Comparative Study of Polypropylene Non-Woven Surgical Mask and Locally Manufactured Woven and Knitted Fabrics Facial Masks

The outbreak of coronavirus has led to an increase in the demand for facemasks globally. Unavailability of appropriate polypropylene non-woven fabrics face masks as a result of inadequate supply to satisfy the growing population has brought about the manufacturing of locally fabrics masks to augment or substitute standard medical class facemasks. The study aims at analyzing airflow of these locally manufactured fabrics to determine possible means of transmitting the virus as well as establish comfort of the user of these masks. Standard polypropylene non-woven, woven and knitted fabrics were considered for the study. Air permeability test was conducted on these fabrics using Frazier Air permeability tester. Depending on the property significant variation in the textile fabrics, polypropylene non-woven is widely accepted for facial masks. Nevertheless, this study illustrates that woven and knitted fabrics have more open structures, which allow a high rate of air penetration and so may require two or three layers to prevent antimicrobial or antiviral potential.

Preparation of UV-curable Nano-silver Antimicrobial Agent and Its Application in Non-woven Fabric

Nano-silver and waterborne polyurethane(WPU)composite emulsion was synthesized.The average diameter of silver nanoparticles(SNPs)was about 20 nm,and the average diameter of WPU was 101.32 nm.The anti-bacteria finishing of a polypropylene non-woven fabric(NWF)was carried out by ultraviolet finishing technology and the double dipping twin-roll method.The standard AATCC100 was used to test the antimicrobial activity of the samples.The results showed that the antimicrobial rates of Klebsiella pneumoniae(K.pneumoniae)and Staphylococcus aureus(S.aureus)were above 90%,which indicated that the NWF finishing had good antimicrobial activity.In addition,the thermal stability,mechanical properties,whiteness and contact angle of antimicrobial finishing nonwovens were characterized.The results showed that the performance of antimicrobial nonwovens was stable at 300℃.The breaking strength was better than that of untreated nonwovens,and the contact angle reached 119.1°.

Relationships between the Processing Parameters of Melt Blown Nonwoven Fabric and Its Structure and Filtration Property

Based on the processing experiment and sodium flame test this paper deals with the relationship between processing parameters, structure, and filtration property of melt blown fabric. Through the image analysis of Questar micro-images in combination with the SEM observation and the measurement of some macrostructure indices, the relationship between the processing parameters and the structure especially the microstructure is emphasized Finally the effect of somestructure factors on filtration properties is discussed theoretically.

VARIATION OF WOVEN FABRIC GEOMETRY——Non-uniform Flattening of Yarns

In previous research much effort has been devoted to the geometry of woven fabrics and relat-ed problems under the assumption of constant yarn configuration in fabric.This paper will first re-port that image crimp (yarn crimp measured by an image analysis method) seems larger than actualvalue.From the explanation of this result,the variation of yarn configuration in woven fabric dueto the non-uniform flattening is revealed.The significance of this actual structure of woven fabricsis discussed.It is believed that the variation of yarn configuration is very important for fabric per-formance,and may be an advantage for fabric quality.

A STUDY OF THE SPECIMEN SIZE OF STRIP TENSILE TEST FOR NEEDLE-PUNCHED NON-WOVEN GEOTEXTILES

In this paper,the failure features of strip tensile specimen were observed and analysed for need-le-punched non-woven geotextiles.A mechanical model which expresses the relation between thetensile modulus,the strip specimen size,contraction factor and the tensile strength of non-wovenfabric was derived.The theoretical prediction showed that the main factor influencing tensilestrength of non-woven geotextile specimens with different size is the contraction factor of specimenor the specimen aspect ratio(width/length).The larger the aspect ratio,the higher the tensilestrength test value of geotextiles,but the experiments showed that the specimen tensile strength isnot increased with increasing the width of specimen.The reason was discussed and it seemed thatthe deviation could be served as an indication of the degree of imperfectness of the non-wovenstructure.

多色无纺布包装材料在手术器械灭菌管理中的应用效果

目的:分析多色无纺布包装材料在手术器械灭菌管理对手术周转效率、手术器械准备情况及外科医护人员与患者满意度等影响。方法:选取2016年3月至2021年12月首都医科大学附属北京友谊医院消毒供应中心的31589件手术器械,根据管理方法不同,将2016年3月至2019年1月的71007例手术患者及患者使用的16224件手术器械纳入对照组,采用传统的纱棉布包包装手术器械管理方法。将2019年2月至2021年12月的62548例手术患者及患者使用的15365件手术器械纳入观察组,采用多色无纺布包装材料手术器械管理方法,比较两组手术周转效率、手术器械准备情况及患者与外科医护人员的使用管理满意度。结果:观察组患者手术的入室时间、入室-切皮时间、接台手术入室-切皮时间及手术延误率均低于对照组,差异有统计学意义(t=52.681、37.167、72.524,χ^(2)=9.605,P<0.05)。与对照组比较,观察组外出送物品次数、装配错误和器械丢失明显降低,器械完好件数明显提高,差异有统计学意义(χ^(2)=107.345、11.782、8.727、66.223,P<0.05);观察组患者及医护人员器械使用管理的满意度显著高于对照组,差异有统计学意义(t=100.723、6.756,P<0.05)。结论:手术器械运用多色无纺布包装材料有助于提高手术周转率,通过降低外出送物品次数、装配错误及器械丢失提高消毒供应中心工作效率,改善外科医护人员与患者对手术器械多色无纺布包装材料的满意度。

“无机粒子-无纺布”协同改性碳纤维复合材料及其增韧机理

针对碳纤维复合材料层间性能较差、易发生分层损伤的问题,提出一种采用SiC粒子和热塑性共聚酰胺(PA)无纺布对碳纤维/环氧树脂基复合材料(CFRP)进行增韧改性的技术,在层间构筑一种“无机颗粒/热塑性纤维/树脂基体”多组分多尺度增韧相体系,对比分析改性前后复合材料的Ⅰ型、Ⅱ型层间断裂韧性和耐热性,借助扫描电子显微镜(SEM)和动态热机械分析仪揭示其增韧和耐热性机制。结果表明,与未改性的CFRP材料相比,当SiC填充量(质量分数)为1%、PA无纺布面密度为25 g/m2时,改性CFRP材料Ⅰ型层间断裂韧性(GⅠC)和Ⅱ型层间断裂韧性(GⅡC)分别提高了52.7%和222.6%。无机粒子的阻滞效应、纤维的桥连效应和基体树脂的塑性变形是其主要增韧机制。

GN-g-MAH/PPy多功能PET非织造布的制备及应用

为提高聚酯(PET)非织造布的性能,将导电材料通过表面改性引入PET非织造布,采用单宁酸(TA)作为桥联剂,功能化石墨烯(GN-g-MAH)和聚吡咯(PPy)作为导电功能层,制备得到多功能PET非织造布,并使用SEM、XRD、TG等测试了PET/GN-g-MAH/PPy的微观结构和热稳定性。结果表明:通过循环自组装法及低温化学聚合法成功制备了PET/GN-g-MAH/PPy非织造布,表现出良好的导电性,表面电阻率低至3.11×10^(-2)Ω·m,表面由疏水转变为亲水。基于此,非织造布也表现出优异的电热性能,对其施加3 V驱动电压时,可在20s内产生约40℃的饱和温度。此外,还具有良好的光热转换性能,当光照强度为300 mW/cm^(2)时,照射20 s后,表面温度可稳定到105.8℃,非织造布还表现出优异的光热抗菌性,当大肠杆菌的菌液浓度为1.6×10^(8)CFU/mL时,使用氙灯模拟太阳光源照射后,抗菌率达到99.6%。

纯棉无纺布低温近中性练漂体系构建及其工艺优化

纯棉无纺布练漂在高温强碱中进行,能耗高、排污大、纤维损伤严重。针对该问题,试验构建了三种低温近中性练漂体系,通过对比三者练漂无纺布的颜色特征值、亲水性能和机械性能,选出最优体系;采用XRD、FT-IR、SEM分析体系对棉纤维微观结构与形貌的影响;通过中心复合设计(CCD)优化该体系漂白工艺,并寻求影响织物白度(WI)的关键因素。研究表明:四乙酰乙二胺/过氧化氢(TAED/H2O2)体系练漂织物WI最高,亲水性优良,强力损伤最小(<20%);练漂体系对棉纤维晶型结构与官能团无影响,能有效去除纤维表面杂质,保护纤维不受损伤。CCD结果显示,温度对WI影响最显著,其次是H2O2浓度与NaHCO3浓度;在最优条件下,得到的理论最优WI为90.38,比原布WI高39.32%。

超吸水织物的制备及性能研究

以丙烯酸为单体,过硫酸钾、亚硫酸氢钠为氧化还原引发剂,与聚乙烯醇共混,采用溶液聚合法制备了丙烯酸高聚物溶液,浸轧丙纶热熔无纺布织物,经烘干得到超吸水织物,通过傅里叶变换红外光谱仪、场发射扫描电子显微镜、同步热分析仪对超吸水织物的结构、形貌和热性能进行分析,考察了聚合反应水浴温度、丙烯酸中和度、聚乙烯醇添加量、带液率对吸水倍率的影响,并对吸水机理进行探讨。结果表明:在聚合反应水浴温度为75℃,丙烯酸中和度75%,聚乙烯醇添加量(对单体)为5%(质量分数),带液率为500%,烘干温度为120℃条件下,制备的超吸水织物吸蒸馏水倍率为109.82g/g。

高阻隔性熔喷无纺布的制备及性能研究

本文采用茂金属聚丙烯(mPP)进行控制降解,制备了适于熔喷加工工艺的专用料。实验证明,采用mPP制备的熔喷无纺布较齐格勒-纳塔催化聚合等规聚丙烯(znPP)熔喷无纺布具有更出色的过滤性能,得益于其更加纤细且均匀的熔喷纤维和优异且稳定的驻极性能。无驻极添加剂的mPP熔喷无纺布表现出了出色的驻极性能,主要原因是mPP熔喷无纺布具有更高的表面电阻、更强的疏水性以及mPP熔喷无纺布专用料更小的结晶尺寸和更快的结晶速率。

MXene增强的无纺布医用柔性压力传感器

随着对健康监测需求的日益增长,非侵入性和实时生理监测的可穿戴柔性传感器开发成为了研究热点。提出了一种创新的方法,用于开发可穿戴柔性传感器。该方法采用环境友好且成本效益高的无纺布作为基材,通过简易的浸涂工艺,结合无纺布的自然微结构与MXene优异的物理化学特性,成功制备了MXene改性的无纺布作为压力传感器的压力敏感层。这种柔性压力传感器工作稳定,传感范围广,在0~150kPa的压力工作范围内具备超高灵敏度(S1=0.5 kPa^(-1)和S2=1.12 kPa^(-1)),同时具有约25 ms和50ms的快速响应时间和释放时间。该传感器能够精确捕捉人体腕部的桡动脉脉搏信号,在医疗保健、体育训练和机器人技术等领域展现出了巨大的应用潜力,并为低成本、环保型传感器的开发提供了新思路。

二次回收PP无纺布条单螺杆挤出技术研究

阐述了单螺杆挤出机中PP无纺布条二次塑化过程中的进料连续性及塑化过程,研究存在的问题与解决方法,指出螺杆进料段、压缩段、计量段参数设计及螺筒外部段冷却是实现无纺布条不间断进料及塑化稳定挤出的关键要素。通过增加进料段摩擦力、调整压缩段压缩比和长度占比、调整计量段缝隙和屏障以及外部段控制温度解决关键问题。

PP熔喷非织造布原料性能及关键工艺研究

为研究高效低阻熔喷布的关键生产工艺,选取四种不同的熔喷专用聚丙烯原料,采用毛细管流变仪对聚丙烯原料的流变性能进行分析,并进一步在熔喷生产过程中考察不同模头孔径和温度、不同热风风温和风量以及不同接收距离(DCD)对熔喷布颗粒物过滤效率的影响。结果表明,四种聚丙烯熔体的非牛顿指数均小于1,熔体表现出切力变稀现象;同一剪切速率下,四种聚丙烯熔体的黏流活化能各不相同,生产过程中需根据原料特性严格控制温度;四种聚丙烯熔体的结构黏度指数均小于0.005,结构化程度均较小,可纺性好;同时,减小模头孔径,提高模头温度及在熔喷布克重相同的条件下,增加热风风温和风量及DCD距离,有利于降低熔喷纤维的平均直径,提高过滤效率。确定了熔喷非织造布的关键生产工艺:模头孔径0.28mm,热风风温275℃,热风风量32%,DCD 180 mm,开发出25 g/m 2熔喷布,在32 L/min流量下,盐性颗粒物过滤效率98.8%,过滤阻力17.9 Pa。

Fabric Structure for Moisture Retention Property and Its Application in Civil Engineering

The article reveals the development and analysis of fabric structure for its moisture absorbency property and its application in Civil engineering for curing of concrete. The presence of moisture in concrete and time of curing are the major influencing factors for concrete strength. Normal practice of curing is to wrap the concrete with jute woven fabric and spraying of water. The absorbency characteristics of different GSM (Gram per square meter) of woven and Non-woven fabric were studied. The Non-woven fabric absorbency is superior to woven fabric of same GSM by its three dimensional structure and high pore volume. The strength of concrete cured with Non- woven fabric is 2.1 N/mm2 higher than woven fabric of same 350 GSM. The difference in compressive strength of Non-woven fabric of 350 GSM and 750 GSM is 0.06 N/mm2 which is marginal.

热塑性聚氨酯导电无纺布的制备与应变响应性能

以热塑性聚氨酯(thermoplastic polyurethane,TPU)为主要原料,通过熔喷纺丝技术制备TPU无纺布.配制不同质量浓度的多壁碳纳米管(multi-walled carbon nanotubes,MWCNTs)分散液对TPU无纺布进行功能化修饰,用于制备TPU/MWCNTs导电无纺布.通过绝缘电阻测试仪、热失重分析仪、扫描电子显微镜和拉伸应变响应度分析TPU/MWCNTs导电无纺布的结构与应变响应性能.结果表明:MWCNTs均匀、牢固附着于TPU/MWCNTs无纺布,形成高效、稳定的导电网络;随碳纳米管质量浓度增加,TPU/MWCNTs导电无纺布的导电性能变好;MWCNTs的引入提高了TPU/MWCNTs导电无纺布的热稳定性;当MWCNTs质量浓度为3 mg·mL-1时,TPU/MWCNTs导电无纺布的应变灵敏度最高;随着应变幅度增大,导电无纺布的应变响应度增强;经过10个循环拉伸作用后,TPU/MWCNTs导电无纺布的应变响应度达到稳定的响应状态,表现出良好的可回复性和可重复性,在柔性传感器和智能可穿戴领域具有光明的应用前景.

绿色合成氧化亚铜/无纺布选择性去除阴离子染料

以茶多酚为还原剂绿色合成氧化亚铜/无纺布复合材料,应用于染料的选择性去除.通过XRD、EDS、SEM、FTIR、BET、XPS等对复合材料进行表征分析,结果表明,Cu_(2)O颗粒呈较为规则的球形并均匀地分布于无纺布上;该复合材料对阴离子染料(金橙Ⅱ、刚果红、甲基橙)有良好的选择去除效果;其中,氧化亚铜/无纺布对金橙Ⅱ的去除率可达96.26%,去除过程符合伪二级动力学模型和Langmuir吸附等温模型;复合材料在3次循环去除染料后,去除率仍保持在75.41%,稳定性较高且能实现快捷回收.

水刺加固喷嘴高速喷射流场的数值模拟及验证

以水刺加固喷嘴高速射流对聚合物纤维进行水力缠结加固成形的过程为研究对象,通过建立水刺加固喷嘴喷射流场理论模型,经过数值模拟研究了4个不同水刺加固喷嘴高压喷射流场的运动特征,并与粒子图像测速仪系统测试的结果进行了对比。结果表明:采用Realizable k-ε湍流模型描述水刺工艺水腔内喷嘴的喷射流场正确,建立的数值模拟计算求解方法有效,与实验测试值十分吻合;适当增大喷嘴喷口的高度,可使流体在喷嘴喷口轴向方向的速度增大;适当增大射流初始段的长度,可使流体的流量和压力增大,提高水刺非织造纤维网缠结效果;随着射流过渡段长度的增大,混合段(即过渡段和充分发展段)出口压力增大,喷射流体的速度增大,纤维网所受到的冲击力增大;适当减小喷嘴过渡段高度,混合段出口处压力增大,可以实现较大范围内喷射流体速度的增大,改善水刺非织造纤维网缠结效果。

露场叠盘暗化出苗与无纺布覆盖对杂交籼稻成苗特性的影响

为探明露场叠盘暗化出苗(darkened emergence by stacked plates in open space,DE)与无纺布覆盖(seedling mulched with non-woven fabric,NM)协同育秧对机插杂交籼稻成苗特性的影响,该研究于2020—2021年在不同气候条件下以杂交籼稻天优华占为材料,以摆盘出苗(swing-plate emergence,SE)和薄膜覆盖(seedling mulched with film,FM)为对照进行试验,探究DE与NM对出苗微环境与出苗特征以及秧苗素质的影响,并验证其机插适应性。结果表明:1)相对于外界环境,DE提高了出苗微环境的平均温度与平均相对湿度。与SE相比,DE降低了温度与相对湿度变异系数,缩短了种子出苗时间,并大幅提高出苗率与出苗整齐度;较FM,NM改善了秧床微环境,促进秧苗均衡生长;DE+NM有效提高成苗整齐度与成苗率,2 a间成苗整齐度较DE+FM、SE+NM与SE+FM分别增加了7.22~8.91、3.67~5.55和8.29~10.38个百分点(P<0.05),2 a间成苗率分别提高了4.08~8.09、11.79~14.88和20.10~40.02个百分点(除2021年DE+FM外,P<0.05)。2)DE的成苗密度显著优于SE(P<0.05),进而增加了单位面积的总根长、白根数、根表面积,及根系盘结力;与FM相比,NM显著增大了单位面积根体积(P<0.05);DE+NM增加了单位面积的根体积、根表面积、根生物量,同时提高了根系盘结力(除2020年DE+FM外)。3)较其他3种育秧处理,DE+NM显著降低漏插率与伤秧率(P<0.05),提高3~4苗/穴比例,并增加了每穴苗数。综上所述,DE+NM通过改善育秧环境实现了培育壮秧,秧苗机插效果好,所育秧苗呈现出“齐苗、壮根、宜机插”特性。该育秧技术有效解决了四川稻区传统机插育秧存在的秧苗生长不齐、盘根弱、机插效果差等问题,并兼具低成本、耐粗放、高效低碳等特点。研究结果可为本区域机插壮秧培育和水稻丰产增效栽培提供理论与技术支撑。

基于红外技术的纺织品液体动态传递性能研究

为了准确评估纺织品的服用舒适性,分析成像技术、传感技术及动态水分管理仪(MMT)在测试纺织品动态水传递过程中的优缺点,针对性提出一种基于红外技术的新型液体动态传递测量设备和测试方法,详述该设备测试原理及组件信息、实验标定、参数定义、实验方法;运用此设备测试去离子水和大豆油在针织物样品和非织造布样品的传递速率和最大吸液速率,并与MMT测试结果进行对比。指出:新型液体动态传递速率测试仪具有一步测量、无接触等特点,可测量液体在纺织品表面不同方向的传递速率,且测量结果与现行标准测量仪器MMT接近;相较MMT,具有更广泛的液体适用性,可用于纺织品、薄膜、纸张等的水分传递检测。