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机构地区:[1]太原科技大学,太原030024 [2]浙江大学宁波理工学院,宁波315100
出 处:《包装工程》2013年第21期16-19,56,共5页Packaging Engineering
基 金:国家十二五科技支撑项目(2011BAD24B01)
摘 要:基于C楞瓦楞纸板动态本构模型,建立了C楞瓦楞纸板包装系统动力学模型。借助三维冲击谱、破损边界曲面的概念,利用Rnuge-Kutta算法,研究了C楞瓦楞纸板缓冲包装系统在矩形波冲击下,不同阻尼、线性参量、正弦参量、正切参量对C楞瓦楞纸板包装系统易损件冲击谱和破损边界的影响。计算结果表明:C楞瓦楞纸板缓冲性能受阻尼系数、线性参量、正弦参量及正切参量的制约,且对C楞瓦楞纸板缓冲包装系统的冲击谱和破损边界有显著影响。Packaging system dynamics model for C-flute corrugated board was established based on dynamics constitu-tive model. In the C-flute corrugated cardboard's cushioning packaging system, the effects of different damp, linear, sinusoidal and tangent parameters on shock spectrum and damage boundary of vulnerable part of C-flute corrugated cardboard packaging were researched, which were produced by shocks from rectangular waves. The research was con- ducted under the concept of three-dimensional shock spectrum and damage boundary surface, with application of the Rnuge-Kutta algorithm. The results showed that cushion performance of C-flute corrugated cardboard is restricted by damping coefficient, linear, sinusoidal and tangent parameters and has a significant influence on shock spectrum and damage boundary of C-flute corrugated cardboard's cushioning packaging system.
分 类 号:TB484.1[一般工业技术—包装工程] TB487
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