文章摘要
宋钊.纸板厚度方向的力学模型建立[J].包装工程,2014,35(3):52-55,116.
SONG Zhao.Establishment of Mechanical Model in the Thickness Direction of Paperboard Materials[J].Packaging Engineering,2014,35(3):52-55,116.
纸板厚度方向的力学模型建立
Establishment of Mechanical Model in the Thickness Direction of Paperboard Materials
投稿时间:2013-08-07  修订日期:2014-01-01
DOI:
中文关键词: 纸板  力学模型  多孔材料  复合材料层板  纤维网络模型
英文关键词: paperboard  mechanical model  porous material  composite laminate  network model
基金项目:甘肃省科技厅青年科技基金计划(1107RJYA022)
作者单位
宋钊 兰州交通大学, 兰州 730070 
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中文摘要:
      目的 理论推导纸板在受到 z 向压缩和弯曲时的本构模型。 方法 对纸板进行 z 向压缩时,用Ramberg-Osgood 方程描述加载过程的应力-应变关系。 根据纸板的内部结构特点,用多孔弹性材料模型描述卸载过程的应力-应变关系。 基于对纸板弯曲时变形过程的分析,利用复合材料层板模型和纤维网络模型描述弯曲时纸板层应力-应变关系。 结果 该模型能描述纸板在厚度方向上的力学特性,为建立完整的纸板本构建模提供参考,同时为有限元模拟纸板厚度方向变形提供依据。
英文摘要:
      Objective To derivate the paperboard constitutive model in the z-direction by compression and bending based on related literature and tests. Methods The stress-strain curve for z-compression was described by a Ramberg-Osgood function, and unloaded by a porous material model according to characteristics of the internal structure of the cardboard. The stress -strain relationship for band was described by composite laminates model and network model, and it was based on the paperboard of bending deformation processes. Results The model was able to describe the paperboard in the z-direction of the mechanical properties. It provided reference for the establishment of paperboard mold, and provided theoretical basis for finite element simulation of deformation in the z-direction of paperboard.
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