共查询到20条相似文献,搜索用时 31 毫秒
1.
R. Bagherzadeh M. Montazer M. Latifi M. Sheikhzadeh M. Sattari 《Fibers and Polymers》2007,8(4):386-392
In order to impart barrier properties against water and microorganisms on breathable three dimensional spacer fabrics as medical
or technical textiles, fabric samples were treated with two water repellent agents and a quaternary ammonium salt namely cetyltrimethylammonium
bromide (CTAB), using pad-dry-cure method. Two different water repellent agents based on hydrocarbon and acrylic copolymer
were used. The water repellent property of samples was tested by Bundesmann and contact angle tests. Antimicrobial activity
of samples was analyzed quantitatively according to AATCC 100. Simultaneous finishing of samples was done with 3 % CTAB and
4 % fluoroalkyl acrylic copolymer. To study the effect of various treatments on comfort related properties, air and water
vapor permeability, water repellency and compression were measured. The results showed that the antimicrobial and water repellent
spacer fabrics can be achieved applying selected material without significant changes on their comfort properties. Also a
regression model was presented to predict the water vapour permeability of knitted spacer fabrics based on course density
(CPC) changing. 相似文献
2.
In this study, in order to produce different water-oil repellent and wrinkle resistant fabrics, 21 different kinds of blended
woven fabrics were treated (padded and transfered) with both classic and nano chemicals according to 4 different levels of
concentrations. Afterwards, water, oil repellency and wrinkle angle recovery properties of the fabrics were measured. The
purpose of this study is to predict these aforementioned functional properties of the fabrics before manufacturing based on
the fabric blend, treatment method, used chemicals and chemical concentrations with the help of multi layer perceptron, one
of the most popular network architecture. As a result of the study, it can be concluded that multi layer perceptron method
can also be used for the classification problems successfully. 相似文献
3.
Mohammad Khajeh Mehrizi Sayed Majid Mortazavi Shadpour Mallakpour Seyed Mansour Bidoki Michel Vik Martina Vikova 《Fibers and Polymers》2013,14(10):1620-1626
In this study, cotton/nylon blended fabrics were treated with atmospheric air plasma at various times (30–60 s) and were subsequently printed with pastes containing carbon black nanoparticles. Properties of plasma treated fabrics such as visible-near infrared (Vis-NIR) reflectance, water contact angle, air permeability, and color fastness were measured. It was shown that increasing plasma treatment time decreases reflection level of treated fabrics in Vis-NIR region. Plasma treatment also enhanced the hydrophobicity of cotton/nylon fabrics observed by an increase in water contact angle. Plasma treated samples for 60 s demonstrated lower air permeability than those treated for 30 s. Furthermore, printed samples possessed acceptable levels of fastness against washing, light and crocking. 相似文献
4.
Polypropylene fabrics were coated with copper particles using electroless plating, screen printing and wire arc spray coating techniques. Surface morphology of the fabrics was studied using optical and scanning electron microscopes (SEM). Furthermore, tensile strength, electrical conductivity, thermal conductivity, air permeability, water contact angle and fog collection efficiency of the coated fabrics were measured and the obtained results were analyzed. SEM micrographs showed that a very thin and uniform layer of copper deposited on the surface of the electroless plated polypropylene fibers. In the printed or spray coated fabrics the copper particles filled the spaces between yarns and fibers. The polypropylene electroless copper plated fabrics showed higher tensile strength, electrical conductivity, air permeability and thermal conductivity when compared with the fabrics coated with copper screen printed and copper spray coated fabrics. Finally, the obtained results showed that copper electroless plating could increase the fog collection efficiency of polypropylene fabrics considerably. As a conclusion, the surface modified copper electroless polypropylene fabrics are good candidates for fog collection in appropriate regions which need further investigations. 相似文献
5.
Abdur Razzaque Pavla Tesinova Lubos Hes Jana Salacova Hafiz Affan Abid 《Fibers and Polymers》2017,18(10):1924-1930
Waterproof breathable layered fabrics allow water vapor passing through, but resist liquid water to pass. This ability of the fabrics to protect rain and snow water while allowing sweat vapor to evaporate from inside to outside atmosphere, leads them to be used as outdoor sportswear or protective clothing. The big challenge of enhanced hydrostatic resistance of these fabrics with proper breathability and thermal comfort has widened the research scope. This study presents an experimental investigation on hydrostatic resistance and thermal behavior of layered waterproof breathable fabrics. Six different types of hydrophobic and hydrophilic membrane laminated layered fabrics were evaluated by varying different fabric parameters in the experiment. Hydrostatic resistance and water vapor permeability of the laminated fabrics were measured by SDL ATLAS Hydrostatic Head Tester and PERMETEST respectively. Thermal properties were evaluated by ALAMBETA instrument. Moreover, FX-3300 air permeability tester was used to measure air permeability which represents the porosity of the fabrics and computer based See System software was used for water contact angle measurement on the outer fabric surface in order to determine the hydrophobic and hydrophilic properties. This experiment clearly discusses the influence of different fabric characteristics and parameters on hydrostatic resistance and thermal properties of the breathable laminated fabrics. The results show that fabric material composition, density, thickness, and hydrophobic and hydrophilic membranes have significant effects on hydrostatic resistance, breathability and thermal properties of different laminated fabrics. 相似文献
6.
Alkaline hydrolysis is one of the most classic fiber finishing methods, however, its potential as tuning surface superhydrophobicity in mass scale has not been studied much. In this research, fine roughness was formed on the polyester fiber surfaces by alkaline hydrolysis at room temperature and fluorinated polymer mixtures were further coated. The developed superhydrophobic fabrics were evaluated in terms of structural changes, mechanical properties, surface hydrophobicity, and permeability for practical applications. As alkaline hydrolysis treatment time increased, surface roughness was increased as a lot of nano-craters were generated with the decrease of fabrics weight and tensile strength as well. As air pockets formed through nano-craters on the fiber surfaces, static contact angle increased, and shedding angle tended to decrease. In this study, the sample treated with alkaline hydrolysis for 20 minutes showed the highest static contact angle of 167.8±1.3° and lowest shedding angle of 4.4±2.3°. Considering tensile strength loss, however, the 15-minute alkaline hydrolyzed fabrics which showed static contact angle of 162.2±2.7° and shedding angle of 8.8±0.2° was selected as the optimal condition for practical application. The newly developed superhydrophobic fabrics were found to have higher water vapor and air permeability than those of untreated samples. At the same time, fluoropolymer coating played a certain role for tensile strength and water vapor permeability demonstrating the importance of understanding and designing proper fluorinated-compound treatment processes. 相似文献
7.
In this study, traditional dip-pad-cure (DPC) process and electron beam (EB) irradiation were used to graft cotton fabrics with fluorine containing chemical, 1H,1H,2H,2H-perfluorooctyl acrylate (PFA). The grafted cotton fabrics were characterized by FT-IR and SEM. The water repellent properties were measured by contact angle, hydrostatic pressure, and spry test. It was found that there was no significant difference between the grafted cotton fabrics with DPC and EB methods, and the treated fabrics showed good water-resistant properties. The grafted cotton fabrics also showed good washing stability. By measuring the bending rigidity and bending hysteresis, it was found that the cotton fabrics grafted with PFA became softer than untreated samples. 相似文献
8.
Comfort is one of the most important aspects of clothing. Thermal comfort is related to fabric’s ability to maintain skin temperature and allow transfer of perspiration produced from the body. Properties like thermal resistance, air permeability, water vapor permeability, and liquid water permeability are suggested as critical for thermal comfort of clothed body. In this study the fabrics developed from the EliTe compact yarns are compared with the fabrics made from normal yarns. The thickness of the fabrics made from EliTe® compact yarns is also slightly less than the fabrics made from normal yarns. Fabrics made from EliTe® compact yarns have shown greater air permeability as compared to the fabrics made from normal yarns. It is observed that, thermal resistivity values of the fabrics developed from EliTe® compact yarns are lower than the fabrics made from normal yarns indicating they are cooler fabrics compared to normal fabrics. Fabrics developed from the EliTe® compact yarns have shown slightly higher values of MVTR (moisture vapor transmission rate) as compared to the fabrics made from the normal yarns. The wicking characteristic of fabrics developed from EliTe® compact yarns was slightly higher than the fabrics developed from normal yarns. 相似文献
9.
Hyun-Sook Bae 《Fibers and Polymers》2010,11(4):606-614
For their functional enhancement, sanitary nonwoven fabrics with a relatively smooth surface were treated using chitosan, a natural polymer with excellent biocompatibility, and nanosilver colloid solution, which has strong antibacterial effects even when used in small amounts. The treatment effect was examined at various mixing ratios. When the mixing ratio of the nanosilver solution was higher, antibacterial and deodorization activity was increased. For CH3/NS1 treated fabric, when the mixing ratio of chitosan and nanosilver solution was 3:1, the air permeability was most excellent, and worked as a positive in improving the pleasantness of the sanitary nonwoven fabric. In all samples, the electrostatic propensity was reduced, regardless of the mixing ratio. In terms of the moisture characteristics of chitosan/nanosilver treated nonwoven fabrics, the moisture uptake was found to be superior in the CH3/NS1 treated fabric. When the mixing ratio of the nanosilver solution was higher, moisture permeability decreased, showing a similar tendency to that of air permeability. The vertical water permeability coefficient increased in all treated fabrics. The dynamic water absorption rate was good in CH4 and CH3/NS1 treated fabrics. This means that the absorption of water in the liquid state became easier, thus improving applicability as sanitary nonwoven fabrics. 相似文献
10.
Tencel Jacquard fabric is one of the eco-fabrics used for underwear, sportswear, bedclothes, clothes for aged people, and
hospital textiles. It is popular for these uses because it is easy to process into yarns and fabrics alone or in blends, very
stable in washing and drying, thermally stable, and easy to dye with deep vibrant colors using direct, reactive, or vat dyes.
In order to provide antimicrobial properties for Tencel Jacquard fabrics, they were treated with ginkgo biloba extract and
silicon softener using two different processes so the results could be compared. One of the processes treated the fabrics
with ginkgo biloba extract and silicon softener simultaneously, and the other process treated the fabrics with these agents
sequentially. The treated Tencel Jacquard fabrics were characterized by scanning electron microscopy, and their antimicrobial
properties were evaluated. In addition, water repellency, air permeability, water vapor permeability, and yellowness were
measured. It was observed that the ginkgo biloba extract and silicon softener were present on the surface of the treated fibers,
and the quantity of these agents before and after laundering was proportional to the measured antimicrobial activity of the
fabrics before and after laundering. Fabrics treated with both agents had stronger water/oil repellency than fabrics treated
with only ginkgo biloba extract. As the quantities of the two treating agents on fabrics were increased, their air permeability
and water vapor permeability decreased. No significant changes were observed for yellowness based on the amounts of treating
agents applied. From these results, it is expected that Tencel fabrics treated with ginkgo biloba extract and silicon softener
are excellent for use as bedclothes. 相似文献
11.
This study examined the effects of the total porosity, pore size, and cover factor on the moisture and thermal permeability of woven fabrics made from DTY (draw textured yarns) and ATY (air jet textured yarns) composite yarns with hollow PET (polyethylene terephthalate) yarns. The wicking of the hollow composite yarn fabrics was found to be superior to that of the high twisted yarn fabrics, which may be due to the high porosity in the hollow composites yarns, but this was not related to the cover factor. The drying characteristics of the hollow composite yarn fabric with high porosity were inferior compared to the high twisted yarn fabrics due to the large amounts of liquid water in the large pores, which resulted in a longer drying time of the fabric. The thermal conductivity of the hollow composite yarn fabrics decreased with increasing measured pore diameter due to the bulky yarn structure. The effects of the hollowness of the yarn on the thermal conductivity were more dominant than those of the yarn structural parameters. The air permeability increased with increasing measured pore diameter but the effects of the cover factor on the air permeability were not observed in the hollow composite yarn fabrics. The effects of porosity on the moisture and thermal permeability of the woven fabrics made from the hollow composite filaments were found to be critical, i.e., wicking and air permeability increase with increasing porosity. In addition, the drying rate increased with increasing porosity and the thermal conductivity decreased with increasing pore diameter, but were independent of the cover factor. 相似文献
12.
A series of CNTs/SiO2/thiazole dye hybrid materials prepared via the sol-gel process is synthesized from carbon nanotubes (CNTs) and tetraethoxysilane
with heteroaryl 4-phenyl-2-amino-thiazole dyes. Heterocyclic 4-phenyl-2-aminothiazole dyes are processed with the hydrolysis-condensation
reaction at a constant ratio of vinyltriethoxysilane and tetraethoxysilane condensed with modified CNTs in appropriate proportion
under a catalyst. The structures of the CNTs/SiO2/thiazole dye hybrid materials are characterized by Fourier transform infrared spectroscopy (FTIR). Polytrimethylene terephthalate
(PTT) fabrics are used to evaluate the morphology structure by scanning electron microscopy (SEM). SEM images show that a
uniform dyeing on the PTT fabrics to confirm the reaction of hybrid materials with PTT fabrics. The washing fastness, color
evenness, water contact angle, air permeability, electric conductivity, and weatherability of PTT fabrics dyed with CNTs/SiO2/thiazole dye hybrid materials are evaluated, with results indicating improved conductivity and water-repellent. 相似文献
13.
Air permeability is one of the most important utility properties of textile materials as it influences air flow through textile material. Air permeability plays a significant role in well-being due to its influence on physiological comfort. The air permeability of textile materials depends on their porosity. There are a lot of structural properties of textile materials also operating parameters (knitting+finishing) influencing air permeability and there are also statistically significant interactions between the main factors influencing the air permeability of knitted fabrics made from pure yarn cotton (cellulose) and viscose (regenerated cellulose) fibers and plated knitted with elasthane (Lycra) fibers. Two types of artificial neural networks (ANNs) model have been set up before modeling procedure by utilizing multilayer feed forward neural networks, which take into account the generality and the specificity of the product families respectively. A virtual leave one out approach dealing with over fitting phenomenon and allowing the selection of the optimal neural network architecture was used. Moreover this study exhibited that air permeability could be predicted with high accuracy for stretch plain knitted fabrics treated with different finishing processes. Within the framework of the work presented, ANNs were applied to help industry to adjust the operating parameter before the actual manufacturing to reach the desired air permeability and satisfy their consumers. 相似文献
14.
C. N. Herath 《Fibers and Polymers》2013,14(8):1339-1346
In this research work, air permeability variations of core spun cotton/spandex single jersey and 1×1 rib knitted structures were studied under relaxation treatments. Results are compared with similar fabrics made from 100 % cotton material. Even though cotton/spandex fabrics knitted with same stitch lengths, their structural spacing and stitch densities vary with the progression of treatments. Similar behavior was also observed with 100 % cotton knitted structures. Under higher machine set stitch lengths (i.e., lower fabric tightness factor), higher structural spacing and lower stitch densities were resulted and those variations significantly affected on the air permeability variations of knitted structures. 1×1 rib knitted structures showed significantly higher air permeability than single jersey structures and it is more prominent with cotton rib structures. However, cotton/spandex 1×1 rib and single jersey structures have not showed such significant deviations. Air permeability of cotton/spandex and 100 % cotton rib and single jersey knitted structures decreased with lower machine set stitch lengths (i.e., at higher fabric tightness factors). There was a correlation with fabric tightness, air permeability, areal density and fabric thickness such as knitted fabrics became tighter, their weight and thickness were higher, while their air permeability was lower. Thus, fabric areal density and fabric thickness are positively correlates to machine set stitch length?1 (fabric tightness factor). Air permeability of a knitted structure depends on material type, knitted structure, stitch length, relaxation treatment, structural spacing and stitch density. 相似文献
15.
The effect of blend percentage on comfort and handle related properties of fabrics made from polyester/viscose blended air-jet
textured yarn weft were studied and the results were compared with fabrics made from polyester/viscose ring-spun yarn wefts
of similar linear densities. It is observed that with increase in polyester content in the blend, the air permeability and
water vapour permeability reduces whereas thermal resistance, transverse wicking and shear rigidity increases both in ring-spun
yarn and textured yarn fabrics and bending rigidity increases in textured yarn fabrics. Textured yarn fabrics exhibit lower
air permeability and extensibility, higher thermal resistance, relative water vapour permeability, transverse wicking values
and bending rigidity as compared to the ring-spun yarn fabrics. 相似文献
16.
Tao Yang Xiaoman Xiong Rajesh Mishra Jan Novák Jiří Chaloupek Filip Sanetrnik Jiří Militký 《Fibers and Polymers》2016,17(12):2078-2084
This work deals with the study of acoustic performance of struto nonwovens and their relation to fabric air permeability. In order to achieve the objective of the research, sound absorption coefficient of struto nonwovens was determined via impedance tube method, the average value of sound absorption coefficient (α?) was calculated. Air permeability of struto nonwovens was examined by using FX3300 Textech Air Permeability Tester. Results showed that struto nonwoven exhibited good absorption ability at frequency bands 3000-6400 Hz while it was ineffective for frequency lower than 3000 Hz. Struto nonwovens with high GSM and fabric thickness showed better acoustic performance and lower air permeability. It was observed that α? was inversely proportional to air permeability, with correlation coefficient 0.95. It was concluded that air permeability can be used as a criterion of sound absorption behavior of struto nonwovens. A lower air permeability suggests a better sound absorption performance for struto nonwoven fabrics. 相似文献
17.
Ahu Demiroz Gun 《Fibers and Polymers》2011,12(8):1083-1090
In this study, the dimensional, physical and thermal comfort properties of the plain knitted fabrics made from 50/50 blend
of modal viscose fiber in microfiber form with cotton fiber are compared with those of the similar fabrics made from 50/50
blend of conventional modal viscose fiber with cotton fiber and made from 100 % cotton fiber. All the fabric types are produced
in three different stitch lengths. The slight differences among the fabric types are observed in terms of the stitch density
results and the dimensional constants calculated in the fully relaxed state. In the fully relaxed state, the dimensional K
values of the modal microfiber blended knitted fabrics are found to be more closely resemble those of the cotton fabrics rather
than those of the conventional modal fiber blended fabrics. The lowest fabric thickness and bursting strength results are
obtained for the modal microfiber blended fabrics. The modal microfiber blended fabrics reveal lower air permeability than
the conventional modal fiber blended fabrics and higher air permeability than the cotton fabrics. It is also observed from
the thermal comfort results that the modal microfiber blended fabrics have the lowest thermal resistance and the highest thermal
absoptivity values. The thermal conductivity results of the modal microfiber blended fabrics are lower than those of the cotton
fabrics and higher than those of the conventional modal fiber blended fabrics. Because of the highest thermal absorptivity
values, the modal microfiber blended fabrics provide the coolest feeling when compared with the other two fabric types. 相似文献
18.
Rajkishore Nayak Sinnappoo Kanesalingam Shadi Houshyar Arun Vijayan Lijing Wang Rajiv Padhye 《Fibers and Polymers》2016,17(6):954-962
This research investigated the effect of repeated laundering and dry-cleaning on the physical and thermophysiological comfort properties such as air permeability, water vapour resistance and thermal resistance of fabrics made of meta-aramid (Nomex®) fibre. Two different types of fabric were selected for the study and subjected to repeated laundering and dry-cleaning (1, 5 and 10 cycles), which is commercially used for the care and maintenance of these fabrics. The fabric thickness, areal density, thermal resistance and water vapour resistance values increased with the number of laundering cycles, whereas the air permeability decreased due to the fabric shrinkage and swelling. On the other hand, the thickness and air permeability of the dry-cleaned fabric samples increased with the number of cycles; while the water vapour resistance and thermal resistance decreased. The scanning electron microscopy images showed the structural changes as indicated by the longitudinal fibrillation in the fabrics subjected to laundering or dry-cleaning. 相似文献
19.
In this study, the dimensional and some physical properties of plain knitted fabrics made from 50/50 bamboo/cotton blended
yarns are investigated. In order to see the differences and similarities, the results are then compared with those for similar
fabrics knitted from 50/50 conventional viscose/cotton and 50/50 modal/cotton blended yarns. Each fabric type was produced
with three different stitch lengths. After all fabrics were dyed under identical dyeing conditions, they were subjected to
dry and full relaxation treatments. For dimensional properties of fabrics, course, wale and stitch densities were measured.
Then, by calculating statistically best-fit lines passing both through the experimental points and the origin, dimensional
constants i.e. k values were predicted in terms of the fiber types. The result show that each fabric type knitted from bamboo/cotton, viscose/cotton
and modal/cotton blended yarns behaves in a similar manner. However, in both dry and fully relaxed states, the modal/cotton
knitted fabrics tend to have slightly higher k values than the bamboo/cotton and viscose/cotton knitted fabrics. For physical properties, fabric weight per unit area, thickness,
bursting strength, air permeability and pilling were evaluated. The results show that the weight, thickness and air permeability
values are independent of the fiber type. Plain knitted fabrics from modal/cotton blended yarns have the highest bursting
strength values. Plain knitted fabrics from bamboo/cotton blended yarns tend to pill less. 相似文献
20.
There is an increasing demand for air-dry performance of fluorocarbon finished materials. Thus, surface modifications of wool
fabrics were evaluated. Untreated, gaseous fluorinated, Chlorine/Hercosett processed 100 % wool fabrics were treated with
different fluorochemicals and their liquid repellency after washing, and dry cleaning were evaluated. The results indicated
that Chlorine-Hercosett treated samples, wool with a positive charge, after few washing cycles, showed better air dry performance
with higher level of repellent properties. In addition, the comparison of the wool surface modifications treatment with different
applied fluorochemicals, with different commercial formulations, illustrated that the fluorocarbon chain re-orientation and
fastness properties are more affected by the nature of the wool surface while the used fluorocarbons showed more or less similar
behaviours. In general, the fluorination increases fabric stiffness with lower fabric formability. The surface interface was
effectively probed by X-ray Photoelectron Spectroscopy, XPS, which enabled the characterisation of the loss of surface lipids,
the nature of the fibre oxidation and the deposition of fluoropolymers. 相似文献