包装学报
包裝學報
포장학보
PACKAGING JOURNAL
2015年
3期
40-45
,共6页
蜂窝纸板%包边工艺%缓冲吸能%集中载荷
蜂窩紙闆%包邊工藝%緩遲吸能%集中載荷
봉와지판%포변공예%완충흡능%집중재하
honeycomb paperboard%overlapping technique%energy absorption performance%concentrated load
提出了一种新型的蜂窝纸板包边工艺,以实现包边工序的机械化和自动化,并研究了该包边工艺下制品侧面的缓冲性能。对传统手工包边工艺生产的蜂窝纸板与所提出新型包边工艺生产的蜂窝纸板进行了对比实验,并采用多次曲线拟合的方法比较所得实验结果。研究结果表明,新型蜂窝纸板包边工艺是切实可行的,蜂窝纸板侧面在受集中载荷时,新型的包边工艺生产的蜂窝纸板的侧面缓冲吸能能力大于同种规格手工包边方式生产的蜂窝纸板;当蜂窝纸板的厚度小于40 mm时,传统手工包边工艺生产的蜂窝纸板的缓冲吸能能力随蜂窝纸板厚度的增加没有明显的变化趋势,而采用新型包边工艺生产的蜂窝纸板,其缓冲吸能能力随着蜂窝纸板厚度的增加而增强。
提齣瞭一種新型的蜂窩紙闆包邊工藝,以實現包邊工序的機械化和自動化,併研究瞭該包邊工藝下製品側麵的緩遲性能。對傳統手工包邊工藝生產的蜂窩紙闆與所提齣新型包邊工藝生產的蜂窩紙闆進行瞭對比實驗,併採用多次麯線擬閤的方法比較所得實驗結果。研究結果錶明,新型蜂窩紙闆包邊工藝是切實可行的,蜂窩紙闆側麵在受集中載荷時,新型的包邊工藝生產的蜂窩紙闆的側麵緩遲吸能能力大于同種規格手工包邊方式生產的蜂窩紙闆;噹蜂窩紙闆的厚度小于40 mm時,傳統手工包邊工藝生產的蜂窩紙闆的緩遲吸能能力隨蜂窩紙闆厚度的增加沒有明顯的變化趨勢,而採用新型包邊工藝生產的蜂窩紙闆,其緩遲吸能能力隨著蜂窩紙闆厚度的增加而增彊。
제출료일충신형적봉와지판포변공예,이실현포변공서적궤계화화자동화,병연구료해포변공예하제품측면적완충성능。대전통수공포변공예생산적봉와지판여소제출신형포변공예생산적봉와지판진행료대비실험,병채용다차곡선의합적방법비교소득실험결과。연구결과표명,신형봉와지판포변공예시절실가행적,봉와지판측면재수집중재하시,신형적포변공예생산적봉와지판적측면완충흡능능력대우동충규격수공포변방식생산적봉와지판;당봉와지판적후도소우40 mm시,전통수공포변공예생산적봉와지판적완충흡능능력수봉와지판후도적증가몰유명현적변화추세,이채용신형포변공예생산적봉와지판,기완충흡능능력수착봉와지판후도적증가이증강。
A new overlapping technique for honeycomb paperboard was presented, which could easily be mecha-nized and automated. The side energy absorption performance of the overlapped honeycomb paperboard was researched. Comparative experiments were carried out for the new technology processed honeycomb paperboard and traditional manual processed ones, with the experimental results analyzed by multiple curve fitting. The results showed that the new overlap-ping technique for honeycomb paperboard was feasible. Under concentrated load, the maximum capability of side energy absorption of the new honeycomb cardboard was greater than that of the traditional ones. With the existing traditional manual process, there was no obvious change in side energy absorption performance when the thickness of the honey-comb cardboard was less than 40 millimeter, while the side energy absorption performance of honeycomb cardboard made with the new overlapping technique was enhanced with the increase in thickness.