Patents
[1]一种铝电解槽电压及热平衡的计算方法, 申请号:201310578987.0 [2]一种降低铝液水平电流的铝电解槽侧部导电阴极结构, 申请号:201310187629.7 [3]一种铝电解槽氧化铝下料系统, 申请号:201210183387.X [4]一种减缓熔体波动抗冲刷的铝电解槽, 申请号:201310187142.9 [5]一种垂直磁场可控调节的电解槽阴极母线配置方法及其结构, 申请号:201511027158.9 [6]一种铝电解槽下料器工作状态的诊断方法及系统, 申请号:201410417663.3 [7]一种铝电解槽换极打壳装置及其应用, 申请号:201510623852.0 [8]一种特大型连续生产节能环保铝电解槽, 申请号:201410584264.6 [9]一种非对称均匀吸气的铝电解槽集气烟道, 申请号:201510974109.X [10]铝电解槽熔体温度与流速实时组合测量装置及其测量方法, 申请号:201510122976.0 [11]一种含高导电骨架网络的铝电解槽复合阴极结构, 申请号:201410229280.3 [12]一种超大型铝电解槽的阴极母线配置方法, 申请号:201510974507.1 [13]一种快速导电梯度炭素阳极及其制备方法, 申请号:201510629777.9 [14]一种预焙阳极信息追溯系统及方法, 申请号:201510372887.1 [15]一种分区电解预焙铝电解槽, 申请号:201310187654.5 [16]一种改质炭素阳极及其制备方法, 申请号:201510717283.6
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张红亮
Postal Address:c13bbfb0ffe0cce404c5beef8eaee190ffa93e379bc62444c54e94d393799f731144785c1b62942e6ea4f7ddd4bb8f5049a667f7aa1a3d84878c314fb4b9da9f135a2ecf87b87f81e2491fd97fc747b4d3eb379d05dc9e9e76f1cfcfd7e238c8e6cd9f860eec70ade9126328d377e493be5df426469a20c94f8b203e3aa9790f
Mobile:c55a854b2a5c52c5dd375c9d2ed17d7a561b5aa8180d6507e41fd4483ace4c654e4669d1d53bab42ec898b622c352c10425bbd931466198205b4bd37f69709ff459c0b7e7048dc3bdc5462ffb7dee1bc7407907de00cbb2382701520f35bf4e14ae5982a527d2e9522412e2a18d77726632b1ba16ad2b53d16b6ae041f830540
Email:baf4d82b0e1d55fa927540fb54922e4493cd2106d9fb86bdf6ac976300433de494cba3612359938da3a483d03907adfd206810a3532ee1d803077db9123138aa8bdb62ad8d28a7fedb70b95f805d3a30d3896e4f5c36c8e1f8c5dee1195e1af6b9bcc4ff0818abf2b3684a324e99a055c1c44f15c0f7df61696cf20774800e58
MOBILE Version
