GRAFTING ONTO WOOL V.RADIATION-INITIATED GRAFTING OF ACRYLIC ACID ONTO WOOL FIBER

This paper deals with graft copolymerization of acrylic acid (AA) onto Xinjiang fine wool.fiber in aqueous medium initiated by gamma rays. Graft copolymerization was carried out by themutual irradiation method in limited air. Percent grafting and percent efficiency have been deter-mined as a function of total dose, dose rate, concentration of monomer, wool weight and reactiontemperature. Graft copolymers are characterized with infrared (IR) spectroscopy, scanning elec-tron microscopy (SEM), and X--ray diffractometer. Properties of the grafts were studied, and compared with the virgin fiber.

Theoretical Optimization of the Production of Heating Layers Using Local Wool Fibers

Science is the basis of the country’s development and wealth. In particular, it is necessary to effectively use advanced scientific developments and technical achievements in order to strengthen the economy in the period when the desire for innovation in all fields is still growing. In theoretical-experimental Scientific Research work, both theoretical and experimental results are achieved, and it is more useful to withstand more theoretical-experimental loads for a longer period of time. The occurrences in the production process of natural wool fiber technologists are a complex of physical and mechanical phenomena, which can be used only by the modern achievements of science and technology. In most cases, the parameter relationship with the factors influencing the technological process or the object can open a curve without any other things.

Preparation of high acidity coefficient slag wool fiber with blast furnace slag and modifying agents

Preparation of high acidity coefficient slag wool fiber with molten slag and modifying agents is considered to be a positive approach for value-added utilization of blast furnace slag. In order to achieve the multi-purposes of fiber-forming, energy saving, and waste heat recovery, the modifying agents that can improve the acidity coefficient of slag effectively, economically, and environmentally were investigated. Three agents with different acidity coefficients were adopted to modify slag and manufacture wool fibers. The effect of agent and slag proportion on the melting temperature and viscosity of molten slag was studied at a fixed acidity coefficient of 1.8 and 2.0. The results indicate that the sample modified with high acidity coefficient agent and high slag proportion has lower melting temperature and viscosity. The effect of agent and slag temperature on the fiber diameter was also investigated when the acidity coefficient of slag is 2.0. At a fixed slag proportion of 50 wt.%, the mean diameter decreases with increasing temperature and decreasing viscosity coefficient. Besides, the temperature drops caused by the addition of agents and energy consumption of samples for heating the slag were also analyzed.

Comparison of Structures and Properties between Wool and Ramie Fibers Treated by Atmospheric Pressure Ar and Ar/O_2 Plasma

The technique of atmospheric pressure plasma is of value in textile industry.In this paper,argon(Ar)and argon/oxygen(Ar/O2)atmospheric pressure plasma were used to treat wool and ramie fibers.The structures and properties of treated fibers were investigated by means of SEM,XPS,single fiber tensile tester and so on.The results proved that the effects of plasma treatments depended on structural characteristics of fibers to a great extent,besides conditions of plasma treatment.By atmospheric pressure plasma treatment,wool fiber had significant changes in morphology structure,surface chemical component,mechanic properties and dyeability,while ramie fiber just showed a little change.In additional,Ar/O2 plasma showed more effective action than argon.And at the beginning of treatment,plasma brought about remarkable effects,which did not increase with prolonging of treat time.

羊毛纤维低温美拉德环保染色工艺研究

为了探索羊毛纤维绿色染色方法,利用羊毛角蛋白与二羟基丙酮(DHA)发生美拉德反应实现羊毛低温环保染色,研究反应时间、DHA质量浓度、溶液pH值以及反应温度4个变量对羊毛纤维上染的影响,分析羊毛纤维的染色性能与抗紫外线性能及力学性能与表面形态的变化。结果表明:染色后的羊毛纤维表现出不同深浅的棕褐色系着色效果,抗紫外线性能明显提升;各变量均对羊毛纤维的K/S值产生影响,其中反应温度和时间对羊毛纤维K/S值的影响起主导作用,但在2.5 h后羊毛纤维的显色变化不明显;最优工艺条件为DHA质量浓度54g/L、pH值7、反应温度95℃、反应时间3.5 h,该条件下羊毛纤维呈现深褐色效果,其K/S值为10.14,紫外线防护系数(UPF)值较原样增加约11倍,同时羊毛纤维具有良好的力学性能,羊毛纤维表面鳞片层的形态无明显变化。

绢丝/毛/棉色纺纱的组成调控与性能分析

绢丝质地柔软光滑、手感舒适,在服装与家居纺织品等领域中得到了广泛应用,是中国绢纺产业的重要产品之一;然而,目前绢丝织物生产仍存在高能耗、高排污问题,且产品竞争力不足。为此,采用低污染的色纺技术对绢丝进行精确配色,并引入羊绒、羊毛、棉等纤维组分,制备色泽独特且性能优异的色纺纱,以满足市场多样化的需求。通过调控纱线中纤维组成与配比,探究其对混纺色纱条干、机械性能及色牢度的影响规律。通过引入不同颜色与配比的各类纤维后,纤维间的优势互补提升了绢丝系列产品的机械性能、色牢度,完善了绢丝产品性能的不足,实现了绢丝系列产品的多样化,减少了绢纺业的生产能耗与排污。

两种天然纤维材料改性生土试件抗压强度试验比较研究

在内蒙古中部地区的生土中引入莜麦秸秆和羊毛纤维进行改性生土试件抗压强度提升的试验,试验中使用当地易于获取的天然土壤、莜麦秸秆和羊毛,经人工压实制坯,再进行抗压强度试验。试验数据表明,添加莜麦秸秆可将改性生土试件强度提高40.5%,添加羊毛纤维可将强度提高89.25%,此外,试验也揭示了改性生土试件抗压强度顺应两种纤维材料的变化规律,并确定了最佳纤维含量。

废弃羊毛非织造材料开纤工艺研究

为实现资源再利用,将废弃羊毛水刺制成的非织造材料预处理后,通过微米级和亚微米级两级开纤处理,制备废弃羊毛基功能非织造材料。探究处理体系固液比、开纤温度、还原时间及pH值对羊毛非织造材料原纤结构单元剥离程度和稳定性的影响。结果表明:羊毛结构单元的开纤量随开纤温度、还原时间和pH值的升高而增加,随固液比的提高而降低,羊毛非织造材料的结构稳定性随开纤量的提高而降低。经试验得出最佳微米级开纤工艺参数为固液比1.5∶50、温度50℃,最佳亚微米级开纤工艺参数为温度75℃、还原时间2.5 h、pH值10。

六月龄滩羊不同部位羊毛性状的比较

通过测定6月龄滩羊的羊毛直径、断裂强力、卷曲数及羊毛长度等性状信息,探索6月龄滩羊不同部位(肩部、腹部、后腿、臀部)羊毛性状的差异及相关性。结果表明,6月龄滩羊各部位羊毛的伸直长度、自然长度、断裂强力、羊毛直径、卷曲数均无显著差异;各部位羊毛长度均匀度较好,羊毛的伸直长度与自然长度变化趋势基本趋于一致,说明二者有一定的相关性;两型毛、无髓毛直径的变异系数为6.21%~8.02%,表明羊毛直径较稳定;两型毛的断裂强力明显大于无髓毛,说明羊毛直径与断裂强力存在较强的相关性;腹部、后腿、肩部、臀部的无髓毛卷曲数均大于两型毛,说明羊毛直径小对卷曲有利;由6月龄滩羊腹部羊毛各性状的相关性分析可知,无髓毛性状间的相关系数大多较两型毛大,可能原因是两型毛较长,易受营养和外界因素影响。

保护剂在羊毛高温加工中的应用

印染加工工序中羊毛最容易受到损伤,通常处理温度越高,作用时间越长,水解就越剧烈,损伤程度也就越严重,直接影响到羊毛纤维的服用性能。为减少羊毛混纺面料的染色损伤,尤其是涤纶/羊毛混纺织物染色过程中羊毛的损伤,开发了用于高温加工工艺条件下的羊毛保护剂。采用自制的羊毛保护剂应用于纯羊毛高温加工过程中,测试经高温加工的羊毛的白度、碱溶度、表面形态结构以及拉伸性能。结果表明,加入自制羊毛保护剂WBH处理后羊毛的白度、碱溶度、表面结构以及拉伸性能都明显好于未加保护剂处理的羊毛;与市售保护剂WSM对羊毛的保护性能相当,甚至略好,自制羊毛保护剂WBH在羊毛高温加工过程中对羊毛具有良好的保护性能。

棉/丝光羊毛集聚纺混纺纱工艺参数的优化

为了进一步提高棉/丝光羊毛混纺纱的可纺性,开发高端贴身面料。本文采用集聚纺纺制22 tex棉/丝光羊毛(80/20)混纺纱,并探讨混纺纱细纱工序的纺纱工艺配置。通过正交试验设计对细纱工序中影响纱线性能的后区牵伸倍数、隔距块规格和锭速3个关键工艺参数进行组合,对不同组合纺制纱线的强力、毛羽和条干等主要指标进行测试,并通过极差法分析各因素对纱线质量的影响程度,选出最优工艺组合。试验结果表明:当后区牵伸倍数为1.16倍、隔距块规格为3.0 mm、锭子转速为11000 r/min时,纱线的综合性能指标更好。棉/丝光羊毛集聚纺混纺纱关键工艺的研究可为棉毛混纺纱的纺制提供参考。

羊毛、涤纶纤维同浴染色原位矿化工艺

针对毛/涤混纺织物染色流程长、用水量大的问题,采用Lanasol染料和分散染料对羊毛和涤纶纤维进行原位矿化工艺同浴染色,分析了矿化工艺参数对染色效果的影响,并与传统染色进行比较。优化的工艺为环保载体2.0%(omf),矿化助剂XBD 1.00%(omf)、XYS 5.0%(omf),85℃矿化处理20 min。结果表明,原位矿化染色产品的颜色、色牢度与传统工艺基本一致,且具有显著的节水减排和提高生产效率的作用。

Bi_(2)Te_(3)/KOH/PEDOT:PSS和SiO_(2)气凝胶增强钢丝绒热电性能研究

在热电材料研究领域,一般认为金属的Seebeck系数较低,因此有关金属的热电性能的研究并不多见。但研究发现金属的物理形态对其热电性能具有影响。考察了金属纤维钢丝绒(SW)的热电性能。发现SW(主要成分为Fe)的Seebeck系数是块体铁的2倍。在此基础上,将SW与有机和无机热电材料进行复合,并在其空隙中填充SiO_(2)气凝胶,最终制备出了Bi_(2)Te_(3)/KOH/PEDOT:PSS@SW-SiO_(2)气凝胶复合材料,使其热电性能得到了进一步提升。结果表明,气凝胶的加入可使SW的导热系数降低34%。电导率(σ)、热导率(κ)和Seebeck系数(S)得到解耦。Bi_(2)Te_(3)/KOH/PEDOT:PSS@SW-SiO_(2)气凝胶的Seebeck系数、热电优值(ZT)和功率因子(PF)分别是纯SW的1.2、3.4、2.4倍。通过改变材料物理形态和添加气凝胶来提高材料热电性能的方式有望为其他热电材料的研究提供新的思路和有益参考。

调湿控温纤维对西服穿着系统干燥速率的影响

商务西服是羊毛精纺面料的重要应用领域之一,但由于其使用场合的要求,往往无法兼顾穿着的舒适性,针对目前对汽态汗在西服面料以及西服衬衫配套系统中传输速度研究较少的现状,以AATCC 201—2014《织物干燥速率加热板法》中的测试方法为基础,通过实验设计模拟人体在少量运动和静坐状态下汽态汗在不同服装系统中的蒸发情况,并分别进行了单层面料、西服+里料系统、西服+衬衫系统的对比测试。实验结果表明:调湿控温纤维的加入可以提高汽态汗的蒸发速率,越贴近皮肤层采用调湿控温纤维效果越显著,从里层到外层都采用调湿控温纤维,可以让整个汽态汗传输保持连续,效果也更加显著;在单层面料测试对比中,加入调湿控温纤维的面料比普通毛/涤面料的干燥速率提升13%;与普通毛/涤西服面料+常规里布相比,里布和面料都采用调湿控温纤维的西服系统的干燥速率提升46.9%,与普通毛/涤西服面料+普通衬衫面料相比,衬衫面料和毛/涤面料都采用调湿控温纤维西服系统的干燥速率提升51.2%左右。

Biodegradable Behavior of Waste Wool and Their Recycled Polyester Preforms in Aqueous and Soil Conditions

Present study deals with the biodegradable behavior of individual components and their preforms of nonwoven biocomposites developed from waste wool fibers including coring wool(CW),dorper wool(DW)and recycled polyester fibers(RPET).A respirometric technique was employed to estimate the production of CO_(2) during the biodegradation experiments under soil and aqueous media conditions.Functional groups of test samples before and after biodegradation were analyzed using Fourier transform infrared spectroscopy(FTIR).Leaching chemicals such as formaldehyde(hydrolyzed)and Chromium VI(Cr VI)was also measured.The CO_(2) emission in wool fibers CW and DW indicated 90%and 60%biodegradation in soil burial and aqueous media conditions respectively,for 100 days incubation.RPET fibers,20%and 10%biodegradation in soil burial and aqueous media conditions was measured respectively while the preforms of waste wool and RPET reflected 30%and 25%biodegradation in soil burial and aqueous media conditions,respectively.The degradation of end functional groups such as carbonyl(keto and ester),aldehyde and hydroxyl were also confirmed by FTIR.The DW and CW wool fibers showed higher Cr(VI)concentration as compared to the RPET.The released formaldehyde results showed higher concentration for RPET preforms as compared to waste wool preforms.These results suggest that waste wool preforms are extremely environment friendly as compared to RPET preforms.Thus,waste wool preforms it can be potentially utilized for preparing biocomposite materials and associated biobased products.

动物毛纤维的剥麟工艺及鉴别

动物毛纤维通过剥麟方法,可以改善织物的手感、光泽、染色性能以及防起球性能等,经过剥麟后的毛纤维在纤维鉴别上变得难上加难。通过选用高锰酸钾-二氧化硫脲氧化还原法对7种常见毛纤维的标准标样进行剥麟处理,得到一组标准标样剥麟后纵截面形态的标准样照。用显微镜观察未知剥麟毛纤维的纵截面形态,通过对照标准样照的纵截面形态来鉴别未知剥麟毛纤维的种类。研究表明,高锰酸钾浓度为0.375%,温度为60℃,振荡时间为40min条件下剥麟效果最好,纵截面形态最佳。

基于拉曼光谱的羊毛二硫键及构象含量分析

拉曼光谱可提供快速、简单、可重复且无损伤的定性分析。采用激光共聚焦显微拉曼光谱仪对羊毛的二硫键以及构象进行了无损分析。研究激光波长、激光强度、扫描时间、物镜大小、形态结构对羊毛微观结构测量结果的影响,优化了激光拉曼光谱对羊毛的测试条件;分别采用超声波、还原以及氧化等不同方法处理纤维,并对比分析羊毛二硫键以及构象变化。结果表明,羊毛较优的拉曼测量条件为激发波长785 nm、扫描时间20 s、激光强度50 mW和50倍物镜观察。通过对比不同方法处理后纤维的拉曼光谱图可发现:超声波处理羊毛后β折叠构象含量降低;二硫苏糖醇处理羊毛后在2569 cm^(-1)处出现了巯基的吸收峰,羊毛二硫键相对含量降低至28.9%,二硫键由分子内的GGG构型转变为分子间的GGT和TGT构型,蛋白质大分子由α螺旋构象转化为β折叠构象;过氧化氢处理羊毛后在1044 cm^(-1)处产生新的S—O吸收峰,β折叠构象含量降低。

吸湿凉爽羊毛混纺面料的开发

为了改善羊毛精纺面料在夏季使用时的凉爽感,拓宽其在短袖衬衫、夏季单裤以及执勤服等领域的应用,通过筛选具有红外反射能力的染料,并结合接触凉感纤维以及吸湿排汗整理等方式,设计开发了具有良好的户外降温效果和优异穿着舒适性的羊毛精纺面料。相比于常规的同品质面料,该面料在模拟太阳光照射条件下,可以降温2~4℃,并具有优异的接触凉感(Q-max值达到0.28 J/(cm^(2)·s))和吸湿排汗效果(芯吸高度达到12.5 cm以上)。

Status and development of mineral wool made from molten blast furnace slag

This study describes the characteristics of mineral wool and its applications,and also introduces the traditional process of mineral wool made from molten blast furnace （BF） slag. Compared with high energy consumption of the traditional process,the production of mineral wool by using molten BF slag will be able to take full advantage of the sensible heat of molten slag, and also reduce production costs. However, there are also further issues to resolve such as how to obtain the required amount of molten BF slag and how to make it homogeneous. Based on the physical and chemical properties of the molten BF slag,the investigation into the relationship between temperature and viscosity under different acidity coefficients of the slag and silicon mixture was conducted. Combined with the crystallization and phase diagram of slag wool, its heat resistance, water resistance, durability and corrosion resistance were analyzed. Finally, trends of the technology development are proposed.

APPLICATION OF PLASMA ETCHING TECHNIQUE TO MODIFICATION OF WOOL

Plasma etching technique used in the modification of fibres,yarns and fabrics of wool is re-ported.The experimental results show that the method is useful for improving wettability and re-ducing shrinkage of wool,it may be used to increase the strength of tops and yarns,and to enhancethe hand and colour of the final products.In addition,the characteristic features of the plasmamodified wool and discussions of possible mechanisms of the action are presented.