Predicting Mechanical Properties and Hand Values from the Parameters of Weave Structures

Morino, Hitomi; Matsudaira, Mitsuo; Furutani, Minoru

doi:10.1177/004051750507500311

Cited by 38 publications

(38 citation statements)

References 8 publications

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“…There is, however, no direct study to correlate the firmness factor and the ballistic resistance of a woven architecture, which requires some modifications to the calculation to address the importance of the contact area between yarns. In a recent study, Morino et al [27] proposed to correlate the cross-over firmness factor (CFF) and floating yarn factor (FYF), which are calculated based on the interlacements and floats of warp and weft yarns to the mechanical properties of the fabric. The CFF and FYF parameters are defined as: where the cross-over line is defined as the place at which the warp/weft yarn changes from over to under the weft/warp yarn.…”

Section: Firmness Factor Of the Woven Fabric Structuresmentioning

confidence: 99%

Influences of weaving architectures on the impact resistance of multi-layer fabrics

2015

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Section: Firmness Factor Of the Woven Fabric Structuresmentioning

confidence: 99%

Influences of weaving architectures on the impact resistance of multi-layer fabrics

2015

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“…Another method of psychophysical research attempts to connect multiple physical properties with single psychological descriptors, usually through a linear regression method (Chen et al 1992;Cardello et al 2003;Morino et al 2005;Yukari Tanaka 2008;Sztandera et al 2013;Zhang et al 2014). Most of these studies build relations to psychological sensations from multiple defined indexes of the same type of physical property.…”

Section: Practical Applicationsmentioning

confidence: 99%

Psychophysical Relations between Interacted Fabric Thermal‐Tactile Properties and Psychological Touch Perceptions

Liao

et al. 2016

Journal of Sensory Studies

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Touch sensation perception includes three processes – physical, neurophysiological and psychological. Psychophysical relationships that bridge physical and psychological results have varied. Meanwhile, interactive effects of thermal‐tactile physical features have seldom been investigated. Therefore, this study aims to compare various hypothesized psychophysical relations, including monomode relations between single stimuli and single sensations, as well as multimode relations between multistimuli and sensory dimensions. Potential simultaneous effects from thermal‐tactile factors and their interactions are also explored. This study uses physical data, obtained from a simultaneous measurement instrument Fabric Touch Tester, and psychological data collected from over 200 subjects. The results imply that a universal psychophysical function relation can hardly be achieved. Different neural stimulation mechanisms seem to be better presented by dissimilar function relations. It is also found that thermal and tactile physical information can simultaneously affect all defined sensory dimensions – including smoothness, softness and warmth. Interaction effects from multistimuli are also concluded to be important predictors. Practical Applications Study of the relationship between psychological touch sensations and fabric physical properties has always been an attractive field in textile sensory research. Along with the increased demands on the touch comfort of clothing, precise quantitative characterization methods are eagerly needed in industry. A number of approaches have been proposed during past studies, including psychophysical laws and stepwise‐box‐linear regression. However, these resolutions focused on tactile properties and mechanical sensations only. Although the latest neurophysiological findings have enlarged the scope of thermal‐tactile properties, there is still a lack of investigation into interactive effects of both thermal and tactile properties. This work provides comparison studies on different types of psychophysical relations and particularly explores the interactive effects of multiple physical aspects. Proposed psychophysical relations are concluded with satisfied correlation coefficients to the subjective sensations. Such interactive multimode psychophysical relations could be used to advance current prediction models with stronger connections to neurophysiological perception mechanisms.

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“…Again, Newton found Hamilton's method is unable to determine the tightness of tow poplin fabric because of high K 1 /K 2 values. Hamilton's value show lower values for tighter fabrics became its major limitation in use [10,60,62].…”

Section: Limitations and Possibilities Of Weave Structuresmentioning

confidence: 99%

“…The weave factors FYF and CFF belong to Peirce group and like all the factors of this group, they do not take into account an interlacing of adjacent threads [60]. …”

Section: Limitations and Possibilities Of Weave Structuresmentioning

confidence: 99%

A Review on Different Factors of Woven Fabrics’ Strength Prediction

Hossain¹

2016

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Abstract:There are different fabric manufacturing methods like weaving, knitting, non-woven and braiding. Among them woven fabric shows good dimensional stability and good cover. One of the most important characteristics of woven fabric is strength. Strength is also measured in tensile, tearing or bursting strength. But, so many factors are related to the fabric strength like yarn count, twist, fibre fineness, stiffness, fibre density, fabric structure, cover, yarn density, no. of layer, tightness factor and so on. It is very complex to establish a mathematical relation to determine strength considering all these parameters. This paper will make the clear understanding on the factors that directly or indirectly influence the woven fabric's strenght and thus, will be more helpful during further research in woven fabric strenght prediction.

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Predicting Mechanical Properties and Hand Values from the Parameters of Weave Structures

Cited by 38 publications

References 8 publications

Influences of weaving architectures on the impact resistance of multi-layer fabrics

Influences of weaving architectures on the impact resistance of multi-layer fabrics

Psychophysical Relations between Interacted Fabric Thermal‐Tactile Properties and Psychological Touch Perceptions

A Review on Different Factors of Woven Fabrics’ Strength Prediction

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