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1.
PET yarns textured at different texturing conditions were treated with superheated steam or dry heat at different temperatures
for different times. The effects of the treatment conditions on the thermomechanical and structural changes of the yarn were
examined by shrinkage, X-ray diffraction and birefringence measurements. With increase in superheated steam temperature, the
crystalline orientation factor and birefringence decreased, whereas crystal size increased. Dry heat treatment had a smaller
effect on shrinkage and structural properties in comparison with superheated steam treatment. The additional shrinkage after
texturing process was investigated. The effect of heat-setting in both media was more significant at 200 °C. The time dependence
of the properties was not linear. 相似文献
2.
The dyeability of poly(lactic acid) (PLA) fiber strongly depends on disperse dye structure due to the low dyeing temperature and the short dyeing time. Thus, the dye uptake value of PLA fiber is low for some disperse dyes and is needed to be improved. In the current study, the dyeability of PLA fiber is improved with the addition of N-Phenylaminopropyl polyhedral oligomeric silsesquioxane (AP-POSS) during melt spinning process. The effects of dyeing conditions including dyeing temperature and time, disperse dye type and AP-POSS concentrations are investigated on the dyeability properties of PLA fiber samples. The tensile, thermal and morphological properties of fiber samples are also characterized by tensile testing, differential scanning calorimeter (DSC), scanning electron microscopy (SEM) and transmission electron microscopy (TEM). As the added amount of AP-POSS increases, the percent crystallinity increases and the tensile strength reduces. According to the dyeing results, AP-POSS is very effective for increasing the dyeability of PLA fiber especially for disperse dyes with low dye uptake values. 相似文献
3.
The microbial transglutaminase (mTGase) is used as a bio-catalyst to repair the wool damages caused by chemical or enzymatic
treatments. In this paper, the effect of mTGase on the degree of yarn strength, area shrinkage, wettability, and the dyeing
properties of wool was investigated. Through mTGase treatment, the yarn strength was improved about 22.2 %. The knitted wool
fabrics treated with mTGase after pretreatment of H2O2 and protease displayed 7.5 % of area shrinkage and about 22.3 % recovery in tensile strength when compared with those treated
without mTGase. Also, mTGase treatment could improve the wettability and dyeing properties of wool fabrics. With the increase
of mTGase concentration, the initial dye exhaustion increased significantly and the time to reach the dyeing equilibrium was
shortened. It was evident that the improvement of dyeing properties was closely related to the improvement of wettability
performance of wool fabric by using transglutaminase. 相似文献
4.
Mazeyar Parvinzadeh Gashti 《Fibers and Polymers》2016,17(1):130-135
Compressive shrinkage or compressive shrinkage finishing is one of the most important finishing procedures in the textile industry to improve the dimensional stability of cotton fabrics. Study of the physical and mechanical properties of compressive shrinkage finished fabrics could be useful for optimizing the treatment conditions. This research was carried out in a production line of a recognized garment company on cotton woven fabrics with two different woven patterns (twill and plain). The samples were first dyed with reactive and sulfur dyes in a jigger dyeing machine and finished with a silicone softener. The dried fabrics were then processed in a compressive shrinkage machine. Several physical and mechanical properties of the samples were evaluated including area shrinkage, crimp percentage, thickness, abrasion resistance, drapeability, mechanical and colorimetric properties. The results showed that the thickness of all treated samples increased due to compressive shrinkage. The fabrics were analyzed with a Martindale Abrasion Tester to determine the abrasion resistance. Interestingly, we noted an increase in the abrasion resistance. After the compressive shrinkage process, the strength of the plain woven fabrics decreased in the warp direction, but increased for twill woven cotton fabrics. On the contrary, the strength of all samples increased in the weft direction. Colorimetric evaluation of the samples showed that the effect of compressive shrinkage on the color of all samples was negligible. 相似文献
5.
The feasibility of using kiwifruit protease as a new cosmetic material for human hair care was investigated. The effectiveness of the kiwifruit protease treatment was assessed by optical microscope examination, amino acid analysis, tensile strength changes, and dyeability test. The activated kiwifruit protease removed impurities and dirt from the hair surface without severe changes in mechanical properties. The total amino acid content of the hair samples decreased as the duration of protease treatment increased and as the treatment temperature increased. The kiwifruit protease treatment also enhanced dye uptake due to the improvement in dye accessibility to the hair via the cell membrane complex. 相似文献
6.
In this paper, the mulberry fibers were successfully obtained by a new pretreatment named alkali-assisted microwave plus biological
enzymatic technique (AMBET). The morphology, microstructure, physico-mechanical and antibacterial properties of the mulberry
bast fibers were investigated by means of scanning electron microscope (SEM), Fourier Transform-Infrared (FTIR), differential
scanning calorimetry (DSC), thermogravimetric analysis (TGA), X-ray diffraction (XRD), instron tensile tester and antibacterial
testing. The results showed that impurities of the bast fibers could be removed by AMBET treatment. AMBET treated mulberry
fiber was even, smooth and fine, and typical cellulose I in the mulberry fibers was confirmed by FTIR and XRD analysis. The
crystallinity of the AMBET treated fibers was higher than that of the raw mulberry and chemical treated mulberry fibers. Thermal
analysis indicated that the mulberry fibers had a good thermal stability. Moreover, the AMBET treated mulberry fibers showed
excellent antimicrobial activities against S.aureus. The physical properties of the mulberry fibers indicated the AMBET treated mulberry fibers were ideal candidates for new
textile materials. 相似文献
7.
Textile fibers were obtained from secondary polyethylene terephtalate (PET) and its mixtures with primary PET at initial orientation of 18000–33000 %, rate of additional orientation drawing 3.5–6.5 times and temperature of thermal fixation 363–413 K. The fibers’ tensile strength was found to decrease and elongation at break to increase with the decrease of their linear density under the conditions of fibers formation. For the fibers based on polymer mixtures, the presence of oxidized fragments in the secondary PET limited the compatibility of the two polymers which resulted in deteriorated tensile properties. The linear density (4–16 dtex), tensile strength (30–50 cN/tex) and elongation at break (20–60 %) of the PET fibers obtained were close to these for the industrially produced polymer fibers. The values of the average diameter of the fibers formed and oriented under laboratory conditions allows classifying them between the fine and the coarse textile fibers which makes them suitable for the textile industry. 相似文献
8.
Chunhong Wang Suyue Bai Xinmin Yue Bixuan Long Lin-P’ing Choo-Smith 《Fibers and Polymers》2016,17(11):1757-1764
The physical properties of natural growth fibers such as chemical composition content and fiber diameter are highly affected by environmental issues such as environmental changes and fiber extraction methods. These irregularities of the natural fibers seriously affect its utilization in composite as reinforcements. In this study, taking into account the importance of the fiber tensile strength, the correlation degrees between the kenaf fiber tensile strength and the fiber chemical composition, crystallinity, orientation degree were analyzed by the grey relational analysis method. Both the kenaf single fiber and fiber bundle were used as XRD and tensile strength test sample. The chemical composition content and the FTIR were carried out to obtain a correct result of the chemical composition content. It found that for the different XRD and tensile strength test samples, the single fiber showed lower crystallinity, higher orientation degree and tensile strength compared with the fiber bundle. The cellulose content and the orientation degree got the higher correlation degree with single fiber tensile strength, which was 0.674 and 0.640. The highest factor associated with the fiber bundle tensile strength was the orientation degree, the correlation degree was 0.747. The hemicellulose content and the crystallinity also got high correlation degree with the fiber bundle strength, which was 0.687 and 0.640. 相似文献
9.
In the present study, effect of OPP (oxidized PP) fraction on the mechanical and structural properties of produced fibers
is investigated. Polypropylene powder without antioxidant materials was oxidized at the suitable thermal condition. The various
fractions of OPP were blended with PP in the chips shape, and employed as starting material in a melt spinning machine for
production of filament yarn. Then as-spun filaments were drawn and finally textured. Structural properties including density,
birefringence and FTIR and physical properties consisting of shrinkage, tensile properties and crimp properties were measured.
Results show that blending of OPP with virgin PP reduces tacticity and crystallinity, but it hasn’t any effect on orientation.
Physical properties of drawn yarns and textured yarns were reduced with increasing of OPP fraction. Moreover, increasing of
OPP fraction in blend, reduce crimp properties of textured yarn. 相似文献
10.
A. K. M. Moshiul Alam M. F. Mina M. D. H. Beg A. A. Mamun A. K. Bledzki Q. T. H. Shubhra 《Fibers and Polymers》2014,15(6):1303-1309
Untreated oil palm empty fruit bunch (REFB), alkali treated EFB (AEFB), ultrasound treated EFB (UEFB) and simultaneous ultrasound-alkali treated EFB (UAEFB) short fibers were incorporated in poly(lactic acid) (PLA) for fabricating bio-composites. The REFB fiber-PLA (REPC) and treated EFB (TEFB) fiber-PLA (TEPC) composites were prepared and characterized. Glass transition temperature, crystal melting temperature, decomposition temperature, melt flow index, density and mechanical properties (tensile strength, tensile modulus and impact strength) of TEPC are found to be higher than those of REPC. The observed crystallization temperature of TEPC is lower than that of REPC. Among all samples, TEPC prepared from UAEFB fiber shows better performances than other samples fabricated by REFB and AEFB fibers. Scanning electron microscopy, Fourier transform infrared spectroscopy and XRD analyses well support all the observed results. 相似文献
11.
Niyaz Mohammad Mahmoodi Fereshteh Moghimi Mokhtar Arami Firoozmehr Mazaheri 《Fibers and Polymers》2010,11(2):234-240
Degumming is a surface modification process of natural fibers such as silk. In this paper, the feasibility of degumming of
Persian silk by microwave irradiation as an environmentally friendly surface modification technique was investigated. The
physical properties of the degummed silk were investigated. The effectiveness of parameters such as microwave irradiation
time, surfactant, soap, and degumming time on silk degumming were studied. The evaluation of the data was carried out through
the measurement of the weight loss, strength, and elongation of the samples. The scanning electron microscope images were
obtained for degummed silk samples. The findings of this research support the potential production of new environmentally
friendly textile fibers using microwave irradiation. 相似文献
12.
High-speed melt spinning of syndiotactic polystyrene was carried out using high and low molecular weight polymers, HMs-PS and LMs-PS, at the throughput rates of 3 and 6 g/min. The effect of take-up velocity on the structure and properties of as-spun fibers
was investigated. Wide angle X-ray diffraction (WAXD) patterns of the as-spun fibers revealed that the orientation-induced
crystallization started to occur at the take-up velocities of 2–3 km/min. The crystal modification wasα-form. Birefringence of as-spun fibers showed negative value, and the absolute value of birefringence increased with an increase
in the take-up velocity. The cold crystallization temperature analyzed through the differential scanning calorimetry (DSC)
decreased with an increase in the take-up velocity in the low speed region, whereas as the melting temperature increased after
the on-set of orientation-induced crystallization. It was found that the fiber structure development proceeded from lower
take-up velocities when the spinning conditions of higher molecular weight and lower throughput rate were adopted. The highest
tensile modulus of 6.5 GPa was obtained for the fibers prepared at the spinning conditions of LMs-PS, 6 g/min and 5 km/min, whereas the highest tensile strength of 160 MPa was obtained for the HMs-PS fibers at the take-up velocity of 2 km/min. Elongation at break of as-spun fibers showed an abrupt increase, which was
regarded as the brittle-ductile transition, in the low speed region, and subsequently decreased with an increase in the take-up
velocity. There was a universal relation between the thermal and mechanical properties of as-spun fibers and the birefringence
of as-spun fibers when the fibers were still amorphous. The orientation-induced crystallization was found to start when the
birefringence reached — 0.02. After the starting of the orientation-induced crystallization, thermal and mechanical properties
of as-spun fibers with similar level of birefringence varied significantly depending on the processing conditions. 相似文献
13.
Natural cellulosic fibres from various varieties of banana plants such as Red Banana, Nendran, Rasthaly, Morris and Poovan
have been extracted manually and the physico-chemical properties of these fibres are investigated. The tensile strength of
these fibres varies from 176 MPa to 525 MPa. The untreated fibres have more tensile strength than the treated one. The thermal
properties of these fibres are studied by Differential Scanning Calorimetry (DSC). Two DSC thermal peaks, one is around 25°C
to 180°C and the other is around 155°C to 240°C, are noticed. The tensile strengths have a direct correlation with the area
of the lower thermal peak (enthalpy) and activation energy of the DSC, and also with the moisture absorption characteristics.
The FTIR shows characteristic bands corresponds to cellulose. The reflections of the X-ray fibre diffraction pattern recorded
for the banana fibre have been correlated with the mechanical strength. 相似文献
14.
Catalina Gómez Hoyos Vera A. Alvarez Piedad Ga?án Rojo Analia Vázquez 《Fibers and Polymers》2012,13(5):632-640
Fique fibers were treated using Na(OH) solution at 5 w/v%, slack and under 1 N of tension, at room temperature, for 4 and 24 h respectively. Changes in their structure and composition were monitored using Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA) and X-ray diffraction (XRD). Additionally their mechanical properties were evaluated and analyzed. Results showed that tensile load application during alkali treatment improves their tensile strength and modulus. The most important change in mechanical properties was achieved in fibers treated for 24 h under tension. However, these fibers presented a high standard deviation; due to this treatment causing an important defibrillation. Moreover, fibers treated for 4 hours under tension, enhance their tensile strength around 56 %, while slack treated fibers improve only 38 %. When fibers were treated under tension, cellulose microfibrills were rearranged in the direction of tensile application and the spiral angle decreased, increasing the molecular orientation. 相似文献
15.
In this paper, an attempt was made to apply low temperature plasma treatment to improve the adhesion property of polypropylene fabrics. Oxygen and nitrogen plasmas were used for pre-functionalization of polypropylene fabrics. Then treated and untreated samples were coated with copper using direct current magnetron sputtering for 10 minutes. And the effect of oxygen and nitrogen pre-functionalization on adhesion properties between copper particles and polypropylene surface were studied. The textile properties of treated and untreated samples were evaluated by different standard testing methods in terms of both physical and chemical performances. The morphology changes of fabrics after plasma treatment were characterized by scanning electron microscopy. Fourier transform infrared spectroscopy analyses revealed chemical surface modifications occurring after the plasma treatments. Experimental results of the adhesion properties and surface properties are presented for the metal coated-polypropylene samples before and after low pressure plasma treatment, and results are compared. The adhesion properties of the activated samples are determined by abrasion and rubbing tests. The antibacterial counting test was used for determination of antibacterial efficiency of both treated and untreated samples, and durability of antibacterial properties was compared. The adhesion improvement has been related to the formation of different functional groups and changes in the topology of the surface. 相似文献
16.
Shazia Muzaffar Ijaz Ahmad Bhatti Mohammad Zuber Haq Nawaz Bhatti Muhammad Shahid 《Fibers and Polymers》2018,19(3):587-598
As the use of high performance textiles has grown, the need for chemical finishes to provide the fabric properties required in the special applications has grown accordingly. In this project, a series of water dispersible polyurethanes dispersion (CS-PUs) with multipurpose performance profile was developed using isophorone diisocyanate (IPDI), polyethylene glycol (PEG), 2,2-dimethylol propionic acid (DMPA) and chitosan (CS) for textile applications. In two step synthesis process, NCO functional PU prepolymers prepared by reacting IPDI, PEG, and DMPA were extended with varying molar quantities of chitosan followed by structural characterization through FTIR. The prepared CS-PU dispersions were applied onto the dyed and printed poly-cotton blend fabrics. The performance behavior of the treated fabric in terms of crease recovery, tear strength, tensile strength, and antibacterial properties was evaluated by applying standard test methods. These investigations show that the CS-PU dispersions can be applied as antibacterial textile finishes with significant improvement in the physical and mechanical properties of poly-cotton fabrics. 相似文献
17.
Unfilled polypropylene and polyropylene/ZnO nanocomposite fibers were produced using a melt spinning apparatus; then the fibers were exposed to UV irradiation. The structure and properties of the fibers were examined using scanning electron microscopy, tensile measurements, wide angle X-ray diffraction (WAXD), Fourier transform infrared (FTIR) spectroscopy, birefringence measurements and differential scanning calorimetry (DSC). Following 150 hours of exposure to UV irradiation, some transverse cracks on the surface of unfilled polypropylene fibers were observed. It was observed that both carbonyl and hydroperoxide indexes, which are the criteria for the detection of UV degradation of the fibers, were increased due to the increase in the UV irradiation exposure time and the increase in these indexes was smaller for nanocomposite fibers than those of unfilled Polypropylene fibers. It was also observed that crystallinity, crystallite size and total molecular orientation of UV irradiated nanocomposite fibers were increased in comparison with non-irradiated nanocomposite fibers. It was also found that the extent of increase in molecular orientation of the fibers was higher comparing to that for the nanocomposite fibers due to the UV irradiation exposure for the unfilled polypropylene fibers. Tensile properties of both unfilled and nanocomposite fibers were decreased after UV irradiation; this reduction correlated with the extent of the increase in molecular degradation of the fibers, as determined by measuring carbonyl and hydroperoxide indexes. 相似文献
18.
A comparison of poly(trimethylene terephthalate)(PTT) and poly(ethlene terephthalate)(PET) fibers spun at various take-up
speeds was presented. Fiber characterization included tensile and thermal properties, optical birefringence, density, sonic
modulus, boil-off shrinkage, and wide-angle X-ray diffraction. The phenomenon of stress-induced crystallization was inferred
from the X-ray diffraction diagrams for fibers spun with take-up speeds over 4000 m/min. The tenacity and elongation of PTT
and PET fiber showed typical results, but the initial modulus of PTT fiber was nearly unchanged over the entire take-up speed
range (2000–7000 m/min), whereas that of PET, as expected, increased monotonically with increasing take-up speed. This divergent
behavior could be explained by the different molecular deformations in the c-axis as determined from X-ray diffraction patterns.
The fiber crystallinity, density, and heat of fusion of both polymers increased with take-up speed. The boil-off shrinkage
decreased with increasing take-up speed. The optical birefringence of the two fiber types showed a maximum level at a take-up
speed of ca. 5000 m/min. The melting temperature behavior of PTT fiber was different from that of PET fibers. It was found
that PTT is less sensitive to stress induced changes at high spinning speeds than is PET. 相似文献
19.
Vanessa Pasquet Nemeshwaree Behary Anne Perwuelz Jalal Isaad 《Fibers and Polymers》2013,14(7):1141-1147
Development of water-soluble dyes for the dyeing of different textile fabrics is essential for the textile industry due to ecological and economical reasons. In this study, a series of new azoic dyes were prepared by diazotization reaction between the phenyl boronic acid and different aniline derivatives, and their dyeing capacity in aqueous solution was evaluated. The synthesized boronic azo dyes present good water solubility and can dye polyamide (nylon), wool, silk, and cellulose acetate fabrics. The effect of factors such as concentration of dye, dyeing temperature, and pH on the level of color strength (K/S) was studied. The dyeing results showed that higher color strength K/S (about 16) and fastness properties (about 4/5) with boronic acid dyes were achieved at higher temperatures avoiding the use of surface agents, mordants, and other polluting chemical additives. 相似文献
20.
Haydar U. Zaman Mubarak A. Khan Ruhul A. Khan Nusrat Sharmin 《Fibers and Polymers》2011,12(6):727-733
Coir fibers (Cocos nucifera) were treated with 1-ethyl-2-pyrrolidone (1-E-2-P) mixed with methanol (MeOH) under UV radiation. A series of solutions of different concentrations of 1-E-2-P in methanol along with a photoinitiator, Darocur-1173, were prepared. Monomer concentration, soaking time, and radiation dose were optimized in terms of grafting and mechanical properties. Ten percent 1-E-2-P, 6 min soaking time, and a 15th pass of radiation produced higher tensile strength (53 %) and elongation at break (230 %) than those of virgin fiber, as well as the highest grafting value (4.9 %). The effect of additives (1 %), such as urea and silane (3-trimethoxysilyl propyl methacrylate) on the properties of coir fiber was studied. Among the additives used, silane showed the best performance. For further improvement of the properties, the fibers were treated with alkali (potassium hydroxide) solution of different temperatures (0–60 °C). A 10 % alkali-treated fiber showed the best properties such as grafting (6.2 %), tensile strength (72 %) and elongation at break (330 %) over virgin fiber. The silane-treated fiber produced the minimum loss of the properties, as well as a lower water uptake than those of the untreated one. The effect of simulating weathering on the degradation properties of samples was also performed. 相似文献