Fatma Kalaoglu

Investigation of wicking, wetting and drying properties of acrylic knitted fabrics

In this study, it was aimed to investigate the relationship between different knitted structures and some thermo-physiological comfort parameters. Wetting, wicking and drying properties of single jersey, 1 × 1 rib, 2 × 2 rib and interlock knitted fabrics made out of acrylic yarns were studied and experimental wicking height, wicking weight, transfer wicking ratio, contact angle and WER (water evaporation rate) values were measured. Samples were produced in two different tightness values to obtain slack and tight fabrics for all structures. Some comfort-related parameters were correlated with structural parameters of fabrics such as fabric tightness factor, thickness, porosity, loop length and pore size etc. The statistical analysis results indicate that the effect of the knitted structure is significant for wicking height, wicking weight, contact angle values, transfer wicking ratios and WER values. Wicking height increases depending on knitted structures namely, single jersey, 1 × 1 rib, interlock and 2 × 2 rib, respectively. Slack fabrics have longer loop lengths with higher porosity values and higher pore sizes for all knitted structures. Slack structures of 2 × 2 rib, 1 × 1 rib, interlock and single jersey knits have higher transfer wicking ratios when compared with their tight structures. WER is inversely related with fabric thickness. It decreased with an increase of thickness due to increase of compactness and decrease of air space. All tight knitted structures have higher contact angles than their slack forms due to compactness of the surface.

Influence of Varying Structural Parameters on Abrasion Characteristics of 50/50 Wool/Polyester Blended Fabrics

This paper reports an analysis of the influence of polyester and yarn type on the abrasion resistance of 50/50 wool/polyester blended woven fabrics. Recently developed polyester fibers put into the blend and two-strand Sirospun yams are compared with 2.5 denier standard polyester and two-fold ring yarns. Mass losses of ten fabrics abraded in the Martindale tester are obtained for eight abrasion levels and given in three groups of graphs in a comparative form. Regression analyses help describe mass loss ratios of fabrics as a function of abrasion cycles and other structural parameters. Linear and, in some cases, quadratic and cubic models help explain the acceleration in mass loss rates, and SEM photographs show surface degradation of wool blend fabrics.

Thermal analysis of e-textile structures using full-factorial experimental design method

e-Textiles are structures that have properties such as sensing, actuating, communicating, and generating/storing power. Since e-textile structures may be in contact with skin, it is essential to have low temperatures when they are functioning. In this article, temperatures obtained on the e-textile structures were analyzed by taking into account weave type, linear resistance of conductive yarns, base yarn type, and voltage values using full-factorial experimental design method. e-Textile structures were designed using different conductive yarns with different linear resistance values in different weave-type configurations. Thermal analysis was carried out under different voltage values to observe temperature variations over the conductive yarns positioned in the fabric structure. It was found that linear resistance of conductive yarns and its interaction with voltage values considerably affect the temperature of the e-textile structures, and the temperature observed over the conductive yarns is directly proportional to the linear resistance of conductive yarns. Additionally, it was observed that plain fabric samples reach lower temperatures than twill and sateen fabric samples.

Evaluation of Globalization Strategies: External Analysis of the Turkish Clothing Industry

In this article we present an external analysis of the Turkish clothing industry. Information on the companies was obtained by means of a questionnaire survey. Data were evaluated to see whether or not the Turkish clothing industry utilizes globalization market strategies, the important factors effective to implement these strategies, perceived problems, and execution of the strategies to compete in the global environment in addition to the modeling of the current situation of the strategies.

Investigation of the performance of linings

Purpose – To investigate the performance of linings in clothing.Design/methodology/approach – A total of 24 lining fabrics were produced in different constructions. 150 denier 350 twist/cm filament polyester warp yarn was used for all of the fabrics. Two different weft yarns (textured, filament) were used to produce lining fabrics in three different densities.Findings – In the garment sector, lining performance is highly important for the manufacture of proper quality garments. The main problem of linings during usage is seam slippage for some constructions.Research limitations/implications – Fabric constructions were chosen as warp rips, weft rips, ripstop (rips both in warp and weft direction) and plain weave. Seam slippage, bending behaviour, crease recovery angle and comfort properties of the linings were measured and the results evaluated.Originality/value – The paper contributes to understanding the performance of linings.

The Use of Hot Air Welding Technologies for Manufacturing E-textile Trasmission Lines

This study investigated the potential possibilities for obtaining textile transmission lines by incorporating conductive yarns into fabrics through a hot air welding process. Hot air sealing for obtaining textile transmission line was conducted using 100 % PES woven fabric, GoreTex® waterproof welding tape and seven different conductive yarn types, in order to form different textile transmission lines. By manufacturing using a hot air seam-sealing machine different welding parameters like welding temperature, pressure and velocity were chosen in order to find an optimal welding process for the selected fabric samples. The effects of welding parameters were examined on the electrical properties of the textile transmission lines in terms of conductivity and signal-transferring capability. Besides, the bending properties and morphologies of the welded textile transmission lines were also characterized and subjective evaluations of the appearances of textile transmission lines like puckering and the visual appearances of the surface sides of the welded textile transmission lines. The results based on conductivity and signal transferring capabilities were really promising for the manufacturing of etextile transmission lines via hot air welding technology. Moreover, the results based on bending properties showed that the lower the welding parameters the less rigid the hot air welded textile transmission lines became after welding all the used conductive yarns. Further, suitable combinations of welding parameters with the used components of textile transmission assured suitable visual appearances of the welded textile transmission lines. In this respect this research work offers a usage for hot air welding technology regarding the formations of textile transmission lines which are reliable and durable in functionality while still preserving the textiles’ aspects.

An Analysis on the Moisture and Thermal Protective Performance of Firefighter Clothing Based on Different Layer Combinations and Effect of Washing on Heat Protection and Vapour Transfer Performance

Fabric assemblies for firefighting clothing have been tested for heat protection and comfort. The constituent materials and fabric structures have been specifically selected and tailored for firefighters’ clothing. In order to do this, four types of outer shell fabrics, four types of moisture barrier fabrics, and four types of heat barriers with different weights and material compositions were used to make a multilayered fabric assembly. Heat transfer (flame), heat transfer (radiant), and water vapour resistance tests were conducted according to the latest EN469 test standard which also recommends washing tests. These tests reveal that material content and material brand have considerable effect on the required performance levels of heat protection. In addition, while washing tests have improved water vapor transfer properties, they have a deteriorating effect on heat protection performance. Considering heat protection and moisture comfort properties, the optimal assemblies are thereby identified.

A study on the beam pattern of ultrasonic sensor integrated to textile structure

Purpose – During the past decades, several researchers have introduced devices that use sonar systems to detect and/or to determine the object location or to measure the distance to an object using reflected sound waves. The purpose of this paper is to use sonar sensor with textile structure and to test it for detection of objects.Design/methodology/approach – In this study, a sonar system based on intelligent textiles approach for detection of objects has been developed. In order to do this, ultrasonic sensor has been integrated to textile structures by using conductive yarns. Furthermore, an electronic circuit has been designed; PIC 16F877 microcontroller unit has been used to convert the measured signal to meaningful data and to assess the data. The algorithm enabling the objects detection has also been developed. Finally, smart textile structure integrated with ultrasonic sensor has been tested for detection of objects.Findings – Beam shape is presented related to identified object and compared with t...

The Effects of Different Amounts of Lubricant Application on the Sewing Thread Performance Properties

In this study, different amounts of lubricant were applied to air-jet polyester, polyester-spun, core-spun (poly/poly) and cotton ring sewing threads having the same final count. Mechanical and frictional properties of these sewing threads were measured. An evaluation was made in order to determine the effect of the amount of lubrication on yarn elongation, frictional forces, friction coefficient, electrostatic charging and seam breaking strength of different sewing thread types. The relationship between yarn strength and seam breaking strength was also evaluated.

Analysis of the performance properties of knitted fabrics containing elastane

Purpose – Knitted fabrics containing elastane provide high level of comfort and ease of usage because of the elastic and drape properties over the body. Knitted fabrics respond to every movement of the body and return back to its original shape easily so they are used widely for apparel production. The most important properties required from the elastic knitted garments are wear comfort, fit, breathability and durability. The purpose of this paper is to analyse the effect of elastane yarn count and ground yarn count on the performance properties of 12 single jersey knitted fabrics were analysed after dying. Design/methodology/approach – The research design for this study consists an experimental study. In all, 12 fabrics containing half plating and full plating elastane were produced using 30/1-40/1 Ne yarn counts. Bursting strength, stretch recovery, residual extension, air permeability, spirality and drape properties of fabrics were evaluated. Findings – As a result of study it was found a certain effec...