研究了白腐菌对二次纤维的脱墨作用。
This study was carried out to explore the white rot fungus deinking effect on ONP.
研究结果表明,提高纸页强度主要靠改善二次纤维的结合性能。
The research results showed that the strength properties of recycled paper were improved mainly by enhancing the bonding properties of the secondary fibers.
随着造纸原料紧张、能源短缺等问题的加剧,二次纤维的回用变得越来越重要。
With the nervous aggravation of the raw materials and energy shortage problem, the retrieval and utilization of secondary fiber become important day by day.
现造纤维:从次等纸,损纸或其他废纸所得的二次纤维,有别于从树木所得的首次纤维。
Recycled fibre: Secondary fibre from retree, broke or other pager waste as opposed to virgin fibre from trees. Also called Recovered fibres, Secondary fibres.
研究内容包括:二次纤维活性的恢复、胶粘物的有效去除以及高硬度二次纤维纸浆的漂白。
The research content included the renewal of secondary fiber's activity, the effective removal of gluey materials and the bleaching of high-kappa number pulp made of secondary fiber.
影响二次纤维新闻纸的印刷适性的主要有基本物理性能、光学性能、力学性能、吸收性等。
The qualities, which effect newspaper printability, include basic physical performances, optical performances, mechanical performances, absorbing performances and so on.
本文重点探讨在二次纤维回用过程中添加细菌纤维后对浆料的滤水性能以及成纸物理性能的影响。
In the paper, the effects of adding bacterial cellulose to the process of fiber recycle on the pulp drainage property and paper physical...
二次纤维质量的持续降低和轻质包装材质的需求都不断地挑战传统获取机械性能的方法的极限标准。
The ever decreasing quality of recycled fibres and the demand for lighter packing material stretches to the limit classical methods of obtaining mechanical properties.
低纤维素酶活木聚糖酶在合适的酶解条件下,能降低轻量涂布纸二次纤维中细小组分含量,增加浆料的滤水速度。
Cellulasepoor xylanases can reduce the content of fines in the light weight coated secondary fibers and increase drainage rate under appropriate enzymolysis condition.
本课题的目的是寻找二次纤维新闻纸的最佳印刷实地密度的实验方法,实现对彩色报纸印刷品图像再现质量的控制。
The purpose was to study the best printing solid density on secondary fibers newspaper, to realize the control of the image reappearance quality and improve secondary fibers newspaper's performance.
结果表明,二次纤维抄造过程添加水溶性维纶纤维可以明显改善纸张强度性质,其裂断长、撕裂指数和环压强度均有提高。
The results showed that the tensile, tear and ring crush compression resistance of the paper increased by using water-soluble PVA fibers.
讨论了几种PAN基炭纤维和炭纤维布作为二次锂离子电池负极的行为。
The property of PAN-based carbon fibers and carbon fiber cloth used as negative electrode of secondary lithium ion battery is reviewed.
本文研究了SL—080接枝膜与水化三醋酸纤维素膜在锌二次电池中阻挡枝晶的性质。
The properties of SL-080 grafted membrane separator and hydrocellulose triacetate (HCTA) membrane separator had been studied as a zinc dendrite growth barrier in secondary cells.
由粉石英制备的硬硅钙石二次粒子球具有中空结构,而白炭黑对应样品则以纤维聚集成的块体为主,成球差。
The secondary particle sphere of xonotlite yielded by konilite is of hollow structure, however, for the carbon white fibrous crystal just stacked densely and balling up is poor.
对抗凝血纤维素硫酸酯制备过程进行五因素二次旋转正交实验和统计优化分析。
The preparation of anticoagulant cellulose sulfate was investigated by five factors quadri-rotation orthogonal experiments and statistical optimization analysis.
在第二次实验中,纤维蛋白原的消耗被封闭了,所有动物均存活。
This time, fibrinogen consumption was blocked, and all of the animals survived.
介绍了焦炭、石墨、难石墨化碳及碳纤维、中间相微球等锂离子二次电池用碳负极材料的研究概况。
The cokes, graphites, nongraphitizable carbon, carbon fibers. mesocarbon. microbeads(MCMB)used as carbon anode materials for lithium ion secondary batteries ware presented.
采用玻璃纤维、橡胶与聚丙烯共混的二次造粒方法,制备了刚韧适度的汽车风扇专用料。
The special material for automobile fan with moderate rigidity and toughness was prepared by reinforcing, rubber toughening and PP blending.
纤维素生物油产量在峰值上最高,但纤维素生物油热稳定性差,高温时挥发分的二次分解最明显;
The bio-oil yield from cellulose is the highest of the three fractions, but it is lest stable.
并在分析纤维素一次反应、挥发份二次裂解以及各主要产物的生成和演变过程基础上,探讨得到完整统一的纤维素热裂解机理模型。
On the basis of the analysis of primary reaction, secondary reaction and main products formation, the mechanism model of cellulose pyrolysis was proposed.
基于二次受力迭合梁斜截面受力性能和钢纤维混凝土材料特性,分析了钢纤维混凝土迭合梁截面的剪应力分布规律。
Based on the double stress of steel fiber reinforced concrete (SFRC) composite beams and their material performance, a law of shear stress redistribution in SFRC composite beams is studied.
在第二次实验中,(正如所料)纤维蛋白原的消耗被封闭了,所有动物均存活。
This time, fibrinogen consumption (as expected) was blocked, and all of the animals survived.
在第二次实验中,(正如所料)纤维蛋白原的消耗被封闭了,所有动物均存活。
This time, fibrinogen consumption (as expected) was blocked, and all of the animals survived.
应用推荐