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杨木化机浆成纸性能的优化 被引量:2

Optimizing the Paper Properties of Aspen PRC-APMP
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摘要 为了获得纸张松厚度与强度的平衡,通过不同游离度杨木PRC-APMP浆料进行配抄,以期更好地使用化机浆。结果显示,在填充浆(低游离度浆料)60mLCSF,骨架浆(高游离度浆料)600mLCSF,配比为0.14:1的最佳工艺下,成纸松厚度为2.437cm3·g-1,抗张指数为33.2N·m·g-1,内结合强度为272.3J·m-2。配比浆料与原浆相比,成纸的松厚度提高约6%,抗张强度和内结合强度分别提高约20%和31%。与风干干燥相比,烘干干燥不利于观察成纸松厚度的变化。 In order to have the balance between the bulk and tensile strength, through mixing different freeness pulps to achieve the mixed pulp. The results showed that the best process is as follows: freeness of the backbone pulp is 600 mL; freeness of the appended pulp is 60 mL; the ratio is 0.14:1; the bulk is 2.437 cm ^3 ·g^- 1 ; the tensile index is 33.2 N·m·g^- 1 , and the internal bond strength is 272.3 J·m^- 2 . Compared with the primary pulp, the bulk of mixed pulp is improved by 6%. And tensile and bond of mixed pulp are obviously increased by 20% and 31% than original pulp, respectively. e oven dry is not favor of observe the bulk change.
作者 陈菊 张美云 王建 魏晓芬 陈碧
机构地区 陕西科技大学 榆林学院
出处 《纸和造纸》 北大核心 2011年第11期1-4,共4页 Paper and Paper Making
基金 国家自然科学基金(31070527)
关键词 杨木PRC-APMP浆料 填充浆 骨架浆 配比 烘干方式 aspen PRC-APMP backbone pulp appended pulp ratio dry method
分类号 TS752 [轻工技术与工程—制浆造纸工程]
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参考文献4

  • 1ZhouY J, Collins Garth. Research and product development in high yield pulp (HYP) at Tembec[C]. ISETPP, Guangzhou, 2002:210-219.
  • 2Haives John M. The contribution of different types of fines to the properties of handsheets made from recycled paper[J]. Progress in Paper Recycling, 1993(11): 96-105.
  • 3Moss P A, Retulainen E. The effect of fines on fiber bonding: cross-sectional dimensions of TMP fibers at potential bonding sites[J]. Pulp Pap. Sci., 1997, 23(8): 382-388.
  • 4张荣,王高升,陈夫山.化学浆的细纤维化程度对高得率浆性能的影响[J].中国造纸,2010,29(1):18-22. 被引量:6

二级参考文献3

  • 1ZHANG Dongii. Forest and paper integration in China help boost HYP development [ C ]//Proceeding The 2nd International Symposium on technologies of Pulping, Papermaklng and Biotechnology on Fiber plants. NanJing: NanJing Forestry University, 2004.
  • 2Ayan chakraborty, Mohini M Sain, Mark T Kortschot, et al. Modeling Energy Consumption for the generation of Microfibres from Bleached Kraft Pulp fibres in a PFI Mill[J]. Bioresources, 2006, 2(2) : 210.
  • 3Watson A J, Phillips F H. Beating characteristics of the PFI mill IIl. Observations related to the beating mechanism [J]. Appita, 1964, 18(3) : 84.

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纸和造纸
2011年 第11期

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