Nida Oğlakcıoğlu scite author profile

Double face fabrics are used to ensure better clothing comfort in sports and active wears. High moisture transfer properties of these fabrics affect their comfort properties and make them more functional. In this study, in order to investigate the moisture management properties of the double face fabrics, a special knitting structure, which has different or same yarn combinations in the face and back sides, was used. The selected yarns were cotton—cotton, cotton—polypropylene, polypropylene—cotton and polypropylene—polypropylene for face and back sides respectively. Moisture management properties and the changes of the thermal absorptivity values, which determine the warm-cool feeling, of the produced fabrics were determined and statistically analyzed. All measurements were done both in dry and wet conditions. The results indicate that, the polypropylene (inner)-cotton (outer) fabric has better moisture management property, provides high levels of comfort and can be preferred for summer, active and sports wear.

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Thermal Comfort Properties of Angora Rabbit/Cotton Fiber Blended Knitted Fabrics

Oğlakcıoğlu

Çelik

Üte

et al. 2009

Textile Research Journal

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In this study, thermal properties of different cotton and Angora rabbit fiber blended fabrics were investigated. It is known that cotton fiber has good comfort properties and Angora rabbit fiber is a speciality fur fiber which possesses good softness, whiteness and warmth. The aim of this study was to combine the excellent characteristics of these fibers to produce knitted fabrics with better comfort properties. First, short staple yarns were spun from cotton and Angora rabbit fibers with different blend ratios in two different spinning systems. Then, 1 × 1 rib knitted fabrics were produced with these yarns and the thermal comfort parameters of fabrics were measured on Alambeta and Permetest devices. Finally, according to end use, the optimum ratios were analyzed. The results indicated that the increase of Angora fiber ratio in the fabric and the spinning system affected the thermal comfort properties. The statistical analyses showed that only the fabrics including 25 % of rabbit fiber generated a significant difference on these parameters. Besides, the fabrics knitted from ring yarns had a warmer feeling at first touch and provided more thermal insulation but less water vapor permeability than the fabrics knitted from open-end yarns.

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The abrasion resistance of socks

Özdіl

Marmaralı

Oğlakcıoğlu

2009

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PurposeThe purpose of this paper is to explain the yarn parameters and some finishing process that can affect the abrasion resistance of socks in detail.Design/methodology/approachThe abrasion tests were made on socks produced from the most popular fibers (cotton, wool, PAC, PES, PA, and blends of these) by the Modificated Martindale method. The effects of fiber type, yarn count (for single and ply yarn), combing process, softness process with silicone and mercerization process to the abrasion resistance were investigated.FindingsIt was found that the use of coarse yarns, addition of polyester, polyamide fibers or elastane filaments to the structure and application of the mercerization process increase the abrasion resistance of the socks. However, the silicone softeners decrease this value. The resistance of wool socks is higher than acrylics.Originality/valueSocks, which are a necessary item of clothing, need to be comfortable, affordable and retain their quality throughout their life. The most significant problem is abrasion which can greatly reduce the material's life. To determine the parameters affecting the sock abrasion will be useful both for producer and for consumer.

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Analysis of the parameters affecting pressure characteristics of medical stockings

Sarı

Oğlakcıoğlu

2016

Journal of Industrial Textiles

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Compression stockings, which constitute one of the most important groups of compression garments, are engineered to regulate blood flow in venous systems in order to use in many medical fields such as supporting muscles and preventing edema. In the present study, it was aimed to analyze the effects of production parameters such as tightness, elastane yarn feeding tension and elastane yarn counts on pressure behavior of compression stockings, which are commonly used to adjust pressure values. The results of the statistical analysis indicated that the tested parameters had significant effects on pressure characteristics of compression stockings. Moreover, multiple regression analysis was used to investigate the relationship between the fabric parameters and pressure values. The analysis exhibited the strong impact of thickness and traversal elasticity on pressure characteristics. All parameters have positive impacts except traversal elasticity.

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Design of functional knitted fabrics for medical corsets with high clothing comfort characteristics

Oğlakcıoğlu

2014

Journal of Industrial Textiles

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This study aims to achieve high comfort characteristics in medical corsets. For this aim, initially the expectations of users were determined by a survey and special yarns have been selected according to the survey responses. Then, different corset fabrics have been designed in a functional structure. Later, the most important body movement (stretchability), sensorial (bending rigidity) and thermophysiological comfort (air permeability, water vapour permeability, and thermal resistance) properties of these fabrics were tested and evaluated statistically. The results revealed that high levels of clothing comfort and performance properties can be established by different yarn types and fabric compositions and this will lead to achieve a successful medical therapy.

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