Comfort properties of functional warp-knitted polyester spacer fabrics for shoe insole applications

Rajan, T. Palani; Souza, Louis D; Ramakrishnan, G.; Zakriya, G. Mohamed

doi:10.1177/1528083714557056

Cited by 48 publications

(30 citation statements)

References 22 publications

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“…Due to its good elasticity, knitted fabrics are prone to deformation during usage. In order to eliminate the inner-stress in the yarn and the stretching of the fabric during the knitting process, the knitted fabric was pretreated with a heat setting process to obtain the stable knitted structure [15]. Therefore, the grey fabric directly from the seamless circular knitting machine needed preshrink finish, and the samples were processed in oven under 130℃ for 60 s by the dry heat shrinkage setting method commonly used in the actual production process in the factory.…”

Section: Methodsmentioning

confidence: 99%

Preparation and filtration performance of the circular weft-knitted seamless weft-insertion fabric materials

Tian

Jiang

Gao

2019

Journal of Industrial Textiles

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Air particulate matter pollution has become a severe environment concern calling for filtration materials with great filtration performance. As the development of seamless forming technology, knitted filtration materials gradually show great potential. This study aimed to develop a novel kind of knitted seamless structure for filtration materials of filter bags with high production efficiency and excellent filtration performance. A new type of the circular weft-knitted seamless weft-insertion fabric (CKSW) filtration materials were developed on the modified circular knitting machine. This CKSW filtration materials consisting of the ground yarns, connection yarns and weft-insertion yarns, polyester full drawn yarns, and polyester draw texturing yarns with different yarn configurations were employed to realize series of CKSW samples. The polytetrafluoroethylene filaments with tourmaline particles were used to verify whether the static electric material produced an adsorption filtration effect on the CKSW filtration materials or not. After pretreatment, the filtration performance of the CKSW filtration materials was evaluated by analyzing its pore size, porosity, and filtration efficiency. Ultimately, the CKSW filtration materials with ground yarns and weft insertion yarns of draw texturing yarn and the connection yarns of full drawn yarn exhibited the most excellent filtration performance. The CKSW filtration materials show a high porosity of 87.14%, the pore size of 67.55 µm, and good filtration efficiency of 91.57% with the particles size of ≥ 5.0 µm. The successful fabrication of such knitted filtration materials may provide ideas for the development of filtration materials with new architecture mainly used as filter bags for baghouse.

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Section: Methodsmentioning

confidence: 99%

Preparation and filtration performance of the circular weft-knitted seamless weft-insertion fabric materials

Tian

Jiang

Gao

2019

Journal of Industrial Textiles

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“…1 was determined to be 68±1%. For an all-polyester warp-knitted 3-D spacer fabric of 3.1 mm thickness and an areal density of 491 g/m 2 , a porosity value of nearly 88% was reported by Rajan et al[26]. The air permeability of a fabric depends on structural factors such as surface finish of fabric, stitch density, thickness and type of spacer yarns while macroscopically, the number and size of pores affect the airflow through the structure.…”

mentioning

confidence: 95%

“…Apparel or technical fabric, it is very likely that they will undergo some mechanical impacts which will affect the fabric wear and lifetime. Therefore, wear resistance of the fabrics should be investigated together with comfort properties [25,26]. For textile structures, either apparel or technical, their fabric performance is as much important as their underlying smart behaviour, such as piezoelectric behaviour in this case.…”

Section: Introductionmentioning

confidence: 99%

“…However, the fabric may still need to be in contact or closely located to the human body in applications such as shoe insole. Again, for such applications, the comfort properties of 3-D fabrics are as important as the functionally.The porosity of the spacer fabric itself is dictated by factors such as loop length, stitch density, thickness and structure of the fabric and consequently controls the permeability and thermophysiological properties[26]. For the 3-D piezoelectric spacer textile, the porosity, as evaluated by using Eq.…”

mentioning

confidence: 99%

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Evaluating the fabric performance and antibacterial properties of 3-D piezoelectric spacer fabric

Bayramol

Soin

Dubey

et al. 2018

The Journal of The Textile Institute

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Evaluating the fabric performance and anti-bacterial properties of 3-D piezoelectric spacer fabric The increasing need of on-demand power for enabling portable low-power devices and sensors has necessitated work in novel energy harvesting materials and devices. In a recent work (Soin et al., Energy Environ. Sci. 2014, 7(5), 1670), we demonstrated the production and suitability of 3-D spacer all fibre piezoelectric textiles for converting mechanical energy into electrical energy for wearable and technical applications. The current work investigates the textile performance properties of these 3-D piezoelectric fabrics including porosity, air permeability, water vapour transmission and bursting strength. Furthermore, as these textiles are intended for wearable applications, we have assessed their wear abrasion and consequently provide surface resistance measurements which can affect the lifetime and efficiency of charge collection in the piezoelectric textile structures. The results show that the novel smart fabric with a measured porosity of 68% had good air (1855 l/m 2 /s) and water vapour permeability (1.34 g/m 2 /day) values, good wear abrasion resistance over 60,000 rotations applied by a load of 12 kPa and bursting strength higher than 2400kPa. Moreover, the antibacterial activity of 3-D piezoelectric fabrics revealed that owing to the use of Ag/PA66 yarns, the textiles exhibit excellent antibacterial activity against not only gram negative bacteria E. coli but they are also capable of killing antibiotic methicillin resistant bacteria S. aureus.

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“…Warp-knitted spacer fabrics have a special three-dimensional (3D) structure, which makes them suitable for a wide range of applications, including for clothing, shoe material, cushion applications, filter material, as well as medical and health care products. Their utility is enhanced by virtue of their excellent water vapor permeability, compressive elasticity, sound insulation, and overall structural moldability [1][2][3]. Although warp-knitted spacer fabrics constitute a recent development as far as knitting technology is concerned, they have become popular materials for current research and development.…”

Section: Introductionmentioning

confidence: 99%

Three-Dimensional Deformation of Warp-Knitted Spacer Fabrics Under Tensile Loading

Sun

Miao

King

et al. 2019

Autex Research Journal

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This paper puts forward a new method for measuring the three-dimensional deformation of warp-knitted spacer fabrics under tensile stress. The three-dimensional deformation mechanisms of warp-knitted spacer fabrics have been analyzed using stress–strain curves. Poisson’s ratio of the three-dimensional deformation has also been analyzed. The stress–strain curves obtained for tests in the warp-ward direction and weft-ward direction show a characteristic initial large deformation, followed by minimal-to-no deformation. The stress–strain curves obtained for tests in the thickness direction exhibit different characteristics due to the differences in stretch directions. In the weft-ward direction, the curve shows an approximate linear change with minimal strain. In the warp-wise direction, the curve shows a large stress with small strain, and subsequently, a small stress yielded a large strain. During the stretching process, the surface deformation perpendicular to the direction of tensile force is greater than the tensile deformation, and the deformation in the thickness direction is also minimal compared to that in the direction of the tensile deformation.

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Comfort properties of functional warp-knitted polyester spacer fabrics for shoe insole applications

Cited by 48 publications

References 22 publications

Preparation and filtration performance of the circular weft-knitted seamless weft-insertion fabric materials

Preparation and filtration performance of the circular weft-knitted seamless weft-insertion fabric materials

Evaluating the fabric performance and antibacterial properties of 3-D piezoelectric spacer fabric

Three-Dimensional Deformation of Warp-Knitted Spacer Fabrics Under Tensile Loading

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