的过程;另外,镍氢电池的循环寿命也得到了延长.
採用含有240 g/L NiS0_4·7H_2O、40 g/L H_3BO_3、50 g/LC_6H_5Na_3O_7·2H_2O的鍍液,在鎳氫電池的負極錶麵電沉積上一層厚度約為0.1 μm的鎳層.鍍鎳脩飾後,負極材料的電化學特性髮生瞭明顯變化,如極化電阻顯著降低,使得水在負極材料上放電更加容易,改善瞭鎳氫電池的充電行為.使用錶麵鍍鎳的負極材料後,鎳氫電池的內部壓彊在正常充電與過充過程中都顯著降低,這可能是因為鍍鎳層減緩瞭氫原子結閤而變成氫氣的過程;另外,鎳氫電池的循環壽命也得到瞭延長.
채용함유240 g/L NiS0_4·7H_2O、40 g/L H_3BO_3、50 g/LC_6H_5Na_3O_7·2H_2O적도액,재얼경전지적부겁표면전침적상일층후도약위0.1 μm적얼층.도얼수식후,부겁재료적전화학특성발생료명현변화,여겁화전조현저강저,사득수재부겁재료상방전경가용역,개선료얼경전지적충전행위.사용표면도얼적부겁재료후,얼경전지적내부압강재정상충전여과충과정중도현저강저,저가능시인위도얼층감완료경원자결합이변성경기적과정;령외,얼경전지적순배수명야득도료연장.
A nickel coating with a thickness of ca.0.1 μm was electrodeposited on the negative electrode of Ni-MH battery in a bath containing 240 g/L NiSO_4·7H_2O, 40 g/L H_3BO_3, and 50 g/L C6HsNa_3O_7·2H_2O. The electrochemical properties of the negative electrode material are significantly changed by the modification with nickel coating. The polarization resistance of the nickel-plated negative electrode is decreased evidently, which facilitates the discharging of water on the electrode and improves the charging behavior of Ni-MH battery. The inner pressure of Ni-MH battery is decreased remarkably by using nickel-plated negative electrode during normal charging and over-charging processes, likely due to the adsorption of H atoms on nickel coating which slows down the combination of H atoms into HE gas. The results also showed that the Ni-MH battery with nickel-plated negative electrode has a longer cycle life.
