机译:亚临界乙酸在温和条件下增强了废印刷电路板中溴化环氧树脂的溶胀增强催化降解
Institute of Resource and Environment Henan Polytechnic University Jiaozuo 454000 Henan China;
College of Ceosciences and Engineering North China University of Water Resources and Electric Power Zhengzhou 450046 Henan China;
Institute of Resource and Environment Henan Polytechnic University Jiaozuo 454000 Henan China School of Environment Science and Spatial Informatics China University of Mining and Technology Xuzhou 221116 jiangsu China;
Waste printed circuit board; Brominated epoxy resin; Subcritical acetic acid; Swelling; Catalytic degradation;
机译:改进的超临界水氧化工艺可实现溴化环氧树脂的高级降解以及废印刷电路板中玻璃纤维的同时转化
机译:通过分次/超临界水处理降解溴化环氧树脂并从废印刷电路板上回收金属
机译:溴化环氧树脂对环境偏重回收铜作为氯化铵电路板铜氧化物纳米粒子的溶解
机译:废印刷电路板采用离子液体BMIM CL溴化环氧树脂溶解研究
机译:玻璃/环氧界性对印刷电路板电化学故障的影响
机译:印刷电路板衍生的玻璃纤维环氧树脂支持Mo-Cu双金属催化合成葡萄糖
机译:改进的超临界水氧化工艺可实现溴化环氧树脂的高级降解以及废印刷电路板中玻璃纤维的同时转化