Investigation of the Friction Coefficient of Seersucker Woven Fabrics

Fracczak, Lukasz; Matusiak, Małgorzata; Zgórniak, P.

doi:10.5604/01.3001.0013.0740

Cited by 11 publications

(16 citation statements)

References 16 publications

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“…Different methods and testing devices are applied for measurement of the surface friction and roughness of textile fabrics. The surface friction is measured either by pulling a block of mass over a fl at rigid surface covered with the fabric being tested or by using the inclined plane [5]. FrictorQ is an instrument developed at the University of Minho (Portugal), which measures the surface friction of textile materials [6].…”

Section: Introductionmentioning

confidence: 99%

“…As mentioned earlier, the KES measurement method is commonly accepted and widely applied. However, some problems can arise while measuring the surface properties of patterned fabrics characterized by unconventional topography, as discussed in some previous papers [5,7]. Seersucker woven fabrics are examples of such unconventional textile structures.…”

Section: Introductionmentioning

confidence: 99%

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Surface Characteristics of Seersucker Woven Fabrics

Matusiak

Bajzík

2021

Autex Research Journal

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The surface characteristics of fabrics are important from the point of view of the sensorial comfort of clothing users. Surface friction and surface roughness are the most important surface parameters of fabrics. These parameters can be measured using different methods, the most important and well-accepted method being that using the Kawabata evaluation system (KES)-FB4 testing instrument. In this work, the surface roughness and surface friction of the seersucker woven fabric have been determined using the KES-FB4. However, the measurement procedure needs modification. On the basis of the results, the influence of the repeat of the seersucker effect and the linear density of the weft yarn on the surface parameters has been determined.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Surface Characteristics of Seersucker Woven Fabrics

Matusiak

Bajzík

2021

Autex Research Journal

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“…In the next work, Fracczak et al [11] investigated additionally the friction between the seersucker woven fabrics and cowhide leather simulating the human skin. They applied a cuboid that was placed on the fabric and attached with a lightweight and non-stretchable cord to the force sensor.…”

Section: Introductionmentioning

confidence: 99%

“…Thanks to the rigid attachment of one end, the fabric remained motionless and the cuboid slid on its surface. During the movement, the sensor measured a value of force with which the cuboid was pulled [11].…”

Section: Introductionmentioning

confidence: 99%

Influence of the Structure of Seersucker Woven Fabrics on their Friction Properties

Fracczak

Matusiak

2021

Autex Research Journal

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Friction is defined as a force resisting a relative motion between two bodies in contact. The friction of a fabric on itself or on another fabric influences significantly a fabric’s performance and user’s utility comfort, especially the so-called sensorial comfort. Generally, the coefficient of friction is determined for a given pair of materials. The aim of the present work was to investigate the influence of the structure of the seersucker woven fabrics on their frictional properties. Three variants of the seersucker woven fabrics of different repeat of the seersucker effect were the objects of the investigations. Three measuring elements were applied: made of aluminum and steel and covered with silicone. The obtained results confirmed the influence of the pattern of the seersucker effect on the values of friction coefficient. It was also stated that there are differences between the friction coefficients measured in the warp and weft directions of the seersucker woven fabrics. Values of friction coefficient between the seersucker woven fabrics and measuring elements were the highest for the measuring element covered by silicone. These values were several times higher than the values of friction coefficient measured using the measuring elements made of aluminum and steel.

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“…Generally, two principal techniques are employed for the estimation of fabric friction [20][21][22]. In the first technique, an object with the mass 'm' slides on a polymer fabric to determine both the dynamic and static friction of the fabric: F µ dynamic = , (1) mg where "F" denotes the applied force, "µ dynamic " is the friction constant, "g" represents the gravitational accel eration constant, "m" is the mass of the sliding body.…”

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confidence: 99%

TiAlN coatings tribology for textile machinery parts

Antonov¹,

Goljandin²,

Hussain³

et al. 2021

PEAS

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Wear, erosion, chemical corrosion, and fatigue have caused operational problems in textile manufacturing and recycling industries [1,2]. Shredding, spinning, weaving, and finishing are the main operational manufacturing processes [3]. These processes reflect the quality and performance of cotton fabric products [4]. Additionally, the mechanical components, tools, and machinery parts require smooth surface, high wear resistance, and an optimized coefficient of friction (COF) for this kind of manufacturing [5][6][7][8]. Such growing requirements demand innovations and development of new coatings [9]. Usually, diamondlike carbon (DLC) coatings, nitrogen based coatings (TiAlN/TiCN/TiN), carbonbased coatings (SiC/WC/VC), thinfilm oxide (Al 2 O 3 /Cr 2 O 3 /ZrO 2 ) coatings, and boride coatings are introduced for investi gations of tribological properties [10-12]. The development and demand for new materials with controlled proper ties are a growing need for the current age [13]. These materials allow better wear and corrosion resistance to textile machinery components and tools [14]. The appli cation of the abovementioned materials as a coating on textile machinery parts enhances both the service life of the parts and the quality of textile products [15]. Metal matrix ceramics composites (MMCs) are also important materials for the components of textile and manufacturing machinery. The coatings of these materials improve the

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Investigation of the Friction Coefficient of Seersucker Woven Fabrics

Cited by 11 publications

References 16 publications

Surface Characteristics of Seersucker Woven Fabrics

Surface Characteristics of Seersucker Woven Fabrics

Influence of the Structure of Seersucker Woven Fabrics on their Friction Properties

TiAlN coatings tribology for textile machinery parts

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