发表文章: [1] 王冬梅, Bai Ziyou,Liaoqianghua. 3D Energy Absorption Diagram Construction of PaperHoneycomb Sandwich Panel,shock and vibration. 2018,1-6 [2]王冬梅, Bai Ziyou. Mechanical property of paper honeycomb structure under dynamic compression. MATERIALS & DESIGN,2015,77:59-64. (SCI&EI) [3]王冬梅, Zhu Hong. Mechanical constitutive relation model of expanded polyvinyl alcohol. POLYMERS & POLYMER COMPOSITES, 2015, 23(1): 43-50. (SCI&EI) [4]王冬梅, Gong Huxiang, Bai Ziyou. Effect investigation of relative humidity and temperature on multi-layer corrugated sandwich structures. Journal of sandwich structure material. 2013,15(2):156-167,(SCI&EI收录) [5]王冬梅, Wang Jun, Liao Qianghua. Investigation of mechanical property for paper honeycombsandwich composite under different temperature andhumidity. Journal of Reinforced Plastics and Composites. 2013,(25):32-45(SCI&EI收录) [6]王冬梅. Energy Absorption Diagrams of Multi-layer Corrugated Boards.武汉理工大学学报(英文版),2010,25(1):58-61.(SCI&EI收录) [7]王冬梅. Impact behavior and energy absorption properties of paper honeycomb sandwich panels. International Journal of Impact Engineering. 2009.36:110-114(SCI&EI收录). [8]王冬梅.Cushioning properties of multi-layer corrugated sandwich structures, Journal of Sandwich Structure and Materials. 2009, 11(1):57-66. (SCI&EI收录) [9]王冬梅, Wang zhiwei, Liao Qianghua. Energy Absorption Diagrams of Paper Honeycomb Sandwich Structures. Packaging Technology and Science. 2009,22 (1):63-67.(SCI&EI收录). [10]王冬梅, Wang Zhiwei. Experimental investigation into the cushioning properties of honeycomb paperboard. Packaging Technology and Science. 2008, 21:309-316(SCI&EI收录) 专利: [1] 王冬梅.ZL 201210064941.2考虑温湿度效应的纸蜂窝夹层板力学性能预测方法.2014.5.21; [2] 王冬梅.ZL 201210043694.8考虑应变率和含水率效应的蜂窝纸板包装优化设计方法,2014.1.15; [3] 王冬梅. 一种蜂窝纸板临界应力和平台应力评估方法. 200710125476.8; [4] 王冬梅. 瓦楞纸板平压屈服应力评估方法及其应用. 200810065431.0; [5] 王冬梅. 蜂窝纸板能量吸收图及其在蜂窝纸板生产中的应用. 200710125475.3; [6] 王冬梅. 用于检测纸质蜂窝板芯性能的能量吸收图的绘制方法. 200710125474.9。 |