汪鲁聪,刘美华,张连文,潘道津,孟宪文.果品物流运输包装件堆码性能的实验研究[J].包装工程,2012,33(19):11-14.
WANG Lu-cong,LIU Mei-hua,ZHANG Lian-wen,PAN Dao-jin,MENG Xian-wen.Experimental Research on Stacking Performance of Fruit Transport Packages[J].Packaging Engineering,2012,33(19):11-14. |
| 果品物流运输包装件堆码性能的实验研究 |
| Experimental Research on Stacking Performance of Fruit Transport Packages |
| 投稿时间:2012-06-08 修订日期:2012-10-10 |
| DOI: |
| 中文关键词: 果品运输包装 机械损伤 堆码性能 TOPS Pro软件 |
| 英文关键词: fruit transport package mechanical damage stacking performance TOPS Pro software |
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| 中文摘要: |
| 从果品实际运输环境出发,采用动态持压技术,模拟了堆码试验,测试了贵妃富士苹果物流运输包装件在运送、堆叠过程中的抗压及耐碰撞能力。用GT-7001-DS型纸箱耐压试验机,测出了贵妃富士苹果物流运输包装件的最大堆码层数为11层,即最大堆码高度为1870 mm;应用TOPS Pro软件模拟了运输包装件集装到车辆装运后的最佳堆码方式。为果品运输包装件的优化设计和运输堆码提供技术支持。 |
| 英文摘要: |
| Dynamic continuous pressure technology was applied to simulate the stacking test of fruit in actual transportation environment. The compressive resistance and collision resistance of Fushi apple during transport and stacking process was tested. GT-7001-DS carton compression tester was applied for the compression test. The result showed that the maximum number of allowable stacking layers is 11; the allowable maximal stacking height is 1870 mm. The best transport package stacking mode from transportation package containers to vehicles was simulated using TOPS Pro software. The purpose was to provide reference for optimal design of fruit transport package and transport stacking. |
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