Analysis of Ethylene Glycol Degumming Process and Characterization of Hemp Fibers

To overcome the shortcomings of traditional degumming process,an efficient and environmentally friendly ethylene glycol(EG) degumming process was adopted to degum hemp fibers.The surface morphology,chemical composition,chemical structures,and mechanical properties of the fiber samples were analyzed to explore the mechanism of the degumming process.It was found that the EG degumming process could be divided into the main degumming stage(heating) and the supplementary degumming stage(insulation).The removal rates of hemicellulose and lignin in the main degumming stage were 70.56% and 60.17%,respectively.In the supplementary degumming stage,9.95% hemicellulose and 25.39% lignin were removed.It is confirmed that EG can separate hemp fibers effectively with less damage,which holds great potential for the biomass fiber separation technology.

Morphological, mechanical and thermal properties of cyanate ester/benzoxazine resin composites reinforced by silane treated natural hemp fibers

This present study deals with the reinforcement of thermosetting resin blends composed of cyanate ester(CE) and benzoxazine(BOZ) resins with natural hemp fibers(NHFs). These NHFs were initially treated by using a silane coupling agent(SCA) in order to chiefly enhance their distributions as well as adhesions within the CE/BOZ resin matrix,then incorporated with various weight amounts ranging from 5 wt% to 20 wt% with a regular interval of 5 wt%. The obtained results showed that at the maximum treated fiber loading(20 wt%), distinctive enhancements in the mechanical properties in terms of flexural strength and microhardness were obtained. Besides, the thermal stability and glass transition temperature(Tg) were appreciably enhanced and were higher than those of the pure CE/BOZ resin properties. With respect to the astonishing properties of the NHFs, these enhancements could be possibly due to the good dispersion and adhesion of the treated NHFs inside the CE/BOZ resin achieved upon using the SCA. Therefore,we believe herein that these renewable and cheap NHFs have considerable potential to be used as reinfocer materials for CE/BOZ resin composites to be used in various industrial sectors.

Effect of Different Pretreatments on Solubility of Hemp Fibers in Ionic Liquids

Hemp fibers were treated with different pretreatments before being put into ionic liquid dissolved systems. NaOH,HCI,N,N-dimethylacetamide（ DMAc） solution and ultrasonic were utilized to activate fibers. Scanning electron microscopy（ SEM）,Fourier transform infrared spectroscopy（ FTIR） and X-ray diffraction（ XRD） were used to analyze the morphological and molecular structures of the fiber before and after activation for the comparative analysis. The pretreated fibers were dissolved and the dissolving process of fibers were observed until they were dissolved completely. Experimental studies found that NaOH solution made fibers crystal form change from cellulose Ⅰ to cellulose Ⅱ,and others didn＇t have this kind of change. By comparison,fibers treated by DMAc solution worked best, various methods which affected solubility could be sorted roughly as follows： DMAc ＆gt; ultrasonic ＆gt;HCI ＆gt; NaOH ＆gt; untreated.

The Manufacture of Structured Flax/Hemp Fiber Thermoplastic Composites and Its Flexural Properties

Flax and hemp fibers were used as reinforcing materials to commingle with polypropylene(PP)fiber to realize the mixture of two materials at the stage of yarn.Meanwhile,PP filaments were introduced to produce a core-spun yarn with flax/PP as core and PP filament as outer sheath.The commingled yarns were woven into 2D fabric which was used as the prefabricated material.The composite laminates were prepared by hot press technology.The effects of manufacture technology,yarn structure,and fiber weight fraction on flexural properties of composites were investigated.

Fabrication of Manila Hemp Fiber Reinforced Cross Ply Biodegradable Composites and Their Tensile Properties

Natural plant fibers, including flax, kenaf, jute, bamboo, ramie and much more are renewable and sustainable resources and are considered good candidates for cost-effective alternatives to glass and carbon fibers. In this research, cross ply biodegradable composites were fabricated by press-forming method. The biodegradable composites consist of Manila hemp textile as a reinforcement and starch-based biodegradable plastics as a matrix was fabricated and investigated about mechanical properties. The tensile strength increased with the fiber content until fiber content of about 50% and leveled off thereafter. This dependence on the fiber content is due to the decrease in fiber strength of loading direction caused by fiber damages introduced during hot-pressing. In order to decrease the damage of fibers aligned in loading direction, Manila hemp textile was produced by using Manila hemp fibers for warp and biodegradable resin thread for weft. As a result, the tensile strength of cross ply composites increased from 153 MPa to 202 MPa.

分散剂在麻浆纤维纸的应用研究

采用低打浆度的麻浆纤维作为原材料,分别加入三种不同的分散剂,优选出最适合麻浆纤维的分散剂,且探究了分散剂的加入量对麻浆纤维分散性以及纸张性能的影响。研究结果表明:优选出R200分散剂在麻浆中的分散效果最好,随着其加入量的增加,纸张的匀度指数、抗张强度、断裂伸长率这三个指标提升效果明显;通过孔径分析和扫描电镜检测可知,纸张中纤维与纤维之间的搭接更加均匀,纤维之间形成20μm以上的较大孔径几率降低。

灰竹炭纤维/大麻纤维/Coolplus纤维/棉精梳混纺柔洁纱的可纺性研究与生产实践

本文结合生产实践,通过设备改造和半制品及纱测试,分析和讨论各因素对灰竹炭纤维/大麻纤维/Coolplus纤维/棉精梳混纺柔洁纱质量的影响,研究前纺工序和细纱工序通过优化工艺参数、采用新型纺纱专件、合理控制车间的温湿度等,明显地提高了灰竹炭纤维/大麻纤维/Coolplus纤维/棉精梳混纺柔洁纱质量。

桑叶茶与小叶紫檀对汉麻纤维套染性能的研究

为扩展天然染料染色的色谱范围,采用桑叶茶和小叶紫檀对汉麻纤维进行套染,分析了桑叶茶染液的质量分数、媒染剂的质量分数、小叶紫檀染液的质量分数对套染汉麻纤维K/S值的影响,以及套染后汉麻纤维的耐摩擦色牢度、耐汗渍色牢度和耐皂洗色牢度。结果表明,桑叶茶与小叶紫檀套染的汉麻纤维可以获得颜色较深的紫红色。综合分析正交试验和单因素试验结果,得到桑叶茶与小叶紫檀对汉麻纤维套染的优化工艺条件如下:桑叶茶染液质量分数60%,媒染剂质量分数10%,小叶紫檀染液质量分数100%。在该条件下所套染汉麻纤维的耐摩擦色牢度和耐汗渍色牢度符合国家服用性能标准,耐皂洗色牢度有待提高。

5个工业大麻品种(系)产量品质性状分析

试验对‘Гресия’、‘Глесия’、‘B10-2020’、‘BGL-2019’和‘BLG-2019’ 5个工业大麻品种(系)的6个产量性状、4个品质性状以及7个农艺性状进行相关性和主成分分析,结果表明,通过产量、农艺性状相关性分析得出茎粗、工艺长度与鲜皮重、干皮重、鲜茎重等产量性状之间普遍呈显著正相关;同时,通过主成分分析从14个性状指标中提取出3个主成分,累积贡献率为90.20%,根据综合评分,得出不同品种(系)综合性状排名为‘B10-2020’>‘Гресия’>‘Глесия’>‘BLG-2019’>‘BGL-2019’,相关性分析显示综合得分与大部分农艺性状显著正相关,与品质性状显著负相关,表明综合得分可以较好地反映5个试验品种的综合表现情况,为培育、开发高产量及高品质工业大麻纤维提供参考。

汉麻秆微细纤维结构和制浆性能分析

非木材纤维原料资源的开发及利用拓宽了植物纤维来源渠道,能够缓解制浆造纸工业木材原料短缺问题,符合我国国情。本文以农林废弃物汉麻秆为原料,从纤维微细结构着手,将汉麻纤维与制浆造纸常用阔叶木原料杨木和禾本科植物原料玉米秸秆进行了对比,发现汉麻秆的纤维形态与杨木纤维相似,杂细胞含量少,在长度、宽度分布上具有很好的均一性,符合制浆用纤维原料的要求。检测结果表明:汉麻秆纤维抄造的纸张具有较好的物理性能,能够替代部分现有原料,缓解纤维原料短缺的难题。

麻纤维高效短流程纺纱机理研究

探讨麻纤维的高效短流程纺纱问题。对比了棉、毛、麻纺等纺纱系统的流程和效率。基于理论分析和实际纺纱结果,分析了纤维长度对成纱条干和强伸性的影响。通过纺纱实例,对比了不同长度麻纤维纺纱后的成纱质量,提出了用棉型纺纱系统对麻切断纤维进行纺纱。认为:过长的麻纤维会导致加工流程变长和生产效率变低;纤维达到一定长度后,纤维长度增加对成纱质量的影响已不显著;适当短的纤维有利于简化纺纱流程和改善成纱质量;将麻纤维长度控制在棉纤维长度范围内,完全可在棉纺设备上进行麻纤维纺纱,从而利用棉纺设备来改造和提升麻纺的装备和技术水平。

新能源汽车内饰用麻纤维/聚乳酸复合材料老化性能研究

植物纤维强化的聚乳酸复合材料在显著提升了材料性能的同时,对缓解环境压力和能源问题具有积极影响,尤其在新能源汽车制造中,这种材料的应用大大推进了行业的绿色转型。基于此,聚焦于新能源汽车内饰中纤维改性聚乳酸复合材料的应用可能性,选择苎麻纤维与聚乳酸复合材料为研究对象,从材料的制备技术和其界面的湿热老化性能出发进行深入探讨。研究发现,在热水老化条件下,相较于5%NaOH处理,采用水处理的苎麻纤维聚乳酸复合材料展现出更优异的耐久性能,并且这种处理方法更加环保、操作简便,有望在新能源汽车领域广泛应用。

低VOC麻纤维增强复合材料制备技术

麻纤维增强热塑性复合材料具有轻质、环保、耐冲击等特点,是极具附加值与潜力的材料。但传统麻纤维复合材料存在纤维分散不均、挥发性有机化合物(volatile organic compounds,VOC)大量释放等问题,制约了麻纤维复合材料的规模化应用。介绍了麻纤维固相共混热致复合的材料制备方法、麻纤维表面处理技术、麻纤维复合材料一步法制备技术、麻纤维热塑性复合材料一体化成型等制备工艺,并对天然麻纤维增强复合材料的规模化应用进行了展望。

不同外加纤维对烟草复合滤嘴棒用纸性能的影响

为了提高烟草复合滤嘴棒用纸的性能指标,采用6种外加纤维(漂白针叶木浆、漂白竹浆、马尼拉麻浆、棉浆、绒毛浆和未漂针叶木浆)对烟梗浆进行替代。由于外加纤维具有不同的纤维特性,所以分别研究外加纤维的打浆度和替代比对烟草复合滤嘴棒用纸物理指标的影响。研究结果表明:随着外加浆料替代比的增加,烟草复合滤嘴棒用纸的强度和伸长率均有所提升,其中马尼拉麻浆替代的烟草复合滤嘴棒用纸的性能优于其他5种外加纤维。当马尼拉麻浆的打浆度为50°SR、马尼拉麻浆替代比为90%时,烟草复合滤嘴棒用纸的抗张指数为76.3 N·m/g,伸长率为3.10%。因此,本研究为烟草复合滤嘴棒用纸的开发奠定了理论基础。

汉麻/粘胶水刺非织造材料的制备及性能研究

文章利用不同比例的汉麻纤维和粘胶纤维,通过梳理成网、水刺加固的方式,制备汉麻/粘胶纤维水刺非织造材料,并对制备的材料进行柔软整理。通过单位面积质量、力学性能、抗弯刚度、液体穿透等性能的测试分析发现,可以通过水刺加固工艺制备密度均匀、力学性能较好的水刺非织造材料,材料的柔软性和液体穿透能力较好。经柔软整理后,可进一步提高水刺非织造材料的柔软性和液体穿透能力。

几种麻类纤维形态结构特征的研究

本研究以菠萝麻、大麻、黄麻、剑麻4种麻类纤维为研究对象,对其基本形态、解剖结构、表面形貌、细胞壁结构、微纤丝角、微晶结构特征进行了研究。结果表明,4种麻类纤维均具有较高的长径比,不同麻纤维形态差异较大;在4种麻纤维的解剖结构中,大麻韧皮纤维群呈团簇分布,黄麻韧皮纤维群沿径向行规律分布,菠萝麻和剑麻的叶片纤维均存在于维管束外围;4种麻纤维表面均较粗糙,初生壁微纤丝排布无规则,其中大麻纤维表面褶皱最为密集;4种麻纤维均有明显的多壁层结构,其中剑麻纤维细胞壁壁层结构最为紧密;大麻、黄麻韧皮麻类纤维微纤丝角较小,分别为6.61°、7.67°,菠萝麻、剑麻叶片麻类纤维的微纤丝角分别为16.29°、20.84°;菠萝麻与大麻纤维的结晶度均在80%以上,黄麻和剑麻的微粒尺寸较小,均小于3 nm。

基于模压注塑一体工艺的麻纤维零件结构及模具设计

麻纤维复合材料的应用是实现汽车轻量化、汽车行业绿色、可持续发展的重要途径之一。针对麻纤维复合材料应用于汽车复杂零部件难以成型及模具成本高昂的问题,提出一种基于模压注塑一体成型的解决方案。首先将麻纤维/聚丙烯复合材料纤维板加热软化后放入模压注塑一体模具中进行模压成型,模具分型面采用插穿结构替代碰穿结构设计,模压过程通过分型面冲切零件轮廓,对于无法通过模压成型的产品背面定位安装结构和主体参数化特征采用注塑麻纤维/聚丙烯成型。模具采用倒装结构设计,模具定模侧设计热流道浇注系统及顶出机构,型腔设计可替换镶件用于冲裁和注塑主体的参数化特征。零件设计导流道连接产品背部独立的安装结构和主体参数化特征,模压结束后通过定模热流道点浇口填充导流道以成型产品背部独立的安装结构和主体参数化特征,待塑料结构冷却固化后,定模侧由油缸驱动的顶出机构将零件顶出脱离型腔。基于该成型工艺设计了一套模压注塑一体模具并运用于实际生产,通过实践证明,该模具结构稳定可靠,零件质量满足设计要求。

喷气涡流纺汉麻混纺纱及面料的生产

为了开发色织大提花喷气涡流纺细号高混比汉麻纱及其面料,详细分析以渗透剂改善纤维回潮率,以氧化剂降低木质素含量,提升汉麻纤维可纺性及舒适性的原理及方法;以多组分混纺、使用特殊油剂,提升涡流纺纱线柔软度以及纱线强力的具体工艺;在纱线表面被覆柔软剂增加经纱柔韧性,在开口区给湿增加经向股线韧性来提升汉麻混纺纱可织性的方法。通过测试汉麻混纺纱的成纱质量和面料质量,表明:选取15%平平加O渗透剂和0.05 L/kg~0.50 L/kg的臭氧用量对汉麻纤维进行养生处理,使用白油作为润滑剂、二甲基硅油作为防粘剂,纺制的汉麻30/粘胶30/棉40 MVS 14.7 tex混纺纱可批量生产且质量稳定;采用MVS 14.7 tex混纺纱合股、在织机开口区给湿结合经纱柔软剂被覆处理技术后,该汉麻混纺纱面料织造效率高、抗菌性优良;今后应进一步加大细号高混比汉麻混纺纱工艺研究,完善织口加湿技术。

洋麻纤维汽车车厢内衬板制造工艺研究

文章阐述洋麻纤维汽车车厢内衬板的制造工艺流程,并通过实验系统分析纤维含量、树脂黏度和成型压强等工艺参数对材料性能的影响,最终获得洋麻纤维增强复合材料车厢内衬板的最佳工艺参数组合。结果表明,在优化的工艺参数条件下,复合材料车厢内衬板的力学性能和成型质量均达到最优水平。

热压工艺参数对麻纤板减薄率影响分析

麻纤维制品因其高强度、高耐磨、来源广、易降解等优点,成为汽车内饰件环保、超高轻量化的新一代理想材料。为研究热压过程中热压参数对麻纤板减薄率的影响,文章应用自主设计的模具,通过杯突实验研究了热压参数对麻纤板减薄率的影响,实验发现温度和热压行程与麻纤板减薄率存在正相关的关系,热压速度与麻纤板减薄率存在负相关关系。根据实验得到的数据,应用SPSS数据分析软件,分别建立了麻纤板减薄率与温度与热压速度的一元线性回归预测模型和与热压行程的一元回归预测模型。通过建立的模型,可以在热压-注塑一体化成形工艺中预测对热压破坏进行预防、改善注塑工艺参数提高生产效率。最后,文章从机理上分析了麻纤板减薄率与温度、热压速度和热压行程的关系。