机译:RGO /尼龙6复合毡具有独特的结构特征和通过电纺丝和水热工艺获得的电性能
Department of Bionanosystem Engineering Chonbuk National University">(1970);
Engineering Science and Humanities Department Institute of Engineering Pulchowk Campus Tribhuvan University">(2970);
Department of Bionanosystem Engineering Chonbuk National University">(1970);
Department of Bionanosystem Engineering Chonbuk National University">(1970);
Department of Bionanosystem Engineering Chonbuk National University">(1970);
Institute of Advanced Composite Materials Korea Institute of Science and Technology">(3970);
Division of Mechanical Design Engineering Chonbuk National University">(4970);
Division of Mechanical Design Engineering Chonbuk National University">(4970);
Department of Organic Materials and Fiber Engineering Chonbuk National University">(5970);
Department of Bionanosystem Engineering Chonbuk National University">(1970);
Division of Mechanical Design Engineering Chonbuk National University">(4970);
Electrospinning; Hydrothermal; Graphene oxide; Nylon-6; Conductivity;
机译:RGO / Nylon-6复合毡具有独特的结构特征和电纺丝和水热过程获得的电性能
机译:通过微波辅助水热方法合成SnO2:Rgo纳米复合材料和形态,结构,光学和电气性能的变化
机译:一步静电纺丝法制备的载有银纳米颗粒的尼龙6纳米复合材料的表征和抗菌性能
机译:官能化MWCNT对尼龙-6复合材料机械和电性能的影响
机译:针刺非织造天然纤维毡复合材料的加工-结构-性能关系。
机译:GO还原法对PEO / rGO纳米复合材料介电性能电导率和结晶行为的影响
机译:RGO /尼龙-6复合垫具有独特的结构特征和从静电纺丝和水热过程获得的电性能