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隧道孔型对高压阳极铝箔特性的影响 被引量:9
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作者 罗向军 汪启桥 +2 位作者 吕根品 李刚 肖远龙 《电子元件与材料》 CAS CSCD 北大核心 2021年第3期286-291,共6页
系统对比了腐蚀工艺对孔型的影响,同时基于数学模型考察了铝电解电容器用阳极箔的隧道孔型对比容、化成能耗、孔内Cl^(-)传质及孔内电解液温升速率的影响,并通过电容器负载纹波电流测试温升特性进行验证。计算结果表明,阳极箔比容随着... 系统对比了腐蚀工艺对孔型的影响,同时基于数学模型考察了铝电解电容器用阳极箔的隧道孔型对比容、化成能耗、孔内Cl^(-)传质及孔内电解液温升速率的影响,并通过电容器负载纹波电流测试温升特性进行验证。计算结果表明,阳极箔比容随着隧道孔尖端直径d_(tip)的减少显著降低(28%),化成能耗也随d_(tip)减少呈现相似的降低趋势,这主要是因为隧道孔有效表面积减少所致。后处理后隧道孔内Cl^(-)浓度随着d_(tip)的增加逐渐增加,相比于化学扩孔工艺,电化学扩孔工艺中箔的Cl^(-)浓度要低。另外,隧道孔内电解液温升速率随d_(tip)的减少,先缓慢增加然后再急剧增加,相比于圆柱形孔,低d_(tip)区域孔内的温升速率增加6~50倍。因此采用具有大d_(tip)的阳极箔将有助于改善电容器性能。 展开更多
关键词 铝电解电容器 隧道孔型 比容 化成能耗 Cl~-传质 温升速率
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Trend analysis and comparison of basic parameters for tunnel blast design models 被引量:7
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作者 Khalili Soroush Yavary Mehdi Ebrahimabadi Arash 《International Journal of Mining Science and Technology》 SCIE EI CSCD 2015年第4期595-599,共5页
One of the most important factors influencing on a tunnel blast efficiency is the proper design of blasting pattern. Among blasting parameters, blasthole diameter and tunnel face area are more significant so that any ... One of the most important factors influencing on a tunnel blast efficiency is the proper design of blasting pattern. Among blasting parameters, blasthole diameter and tunnel face area are more significant so that any change in these parameters could finally affect on specific charge and specific drilling. There are mainly two groups of methods for tunnel blast design categorized based on the parallel cuts and angular cuts. In this research, a software for tunnel blast design was developed to analyze the effect and sensitiveness of blasthole diameter and the tunnel face area on blasting results in different blast design models. Using the software, it is quickly possible to determine specific charge, specific drilling and number of blastholes for each blast design model. The relations between both of blasthole diameters and the tunnel face area with the above parameters in different blast design models were then investigated to yield a set of equations with the highest correlations to compare the methods. The results showed that angular method requires more blasthole numbers than parallel method in similar condition(blasthole diameter and tunnel face area). Moreover, the specific charge values yielded by the two methods are approximately the same and very close together. 展开更多
关键词 Blasting pattern Tunnel blast design models Specific drilling Specific charge
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