基于全因子实验的激光打孔参量与吸阻关系分析

孙华强; 郇浩; 齐萌; 李庆坚

doi:doi:10.7510/jgjs.issn.1001-3806.2018.06.012

激光技术, 2018, 42 (6): 790, 网络出版: 2018-12-25

基于全因子实验的激光打孔参量与吸阻关系分析

Analysis of relationship between laser drilling parameters and draw resistance based on full factorial experiment

论文大纲

孙华强 ^*郇浩齐萌李庆坚

作者单位

山东中烟工业有限责任公司济南卷烟厂, 济南 250104

激光技术激光打孔全因子试验吸阻烟草卷接设备 laser technique laser drilling full factor experiment draw resistance cigarette making machine

摘要

激光打孔可以改善烟支的总通风率和吸阻等指标, 满足消费者对烟支的感官质量体验。为了获得最佳的激光打孔参量组合,在吸阻指标固定的前提下, 采用全因子试验方法,探究出激光打孔参量与吸阻的关系方程。结果表明, 脉冲宽度较另外两个因子（功率与布孔偏量）对吸阻的影响更为显著;在3个因子同时变化一个单位的情况下, 脉冲宽度对吸阻的影响最大, 大约是功率和布孔偏量的10倍;为使吸阻变小, 应该让3个主效应因子尽可能大;功率与布孔偏量的交互作用对于吸阻的影响相对于其它因子之间的交互效应要显著得多。该研究为吸阻的质量管控提供了统计学依据, 这种试验分析问题的方法也为其它类似的试验提供了借鉴。

Abstract

Laser drilling can significantly improve cigarette quality,such as total ventilation rate and draw resistance of cigarettes and satisfy consumers’sensory experience. In order to obtain the best combination of laser drilling parameters, the relationship equation between laser drilling parameters and draw resistance was explored by using full factor experiment method on the premise of the fixed absorption index. The results show that pulse width is more significant than the other two factors (power and offset hole size). When the three factors change one unit at the same time, pulse width contributes the most influence on draw resistance, about 10 times that of power and offset hole size. In order to reduce draw resistance, the three main factors should be as large as possible. The interaction between power and offset hole size is more significant than the interaction among other factors. The study provides statistical basis for quality control of draw resistance, and the method of analyzing problems also provides the reference for other similar experiments.

参考文献

[1] WU Zh Y, LI L, LI D L, et al. Correlation analysis between cigarette weight, draw resistance, ventilation rate and sensory evaluation of ciga-rette［J］.Chinese Tobacco Science,2010,31（2）:49-53（in Ch-inese）.

[2] YANG G R, LI Zh R, XU J, et al. Research advance on the techno-logy of risk and tar reducing in cigarettes［J］.Yunnan Chemical Technology, 2009, 36(2):44-47（in Chinese）.

[3] WANG L, YOU M, CUI X M, et al. Method for predicting draw resistance and ventilation of cigarette based on linear network model ［J］.Tobacco Science & Technology,2017, 50(12): 85-89（in Ch-inese）.

[4] TAO Y F, ZHANG Sh H, LI W J, et al. Application of AHP and GRA-based models to quality evaluation of cigarettes from different production sites ［J］. Acta Tabacaria Sinica, 2017, 23(1): 13-17（in Chinese）.

[5] HAN Y X, CHEN P F, ZHOU Zh Y, et al. Laser perforating technology of tipping paper［J］. Laser Technology, 2002, 26(5):330-333（in Chinese）.

[6] XIE X C. The relationship between ventilation rate and physicochemical indicator of cigarette made by online laser punching［J］. Journal of Zhengzhou University of Light Industry（Natural Science Edition）, 2015, 30（s1）: 52-56（in Chinese）.

[7] XIA P Y, WANG J W, PEI H B, et al. Application of mathematical model for ventilation rate of tipping paper in blended cigarette design［J］. Tobacco Science & Technology, 2009, 42(8):10-13（in Ch-inese）.YU H. Study on measurement of femtosecond laser pulse wide［J］. Laser Technology, 2013, 37(5): 679-681（in Chinese）.

[8] HE Y J, WANG W, XU B Zh, et al. Experimental study on deep laser drilling by the superposed pulsed lasers［J］. Laser Technology, 2017, 41(3):380-384（in Chinese）.

[9] QIAN X Zh, WANG Q Q, REN N F. Optimization of laser drilling processing parameters for SUS304 based on orthogonal experiments［J］. Laser Technology, 2017, 41(4): 578-581（in Chinese）.

[10] XU B Zh, QI L J, WANG W, et al. Study on the optimum matching parameters of the combined laser drilling［J］. Laser Technology, 2018, 42(1): 5-10（in Chinese）.

[11] MA F Sh, ZHOU W, LIU Ch B. Six sigma statistical guide: MINITAB guidance ［M］. Beijing: China Renmin University Press, 2013:447-560（in Chinese）.

[12] MA L, HE Zh. Six sigma management［M］. Beijing: China Renmin University Press, 2007: 314-365(in Chinese）.

[13] TANG X F. Six sigma core tutorials-black belt reader ［M］. Beijing: Standards Press of China, 2006: 449-492(in Chinese）.

[14] LI X B,WANG Y H, XU L. Study on the optimization for the extraction of hawthorn flavonoids and the evaluation of smoking quality with its application in cigarettes［J］. The Food Industry, 2016, 37(10):104-108(in Chinese）.

[15] MA L, WANG W. Full factorial DOE optimizes the preparation process of topiramate pellets［J］. Chinese Journal of New Drugs, 2017, 26(19) :2347-2351(in Chinese）.

[16] SUN D L, MI Q, HU J J. Study on consistency of cigarette manufacturing quality［J］ Tobacco Science & Technology, 2007, 40(4):9-12(in Chinese).

[17] WANG L, LIU X J, WANG Q, et al. Fractional factorial design of experiment for wave soldering process of air conditioner motherboard［J］. Electronic Components and Materials, 2014, 33(5):75-79(in Chinese).

[18] MIAO Q D. Analyzing on effects of impurity elements on the hardness of titanium sponge by MINITAB software ［J］. Light Metals, 2014(1):44-47(in Chinese).

[19] GE X L, FENG X X, FAN Ch Y. Progress of the study of phase discontinuity of laser propagation through atmosphere［J］. Laser Technology, 2012, 36(4): 485-489(in Chinese).

[20] SUN Y Q, ZHOU J Zh, LIANG Q L, et al. Optimization of laser peening parameters using Taguchi method［J］. Laser Technology , 2008, 32(4):377-379(in Chinese).

孙华强, 郇浩, 齐萌, 李庆坚. 基于全因子实验的激光打孔参量与吸阻关系分析[J]. 激光技术, 2018, 42(6): 790. SUN Huaqiang, HUAN Hao, QI Meng, LI Qingjian. Analysis of relationship between laser drilling parameters and draw resistance based on full factorial experiment[J]. Laser Technology, 2018, 42(6): 790.

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