蓄电池
蓄電池
축전지
Chinese Labat Man
2015年
5期
227-229,250
,共4页
AGM隔膜%纤维分布%毛细吸酸速率%零距抗张强度%电解液分层%铅酸蓄电池
AGM隔膜%纖維分佈%毛細吸痠速率%零距抗張彊度%電解液分層%鉛痠蓄電池
AGM격막%섬유분포%모세흡산속솔%령거항장강도%전해액분층%연산축전지
AGM separator%M/D and C/D distribution%capillary acid absorption rate,zero span tensile strength%electrolyte stratification%lead-acid battery
通过零距抗张强度来表征AGM隔膜中玻璃纤维纵横向排列的比例,以研究纤维纵横向的分布对铅酸蓄电池电解液分层的影响。试验结果表明,AGM隔膜纤维纵横向排列差异越小,越有利于改善电解液分层,从而提高铅酸蓄电池循环寿命。
通過零距抗張彊度來錶徵AGM隔膜中玻璃纖維縱橫嚮排列的比例,以研究纖維縱橫嚮的分佈對鉛痠蓄電池電解液分層的影響。試驗結果錶明,AGM隔膜纖維縱橫嚮排列差異越小,越有利于改善電解液分層,從而提高鉛痠蓄電池循環壽命。
통과령거항장강도래표정AGM격막중파리섬유종횡향배렬적비례,이연구섬유종횡향적분포대연산축전지전해액분층적영향。시험결과표명,AGM격막섬유종횡향배렬차이월소,월유리우개선전해액분층,종이제고연산축전지순배수명。
The ratio of glass ifber at M/D and C/D distribution in AGM separator is characterized by the zero span tensile strength. The effect of glass ifber at M/D and C/D distribution array on the electrolyte stratiifcation in lead-acid battery is studied in this paper. Experimental result shows that the smaller difference of M/D and C/D distribution array is more beneifcial to reduce the electrolyte stratiifcation, and to enhance the cycle life of lead-acid batteries.
