Standardizing a Pre-treatment Cleaning Procedure and Effects of Application                 on Apparel Fabrics

Gore, Shani E.; Laing, R. M.; Wilson, Cheryl A.; Carr, Debra J.; Niven, Brian E.

doi:10.1177/0040517506063391

Cited by 52 publications

(45 citation statements)

References 10 publications

(6 reference statements)

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“…The garments were made from knit fabrics, with the fibre reported as 76% nylon and 24% elastane. Relevant fabric properties are given in Table 1, as determined from samples cut (British Standards Institution 1999) from new CG tops that had been pre-treated with six wash cycles (procedure 8A; International Organization for Standardization 2000a) to stabilise the fabric (Gore et al 2006). Fabrics were conditioned for 24 h in a controlled standard environment (20 ± 2°C and 65 ± 4% RH; International Organization for Standardization 2005), and tested in a relaxed state in that same environment.…”

Section: Preliminary Procedures and Garment Informationmentioning

confidence: 99%

Pressure and coverage effects of sporting compression garments on cardiovascular function, thermoregulatory function, and exercise performance

et al. 2011

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Sporting compression garments (CG) are used widely during exercise despite little evidence of benefits. The purpose of this study was to investigate coverage and pressure effects of full-body CG on cardiovascular and thermoregulatory function at rest and during prolonged exercise, and on exercise performance. Twelve recreationally trained male cyclists [mean (SD) age, 26 (7) years; VO(2 max), 53 (8) mL kg(-1) min(-1)] completed three sessions (counterbalanced order), wearing either correctly-sized CG (CSG; 11-15 mmHg), over-sized CG (OSG; 8-13 mmHg), or gym shorts (CONT). Test sessions were conducted in temperate conditions [24 (1)°C, 60 (4)% relative humidity; ~2 m s(-1) air velocity during exercise], consisting of resting on a chair then on a cycle ergometer, before 60-min fixed-load cycling at ~65% VO(2 max) and a 6-km time trial. Wearing CG (CSG or OSG) did not mitigate cardiovascular strain during mild orthostatic stress at rest (p = 0.20-0.93 for garment effects). During exercise, cardiac output was ~5% higher in the CG conditions (p < 0.05), which appears to be accounted for via non-significant higher end-exercise heart rate (~4-7%, p = 0.30; p = 0.06 for greater heart rate drift in CSG); other cardiovascular variables, including stroke volume, were similar among conditions (p = 0.23-0.91). Covered-skin temperature was higher in CG conditions (p < 0.001) but core (oesophageal) temperature was not (p = 0.79). Time-trial performance (mean power, time taken) was similar with or without CG (p = 0.24-0.44). In conclusion, any demonstrable physiological or psychophysical effects of full-body CG were mild and seemingly reflective more of surface coverage than pressure. No benefit was evident for exercise performance.

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Section: Preliminary Procedures and Garment Informationmentioning

confidence: 99%

Pressure and coverage effects of sporting compression garments on cardiovascular function, thermoregulatory function, and exercise performance

et al. 2011

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“…The first laundering cycle leads to the maximum change in the physical parameters such as weight, thickness, fabric sett, stretch and recovery properties and dimensional stability, whereas the fabrics subjected to 6 laundering cycles are considered to be the most stable [18,[20][21][22]. This deterioration of properties is a great concern to the manufacturers, retailers and consumers.…”

Section: Introductionmentioning

confidence: 99%

Effect of repeated laundering and Dry-cleaning on the thermo-physiological comfort properties of aramid fabrics

et al. 2016

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This research investigated the effect of repeated laundering and dry-cleaning on the physical and thermophysiological comfort properties such as air permeability, water vapour resistance and thermal resistance of fabrics made of meta-aramid (Nomex ® ) fibre. Two different types of fabric were selected for the study and subjected to repeated laundering and dry-cleaning (1, 5 and 10 cycles), which is commercially used for the care and maintenance of these fabrics. The fabric thickness, areal density, thermal resistance and water vapour resistance values increased with the number of laundering cycles, whereas the air permeability decreased due to the fabric shrinkage and swelling. On the other hand, the thickness and air permeability of the dry-cleaned fabric samples increased with the number of cycles; while the water vapour resistance and thermal resistance decreased. The scanning electron microscopy images showed the structural changes as indicated by the longitudinal fibrillation in the fabrics subjected to laundering or dry-cleaning.

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“…Once an item of apparel is manufactured from fabric, it is subject to increasing levels of degradation from environmental and use factors (Slater, 1986;Guoping and Slater, 1990). The major causes of fabric and apparel degradation include abrasion, extension, light (including ultraviolet light and daylight), weathering, temperature and relative humidity variations, ozone, atmospheric oxygen, wind, microbial and insect attack, dust, dry-cleaning, laundering, ironing, perspiration, water (fresh, sea, chlorinated) and chemicals (organic solvents, acids, alkalis and salts) (Dweltz and Sparrow, 1978;Warfield and Stone, 1979;Slater, 1986Slater, , 1991Morton and Hearle, 1993;Gore et al, 2006;Kemp et al, 2009). The mechanical properties of fabric and apparel change with laundering.…”

Section: Fabric Degradationmentioning

confidence: 99%

“…The mechanical properties of fabric and apparel change with laundering. Similarly, washing will alter appearance and interactions with liquids (Sund and King, 1983;Slater, 1986;Gore et al, 2006) (Figs. 6.1a,b).…”

Section: Fabric Degradationmentioning

confidence: 99%

Fibres and Textiles

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2012

Forensic Biomechanics

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Standardizing a Pre-treatment Cleaning Procedure and Effects of Application on Apparel Fabrics

Cited by 52 publications

References 10 publications

Pressure and coverage effects of sporting compression garments on cardiovascular function, thermoregulatory function, and exercise performance

Pressure and coverage effects of sporting compression garments on cardiovascular function, thermoregulatory function, and exercise performance

Effect of repeated laundering and Dry-cleaning on the thermo-physiological comfort properties of aramid fabrics

Fibres and Textiles

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