Table of Content

10 May 2022, Volume 30 Issue 3

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ComprehensiveReview

Research status of electromagnetic shielding fabrics

JI Yu, LIU Yuanjun, ZHAO Xiaoming, HOU Shuo

2022, 30(3):  1-12.  DOI: 10.19398/j.att.202106055

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Electromagnetic shielding can effectively protect against electromagnetic waves due to its interference with the normal operation of electronic and electrical equipment and its detriment to human health. Electromagnetic shielding fabric with excellent electromagnetic shielding properties and fabric properties is considered as an ideal material for electromagnetic shielding. Firstly, the shielding mechanism of electromagnetic shielding fabric is introduced. Secondly, the classification of electromagnetic shielding fabrics is briefly elaborated. Then the progress of preparing electromagnetic shielding fabrics by metal fibers, conductive polymers, graphene, Mxene and other materials, or by electroless plating and magnetron sputtering is analyzed. Finally, some problems existing in different kinds of electromagnetic shielding fabrics are summarized, and the prospect of their development is proposed.

Research progress on forming methods and application of liquid asymmetric transmission nonwoven material

WANG Rongchen, ZHANG Yifeng, DUAN Shuxia, SHI Peilong, JIA Jianghuan, ZHANG Heng

2022, 30(3):  13-22.  DOI: 10.19398/j.att.202106073

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Liquid asymmetric transmission nonwoven materials are fiber products with extensive application and high development value in the current market. To investigate liquid asymmetric transmission nonwoven material forming methods and functional application characteristics, the differential capillary effect, wetting gradient effect and transpiration effect and other mechanisms of liquid asymmetric transmission nonwoven materials were briefly described. The nonwoven forming and finishing processes such as electrospinning, needle punching, hydro-entanglement, chemical finishing and plasma modification were introduced. Moreover, the application forms of liquid asymmetric transmission nonwoven materials in the medical, health care, oil-water separation, moisture absorption and clothing fields were elaborated. Finally, the characteristics of liquid asymmetric transmission nonwoven material forming methods were summarized and the future application tendency was prospected.

Research progress of antibacterial modified synthetic fiber materials based on N-halamine compounds

LIU Chao, HE Bin, WANG Zexing, ZHOU Rong

2022, 30(3):  23-30.  DOI: 10.19398/j.att.202106063

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Most synthetic fibers are inert polymer materialsand are relatively difficult for antibacterial modification due to fewer active groups, setting higher requirements for the selection and modification methods of antibacterial agents. N-halamine compounds with the advantages of their broad-spectrum, long-acting antibacterial, recyclable and good stability are widely used in antibacterial modification of fiber materials. In this paper, based on the classification of N-halamine compounds and the antibacterial modification methods of synthetic fibers, the research progress of different N-halamine compounds in the antibacterial modification of synthetic fibers by surface grafting, surface coating, blending modification and reactive extrusion was summarized, and the future development direction of antibacterial modification of synthetic fibers was prospected.

Research progress of dye transfer in household garment washing

ZHANG Zhenzhen, LIANG Shuaitong, MENG Mingzhu, ZHANG Hongjuan, WANG Jiping

2022, 30(3):  31-38.  DOI: 10.19398/j.att.202106029

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Dye transfer is a common problem in home garment washing. The difficulty of dye transfer is closely related to dye structure, fiber types and other factors. In order to better solve the problem of dye transfer in household clothing washing, extend clothing style and life, and reduce the environmental pollution caused by dye transfer, the dye transfer mechanism, influencing factors and evaluation indexes are summarized. It provides basic information for the development and improvement of dye transfer inhibitors. Through the relevant research on the literature in recent years, the mechanism and inhibition process of dye transfer are introduced, the effects of dye structure, fiber types and washing process on dye transfer are described, the advantages and disadvantages of color evaluation and quantitative evaluation are analyzed, and it is pointed out that the current evaluation index of dye transfer has limitations, and the appropriate evaluation index should be selected according to the research purpose.

Recent advances in the fabrication and application of multi-functional super-hydrophobic textiles

LI Huihui, WANG Qun, Jia Weike, WANG Jiping

2022, 30(3):  39-46.  DOI: 10.19398/j.att.202201026

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Multi-functional textiles with special wettability have attracted more and more attention for their potential application, and the proposal of "lotus effect" has furtherly attracted researchers' interests in the development of the special wettability. This paper firstly summarized methods forconstructing micro-nano structures on fabrics to adjust the special wettability, then made a representation for the superhydrophobic theory and applications in self-cleaning, oil-water separation and corrosion resistance (such as resistance to acid, alkali and salt solution). Finally, we summarized the critical issues existing in constructing superhydrophobic coatings and prospected their applications in the future.

MaterialsEngineering

Performance analysis of polyester prepared by titanium catalyst

HE Jialing, WANG Ying

2022, 30(3):  47-51.  DOI: 10.19398/j.att.202106014

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To address issues of yellowish color and inefficient viscosity increment of slice prepared by traditional titanium catalyst, a new-type titanium-based catalyst was prepared. A polyester slice with good color and low by-product content was successfully prepared based on the titanium-based catalyst. The slice can also be further used to prepare high-viscosity slices for industrial yarns through solid-phase polycondensation. Through polymerization of the self-prepared new titanium catalyst, a polyester slice with a viscosity of about 0.65 dL/g at a lower dosage (2.5×10^-5)was obtained. Its properties were studied using Ubbelohde viscometer, volumetric titration, DSC thermal analysis, etc. The results indicated that the polyester prepared by this means was good in color, with b value of as low as 1.17, much lower than that prepared by the existing titanium catalyst (b value is 5.55). The carboxyl terminal concentration of the polyester was 16 mol/t, and the mass fraction of oligomer was about 2.0%. In addition, after solid-phase polycondensation at 230 ℃ for 8 h, its intrinsic viscosity reached 1.10 dL/g, with high efficiency in viscosity increment. This study can provide a useful reference for the large-scale application of titanium-based catalysts in polyesters.

Preparation and properties of polyester fiber modified bypolydopamine

GUO Qiaosheng, TANG Niannian, ZHAO Qin, KE Ting, YAO Yuyuan

2022, 30(3):  52-59.  DOI: 10.19398/j.att.202201031

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Aiming at the problems of the poor hygroscopicity and difficulty in dyeing of polyester fibers, dopamine (DA) was used as the raw material to prepare the modified and colored polyester fibers and fabrics by self-polymerization and deposition of DA on polyester fiber in the CuSO₄/H₂O₂ system. The modified polyester fibers were characterized by polarized optical microscope (POM) and scanning electron microscope (SEM), and the hydrophilicity and color fastness of the polyester fabrics were tested by contact angle measurement instrument, washing fastness tester and rotation friction tester, etc. The results showed that polydopamine (PDA) was deposited on the surface of the fiber when the polyester fiber was treated with 3 g/L of dopamine, which made the polyester fiber brown-black. Besides, the water contact angle of the dopamine-treated polyester fabric was 58°, which was significantly lower than that of the fabric without dopamine treatment(120°), and the hydrophilicity was significantly improved. At the same time, the tensile strength of the polyester fiber treated with 3 g/L DA was 0.1133 N/tex, which was slightly higher than that of the untreated polyester fiber (0.1040 N/tex). The dry and wet rubbing discoloration fastness as well as washing discoloration fastness of the dopamine-treated polyester fabric reached above 3.5 grade, which indicated that the dopamine-treated polyester fibers had good color fastness. This study provides a new thought and method for the preparation of hydrophilic colored polyester fibers.

Exploration on spinning technology of graphene oxide modified polyester

WANG Xiaohua, WANG Chunbo, WANG Bingkui, Feng Weifang

2022, 30(3):  60-64.  DOI: 10.19398/j.att.202103001

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Graphene oxide modified polyester fiber has a variety of functions beneficial to human health. This paper conducts in-depth study of the spinning technology of graphene oxide modified polyester from five aspects of crystallization and drying, spinning melt preparation, oiling, draw-texturing and tensile mechanical properties of products. The results show that: the crystallization and drying are implemented in accordance with the conventional polyester chip process. The preparation of the spinning melt is free from the influence of gas atmosphere. The temperature range is wide, but the residence time in the screw has a great influence on the viscosity drop. The amount of spinning oil is significantly higher than that of the conventional varieties. During the tensile deformation, there exist some problems, such as endless bottom unwinding and end breakage. The tensile mechanical properties of POY and DTY are relatively low, while the strength and breaking elongation of POY are obviously lower than those of conventional products, which are not conducive to stable post-processing. The research results are expected to provide a reference for the industrial growth of graphene oxide modified polyester.

Fabrication and application of high aspect ratio silver nanowires

YANG Jingjing, QIAN Jianhua, ZHAO Yongfang, PENG Huimin, MEI Min

2022, 30(3):  65-72.  DOI: 10.19398/j.att.20211028

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Silver nanowires (AgNWs) were synthesized using polyol. The reasons affecting the morphology of silver nanowires were analyzed and the appearance, chemical structure and crystallization properties of AgNWs synthesized under the optimal conditions were tested. Then, AgNWs were dispersed into anhydrous ethanol to finish cotton fabric. Finally, AgNWs were finished on the surface of cotton fabric which had been pretreated by plasma by impregnation drying method, and the UV resistance, conductivity and antibacterial properties of the finished cotton fabric were tested. The results show that the longest length of AgNWs is 127.54 μ m, the average length is 76.72 μ m, and the ratio of length to diameter is 1189; the adhesion of AgNWs to cotton fabric is improved by plasma treatment; the sheet resistance of cotton fabric is as low as 5.67 Ω /sq, and when the mass concentration of AgNWs is 10 g/L, the UPF value can reach 65.9. At the same time, the finished cotton fabric can form an obvious antibacterial circle with antibacterial effect. The cotton fabric with multi-functional properties can be used as a functional fabric for further application.

Construction of ZIF-67 coated cobalt-based nanoneedle array on PET fabric for air filtration

WANG Zhiqi, WANG Sheng, PAN Lianjun, WANG Tao

2022, 30(3):  73-80.  DOI: 10.19398/j.att.202106067

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In order to prepare an air filter with excellent filtration performance, taking Co(NO₃)₂·6H₂O as a Co source, using the simple hydrothermal synthesis method, Co(CO₃)_0.5(OH)·0.11H₂O nanoneedle array(cobalt-based nanoneedle array) were grown vertically on the surface of polyester(PET) fibers, and then ZIF-67 crystals with electrostatic adsorption were in-situ grown on the surface of cobalt-based nanoneedle array by vapor deposition. The morphology, structure and chemical composition of the prepared fibrous filter were analyzed by SEM, TEM, FTIR, XRD and other characterization methods. The experiment results showed that when the vapor deposition time was 24 h, the compound fabric’s filtration efficiency was the optimal(PM_2.5: 90.91%, PM₁₀: 92.51%) at an airflow velocity of 0.2 m/s, with the maximum filter quality factor of 0.038 Pa^-1. Further recycling performance test indicated that it maintained a PM_2.5 air filtration efficiency of over 85% after 7 cycles of use.

Synthesis of nickel sulfide-based carbon nanofibers for electrocatalytic hydrogen evolution reaction

WEI Yue, WANG Sheng, JI Lülü

2022, 30(3):  81-88.  DOI: 10.19398/j.att.202106074

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In order to enhance the electrocatalytic hydrogen evolution performance of nickel sulfide materials, a composite material(NiS@CNFs) where NiS nanoparticles are loaded on carbon nanofibers was prepared by combining electrospinning, carbonization and sulfurization processes. The composition and structure of the as-prepared NiS@CNFs was analyzed by various characterization techniques. The study found that the NiS@CNFs exhibited optimal electrocatalytic hydrogen evolution performance when the sulfidation reaction temperature was 700 ℃, and a catalytic current density of 10 mA/cm² could be generated by an overpotential of 220 mV. The study revealed that the synergy between NiS nanoparticles and CNFs can help enhance the electrocatalytic hydrogen evolution performance of the catalyst.

Preparation of PMMA/PU new thermal retention material by electrospinning and its properties

ZHENG Zuobao, JIA Jiao, FENG Yangyang, HOU Yijie, JIA Yongtang

2022, 30(3):  89-96.  DOI: 10.19398/j.att.202106003

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It is necessary to develop materials with efficient thermal retention performance, thereby reducing the damage of low temperature environment to the human body. This study is focused on improving the mechanical properties and thermal retention of the material by using polymethyl methacrylate (PMMA)micro-fibers as the framework support structure and introducing polyurethane (PU)nano-fibers by virtue of electrospinning multi-jet blending technology. The effects of environmental humidity, PU mass fraction, LiCl addition, and PMMA/PU injection ratio on fibrous flocculus were studied, and then a thermal retention material with interlocking double network structure was prepared. The results revealed that: PMMA/PU fibrous flocculus (PMMA/PUFS)exhibited strong tensile stress of 159.02 kPa and excellent tensile elongation of 65.85%. In addition, it also exhibited good ultra-light performance (7.38 mg/cm³)and ultra-high thermal retention property (thermal conductivity of 25.28 mW/(m·K)). The research results are expected to provide a new idea for the preparation of new thermal retention materials.

Preparation and photocatalytic performance of N-doped graphene oxide/TiO₂/PAN composite nanofiber membranes

JIA Ziqi, WANG Chen, ZHAO Tiantian, LIU Yang

2022, 30(3):  97-107.  DOI: 10.19398/j.att.202106033

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To prepare a nano-titanium dioxide (TiO₂) photocatalytic material with high photocatalytic performance, graphene oxide modified with urea was used to obtain nitrogen-doped graphene oxide (NG), and NG modified TiO₂was used to obtain NG-TiO₂. ThenNG-TiO₂was loaded onto polyacrylonitrile (PAN) nanofiber film by adopting electrostatic spinning techniques, obtainingthe porous NG-TiO₂/PAN composite nanofiber membranes with photocatalytic activity. In addition, the scanning electron microscope (SEM), visible-ultraviolet diffuse reflectance spectrum(UV-vis DRS), X-ray diffraction (XRD), Raman spectroscopic analysis, thermogravimetric analysis (TG), specific surface area analysis (BET) and other means were adopted to characterize the composite nanofiber membranes. The effects of different doping ratios of NG-TiO₂ on the adsorption and photocatalytic properties of methylene blue solution were studied. The results show that the optimum adsorption rate of the material on the methylene blue solution at 120 min is 96.8%, and the best photovoltaic rate of methylene blue solution is 94% at 120 min under xenon lamp (without filter).

TextileEngineering

Numerical simulation of airflow field in spinning channel on automatic air-exhauster rotor

QIU Haifei

2022, 30(3):  108-116.  DOI: 10.19398/j.att.202104035

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To conduct an in-dept study on the spinning mechanism of self-exhaust rotor spinner, numerical simulation of the flow field of its spinning channel was performed using fluid dynamics technology. A physical model of the single-phase steady-state flow field was constructed based on RNG k-ε turbulence equation using ICEM CFD and FLUENTsoftware. The pressure-velocity coupling simulation results show that, from inlet to outlet of fiber feeding pipeline, the static pressure decreases gradually, while the dynamic pressure increases and the flow velocity in the pipeline is increasingly distributed. The maximum dynamic pressure of 6953 Pa and air velocity of 99.23 m/s at the outlet respectively. Besides, there exists a local pressure field with obvious gradient in the converging area of incoming flow, and the the maximum turbulent velocity at the area is about 93 m/s. The airflow exhibits a relatively large axial velocity and tangential velocity near the condensation tank, which is conducive to slip and condensation of the fiber bundle. The air flow velocity in the exhaust hole is stable, the maximum exhaust velocity of about 33~41 m/s. The airflow supply from the fiber pipeline plays a predominant role in the formation of flow field inside the spinning channel, and a small amount of airflow supplied by the fiber feeding pipeline is mainly used to balance negative pressure in the rotor, which can help explore the fiber feeding and yarn forming process of the self air-exhaust rotor, as well as the airflow field characteristics.

Technical measures for reducing the defects in polyester colored spun yarn

LIU Jianlin

2022, 30(3):  117-121.  DOI: 10.19398/j.att.202107023

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In order to control the defects in the colored spun yarn, ensure the effect of fabric cover, and stabilize the fabric style, the production process of color spinning is optimized and improved. For example, a new cylinder clothing is selected for cotton carding while adopting flexible carding to reduce fiber damage. Drawing process is used to reduce the number of sliver doubling, reduce the total drafting multiple and drafting irregularity, stabilize the level of sliver and improve the fiber extended parallelization. In the spinning process, it is necessary to properly enlarge the roller spacing, increase the nip spacing block and reduce fine yarn defects. By adopting a series of process optimization measures, the defects of colored spun yarn are greatly reduced, the self-winding production efficiency is enhanced, the cloth quality is improved, and obvious results are obtained. The adoption of new carding equipment and process optimization measures has broken through the concept of "light weight and tight spacing" in traditional process, greatly reduced the defects in color spun yarn, and provided practical experience and innovative ideas for quality management and process research in color spun enterprises.

Effects of different cocoon harvesting conditions on bave properties

XU Xinyu, YANG Juanya, ZHANG Wenjing, YAN Jiamin, JIANG Wenbin

2022, 30(3):  122-128.  DOI: 10.19398/j.att.202108002

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To investigate the influence of silkworm farmers' common practice of early cocoon harvesting and selling on the performance of cocoon silk, two sample cocoons with different lots, cocoon seasons and silkworm varieties were selected as raw materials to observe the changes of pupae in the process of silkworm pupation, measure the reelability of cocoon, raw silk cleanness and neatness performance, cohesion performance, mechanical properties and other related indicators. The results showed that early cocoon harvesting would affect silkworm pupation rate and survival rate, and the earlier cocoon harvesting, the higher the immature cocoon rate. It would have a great influence on the reelability of cocoon, and in particular, the centralized cocoon harvesting method will lead to difficulty in silk gumming and silk sliver dissociation. But early cocoon harvesting would not affect the microstructure and secondary structure of cocoon silk, with slight effect on the cleanness and neatness performance, cohesion performance and mechanical properties of raw silk. It is found that early cocoon harvesting will influence the performance of cocoon and cocoon silk. In order to ensure the quality of raw silk and silk products, cocoon should be harvested during an appropriate period.

Construction of efficient and integrated intelligent supervision system for import and export logistics regarding raw silk

PAN Lulu, CHEN Zhifeng, DONG Suozhuai, JIA Xinyu, CHEN Qikai, NING Fanghua

2022, 30(3):  129-135.  DOI: 10.19398/j.att.202112016

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In view of the problems of complex supervision process, high cost and backward technology of raw silk inspection, an efficient intelligent raw silk logistics solution is designed and an integrated customs clearance mode composed of enterprise intelligent warehouse management system, intelligent transportation supervision system and customs clearance video monitoring system is built based on image recognition, sensor, RFID, GPS, X-ray and other technologies.Combined with the use of the new type of seal, this system can realize intelligent detection and rapid customs clearance of raw silk, thereby reducing various risks, improving efficiency, and realizing the innovation of raw silk product transportation and sales mode.

Preparation of TiO₂ nanorod composite fabric and its photocatalytic and antibacterial properties

JIA Xueying, WANG Tao

2022, 30(3):  136-142.  DOI: 10.19398/j.att.202105005

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To prepare a functional fabric with photocatalytic and antibacterial properties, a flexible organic fabric coated by TiO₂ nanorod was prepared using TiCl₃ as Ti source through low-temperature hydrothermal method by growing TiO₂ nanorod vertically on the surface of polyester fabric. The structure and morphology of the composite fabric were characterized and analyzed using SEM, TEM, FTIR, XRD and XPS. Then, the photocatalytic properties of the composite fabric under ultraviolet light and the antibacterial properties under visible light were tested. The results show that the composite fabric is able to effectively degrade organic pollutants under ultraviolet light irradiation. Compared with commercial P25 nanoparticle-coated fabric, it has better photocatalytic properties. After visible light irradiation for 2 h, its antibacterial activity against Escherichia coli and Staphylococcus aureus exceeded 99%, indicating that the functional fabric prepared in this study has broad application prospects in photocatalytic degradation of organic pollutants and antibacterial performance.

Development and properties of coffee carbon modified plyester/wool/organic carbon black fiber composite functional fabric

LUO Fangling, ZHANG Xiong, ZHOU Meihua, CHENG Jufang, ZHOU Xuehua

2022, 30(3):  143-149.  DOI: 10.19398/j.att.202104041

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To develop multi-functional high-end worsted fabric integrating heat storage, antistatic, odor absorption and other functions, multi-component fiber blending method was adopted by combining with changes of different fabric structures. Selecting the coffee carbon modified polyester fiber, high quality wool fiber and organic carbon black fiber as the blending materials, five kinds of fabric with different contents of coffee carbon modified polyester fiber and four kinds of fabric with different structures were designed. The compound functions of the fabric were tested and analyzed. In addition, the regression equation for the fabric thermal insulation rate, temperature increment, adsorptivity of formaldehyde and the content of coffee carbon modified polyester fiber was established respectively using origin software. The development idea and the final product of multi-component fiber compound functional wool worsted fabric were obtained, providing a technical reference for the R&D of new-type compound functional products.

The focuses on principle of folding three-dimensional boxed structure fabric developing

ZHU Hong, MA Qin, SUN Hong

2022, 30(3):  150-159.  DOI: 10.19398/j.att.202107006

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Referring to the principle of folding and forming method of three-dimensional hollow cube, a three-dimensional hollow cube-shaped fabric structural part is designed by layer and region. The one-time molding weaving of the three-dimensional hollow cube-shaped fabric structural preform is realized on the ordinary jacquard loom. The results show that: based on orthogonal structure and angle interlocking woven structure, it is feasible to complete the overall structure design of the hollow cube by reasonably designing the fabric structure of different layers and different regions, and the weft connection path between layers, thereby meeting the one-time molding and weaving process requirements of special structure fabric, providing design methods and weaving technical support for the one-time molding structure of special box-shaped fabric preforms.

DyeingandFinishing& ChemicalEngineering

Bio-chemical combined treatment process for palm fiber

ZHANG Yi, GAO Jinxia

2022, 30(3):  160-165.  DOI: 10.19398/j.att.202104017

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In order to improve the softness and refinement of palm fiber, ammonium oxalate and complex enzyme combined treatment process was studied. This paper discussed the single factor impact of ammonium oxalate mass concentration, temperature, and time. Then, L₁₆(4⁵)orthogonal test was performed on laccase mass concentration, acidic xylan mass concentration, time, temperature, and pH value, and the performance was compared. The results indicated that the optimal process could be obtained under the following condition: mass concentration of ammonium oxalate was 5.5 g/L, the treatment temperature was 100 ℃, the treatment time was 70 m, the mass concentration of laccase was 3.0 g/L, the acid xylanase was 5.5 g/L, the treatment time was 70 m, the treatment temperature was 50 ℃, pH 5.0; the breaking strength of palm fiber reached 7.7 cN/dtex, the linear density was 0.6 tex, and the softness was 296 twist/20 cm. Compared with unprocessed palm fiber, the breaking strength was reduced by 45.8%, the linear density was reduced by 57.7%, and the softness was increased by 48.7%. The process improved the properties of palm fiber, and provided a reference for subsequent product development.

Kinetics study and system design of adsorption on porous carbon prepared from waste cellulose fiber

SUN Baofen, PU Zepeng, CHEN Guoqiang, LI Xiaochen

2022, 30(3):  166-173.  DOI: 10.19398/j.att.202106057

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In order to explore the adsorption performance of the porous carbon material prepared from waste cellulose fiber on removing organic dyes from water and to design a reasonable system, different adsorption systems, in which the porous carbon prepared using waste regenerated cellulose fiber was used as the adsorbent and methyl orange dye was used as the adsorbate, were established. Adsorption equilibrium and kinetic data were obtained. The adsorption equilibrium of the material was evaluated using Langmuir and Freundlich isotherm formula. The experimental kinetic data were simulated using pseudo-first order and pseudo-second order kinetic models. Based on the results of equilibrium and kinetic simulations, the adsorbent dosage and the optimal adsorption time were evaluated by the batch adsorption method. Experimental results show that the Freundlich adsorption isotherm formula is more suitable to evaluate the adsorption equilibrium of the porous carbon for methyl orange, indicating that the adsorbent surface is heterogeneous and a multi-layer adsorption occurs on the adsorption surface. The pseudo-order kinetic model can describe all the adsorption process of the carbon for methyl orange, and the two-stages batch adsorber model can achieve high removal efficiency of methyl orange in a shorter time.

Dyeing behavior and anti-ultraviolet property of silk fabric dyed with black rice anthocyanin

JIA Yanmei, HAO Xu, ZAO Long

2022, 30(3):  174-178.  DOI: 10.19398/j.att.202105035

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In order to make effective use of natural dye resources, anthocyanins were extracted from the raw material of black rice, and the effects of pH value on anthocyanin absorption spectra were analyzed. Then mulberry silk was dyed with the anthocyanins to investigate the impact of dye bath pH value and post-mordanting on the dyeing performance and anti-ultraviolet properties of the dyed silk samples. The results indicated that the black rice anthocyanin exhibits good color display behavior and excellent silk dyeing performance at lower pH value. The anti-ultraviolet properties of dyed silk samples increased with the decrease of pH value. Mordant is proved to have a significant effect on the color hue and anti-ultraviolet property of the dyed silk fabrics.

Study on the production technology of cold pad-batch for cotton satin jacquard fabric

XU Huajun, CHEN Wanming, WANG Li, ZHANG Yonggao, SHI Yuanqing, ZHANG Jinfang

2022, 30(3):  179-185.  DOI: 10.19398/j.att.202107042

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In order to solve the problems of high energy consumption and large water consumption during cotton satin jacquard fabric production, the cold pad-batch process was adopted for its pretreatment and dyeing, and the process conditions were optimized. The result indicates that the fabric whiteness under the pretreatment of cold pad-batch process reaches 86%, with a capillary effect of 12.3 cm/30 min. The dyeing effect of fabric treated by cold pad-batch process is basically the same as that of high-temperature dyeing. According to production statistics, compared with traditional high-temperature process, the energy consumption for 10,000 meters of dyed cotton satin jacquard fabrics through the cold pad-batch process is reduced by 30% and water consumption is reduced by 35%, and the effect of energy saving and emission reduction is significant.

Quantitative assessment and cause analysis of white scratches on polyester fabrics after stiff finishing

WU Die, MI Yifang, CHENG Xiaoxia, YANG Xiaobo, LAN Shuxian, CAO Zhihai

2022, 30(3):  186-195.  DOI: 10.19398/j.att.202104057

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To address issues of white scratches on polyester fabrics after stiff finishing fabrics, two polyester fabrics with different deniers and weaving tightness were selected as the object of study to establish a white mark quantitative assessment method by using rubbing fastness tester and color measuring spectrometer. The two polyester fabrics and the surface damage after stiff finishing were studied by simulating scratches in different directions. The results indicate that the color light test results can be used for a quantitative characterization of the degree of white scratches. The white scratches could be seen obviously when the ΔL value (the difference in surface brightness)before and after scratching was greater than 3, which may be caused by optical behavior changes arising from the deformation, breakage and falling of the fiber and the film. The research has found that different damages to the warp and weft fibers and yarns in the direction of the scratching would cause different white scratches. In summary, the white scratches caused by scratching along the direction of cloth yarn density with large elasticity were severer relatively. In addition, the formation of white scratches is of selectivity to different kinds of fabrics. White scratches are more likely to be left on fabrics with smaller fineness and larger tightness after scratching.

ApparelEngineering

Influence of sewing process parameters on properties of anti-static fabric

LI Xiaoyue, DING Xiaojun, WANG Lijun

2022, 30(3):  196-202.  DOI: 10.19398/j.att.202106058

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In order to investigate the effect of sewing process parameters on the static voltage half-life of anti-static fabric, with the embedded conductive fiber fabric as the research object, five factors for sewing process, including sewing needle number, sewing thread type, sewing type, sewing thread fineness and stitch density were selected. Three levels were set for each factor respectively, and an orthogonal experimental scheme was designed to test and analyze the anti-static properties of fabrics under different sewing conditions. The results show that except for the stitch density, other sewing process parameters have a significant impact on the anti-static properties of fabrics, and the effect degree from high to low is: sewing needle number, sewing thread type, sewing type and sewing thread fineness. When using the sewing process parameters of 14 sewing needles, 15 tex(7.5 tex×2) anti-static sewing thread and French seam, the anti-static properties of fabrics are better maintained. The quantitative relationship between fabric static voltage half-life and sewing needle number was obtained, and the accuracy of the regression equation was verified. The research results are of guiding significance for the design of sewing process parameters for garment enterprises' anti-static clothing production.

Development and application of fully fashioned sweaters knitted on double-needle bed with full needle effect

LIU Yanan, LU Huashan

2022, 30(3):  203-209.  DOI: 10.19398/j.att.202112002

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It is difficult for the traditional double-needle bed computerized flat knitting machine to achieve full needle effect when adopting alternate needle weaving to weave fully fashioned sweaters due to the long sinker loop of the coils and loose effect caused by retraction difficulty. The invisible four-needle bed computerized flat knitting machine is of double-needle bed structure. Two knitting needles are installed in each needle slot at the same time, that is, there are two knitting needles in the same needle position of the front and rear needle beds, which can turn over each other, but the total number of needles is twice that of the normal model. When the alternate needle weaving is used for fully fashioned knitting, the full needle knitting effect can be realized. In this paper, the local back drawing jacquard fabric is developed with the invisible four needle bed computerized flat knitting machine. The results show that the fabric is compact and the appearance effect is very close to the full needle effect, which realizes the full needle effect of double-needle bed knitting of fully fashioned sweaters.

Establishment and application of online shopping garment size recommendation system: take women's t-shirts for example

NIU Mengmeng, WU Changjiao, LU Yehu, WANG Mingxing

2022, 30(3):  210-215.  DOI: 10.19398/j.att.202104026

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In view that consumers cannot try on clothing purchased online, resulting in poor fitness and high refund of clothing, with women's T-shirts as an example, through literature collection, expert interviews and empirical research, the clothing fitness ease threshold of the key parts of clothing and the judging criteria for different silhouettes were determined, and a complete size recommendation system was established on this basis, which stores information such as clothing specifications and dimensions, user' personal information in the system database. The system front end was designed using bootstrap framework and the back end was developed using C# language. Adopting quadratic function as the core algorithm, the system is feasible to realize intelligent recommendation of clothing size by calculating and comparing the function values of different sizes. Through experimental verification, it is proved that the accuracy rate of this recommendation system can exceed 88%. It is conductive to eliminating consumers' shopping doubts to some extent, lowering logistics costs, and promoting the development of apparel e-commerce.

Study on factors influencing clothing purchase behaviors on mobile terminal: multi-perspective consumer perception

FANG Yuan, YANG Kaiwen, LI Pei

2022, 30(3):  216-223.  DOI: 10.19398/j.att.202106023

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This paper conducts a survey on the consumers who use mobile terminals to purchase clothing, explored the factors influencing clothing purchase behaviors, established a theoretical model, proposed research hypotheses, and analyzed the impact of consumer perception on clothing purchase behaviors from multiple perspectives. Through a questionnaire survey, descriptive statistical analysis, reliability and validity test, regression analysis and mediation effect test on the collected data were performed using SPSS 23.0. As shown by the results, perceived usefulness, perceived ease of use, perceived risk, perceived quality of evaluation by others, and perceived service quality have a positive impact on purchase behaviors. Purchase intention plays a partially mediation role between perceived risk, perceived service quality, and purchase behaviors, while it has a complete mediation effect on perceived usefulness, perceived ease of use, perceived quality of evaluation by others, and purchase behaviors.

Impact of fashion brand image innovation on consumers' purchasing intention: mediation effect based on brand prototype

JIN Yali, CHEN Lihong, CAI Jianzhong

2022, 30(3):  224-232.  DOI: 10.19398/j.att.202106072

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For an in-depth investigation of the mechanism of the impact of fashion brand image innovation on consumers' purchase intention, a relationship model is established based on the categorized processing theory, with brand prototype and brand emotion as intermediary variables, and empirically analyzed using questionnaire survey method. The results show that: the brand prototype dominates the main process from fashion brand image innovation to the formation of consumers' purchasing intention. Among them, the accumulated overall-level knowledge(brand prototype) has a direct impact on consumers' purchasing intention, and the accumulated attribute-level knowledge(brand emotion) has an indirect influence on consumers' purchasing intention. Finally, according to the research results, targeted suggestions are proposed for fashion brands to carry out image innovation activities.