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机译:从废料低温共烧陶瓷和电子废料合成亚微米银粉:了解浸出动力学和湿化学
Institute for Advanced Engineering (IAE), Advanced Materials & Processing Center;
Institute for Advanced Engineering (IAE), Advanced Materials & Processing Center;
Institute for Advanced Engineering (IAE), Advanced Materials & Processing Center;
Institute for Advanced Engineering (IAE), Advanced Materials & Processing Center;
Institute for Advanced Engineering (IAE), Advanced Materials & Processing Center;
Institute for Advanced Engineering (IAE), Advanced Materials & Processing Center;
Silver powder recovery; Resources recycling; Wet chemical reduction; LTCC waste recycling; Leaching kinetics;
机译:从废弃的低温共烧陶瓷中选择性回收银并通过银纳米颗粒合成进行增值
机译:从硬质合金废料中回收钴粉和碳化钨-第二部分:从浸出液中回收亚微米钴粉
机译:从硬质合金废料中回收钴粉和碳化钨-第二部分:从浸出液中回收亚微米钴粉
机译:通过碳化物废料酸性浸出亚微米钴粉的回收率
机译:了解阳离子和活化剂类型/化学对液体和粉末硅酸盐活化炉渣的反应动力学和机械强度的影响。
机译:低温共烧透辉石玻璃陶瓷微波电介质中银扩散的控制
机译:低温共烧透辉玻璃陶瓷微波介质中银扩散的控制
机译:si-C-N-O-m陶瓷和复合粉末的合成,表征和形成化学。最终技术报告