References
- Aksoy, A., & Kaplan, S. (2013). Production and performance analysis of an antibacterial foot sweat pad. Fibers and Polymers, 14, 316–323. doi:10.1007/s12221-013-0316-z
- Aslan, S., Kaplan, S., Ulusoy, S., & Oral., A. (2014, September). An Investigation About Antibacterial Sweat Pads Modified by Biopolymers. Proceedings of 2. International Congress on Healthcare and Medical Textiles, Izmir, Turkey.
- ASTM D 1388-14e1. Standard test method for stiffness of fabrics .
- Bertaux, E., Derler, S., Rossi, R. M., Zeng, X., Koehl, L., & Ventenat, V. (2010). Textile, physiological, and sensorial parameters in sock comfort. Textile Research Journal, 80, 1803–1810. doi:10.1177/0040517510369409
- Boutboul, N., Boutboul, I., & Boutboul, M. (1998). Patent No. 5,790,982. North Miami Beach, Florida: United States Patent.
- Cameron, B. A., Brown, D. M., Dallas, M. J., & Brandt, B. (1997). Effect of natural and synthetic fibers and film and moisture content on stratum corneum hydration in an occlusive system. Textile Research Journal, 67, 585–592. doi:10.1177/004051759706700806
- Covill, D., Guan, Z. W., Bailey, M., Raval, H. (2010). Development of thermal models of footwear using finite element analysis. Journal of Engineering in Medicine, 225, 268–281. doi:10.1243/09544119JEIM860
- EDANA ERT 30.5-(99). (2002). In EDANA (European Disposable & Nonwovens Association) recommended test methods document (pp. 33–38). Brussels, Belgium.
- Gorham, M. (1985). Patent No. 4,545, 080. Knoxville, Tenessee: United States Patent.
- Gravetter, F. J., & Wallnau, L. B. (2008). Statistics for the behavioral sciences. Wadsworth.
- Hole, L. G. (1973). Sweat disposal from footwear and health and hygiene of foot skin. Journal of the Society Cosmetic Chemists, 24, 43–63.
- Irzmanska, E., Dutkiewicz, J. K., & Irzmanski, R. (2014). New approach to assessing comfort of use of protective footwear with a textile liner and its impact on foot physiology. Textile Research Journal, 84, 728–738. doi:10.1177/0040517513507362
- ISO 6330. (2012). Textiles – Domestic washing and drying procedures for textile testing. Geneva: ISO, Switzerland.
- Kaplan, S., & Aslan, S. (2015, September). Subjective wear trials to asses thermal comfort of the foot clothing system including a sweat pad. 5. International Istanbul Textile Congress, Istanbul, Turkey.
- Kaplan, S., & Okur, A. (2009). Determination of coolness and dampness sensations created by fabrics by forearm test and fabric measurements. Journal of Sensory Studies, 24, 479–497. doi:10.1111/j.1745-459X.2009.00222.x
- Kuklane, K. (1999). Footwear for cold environments, thermal properties, performance and testing ( PhD thesis). Lulea University of Technology, Sweden.
- Kuklane, K. (2009). Protection of feet in cold exposure. Industrial Health, 47, 242–253.10.2486/indhealth.47.242
- Kuklane, K., Geng, Q., & Holmer, I. (1997). Thermal effects of steel toe caps in footwear. International Journal of Industrial Ergonomics, 23, 431–438. doi:10.1016/S0169-8141(97)00074-7
- Laing, R. M., Wilson, C. A., Dunn, L. A., & Niven, B. E. (2015). Detection of fiber effects on skin health of the human foot. Textile Research Journal, 85, 1849–1863. doi:10.1177/0040517515573413
- Meng, F., Ng, S. F. F., Hui, C. L. P., Li, Y., & Hu, J. Y. (2011). An objective method to characterize moisture management properties of disposable diaper. Textile Research Journal, 81, 1647–1654. doi:10.1177/0040517511407375
- Okur, A. (2002). Study on the frictional properties of plain-knitted cotton fabrics. Textile Asia, 33, 32–34.
- Purvis, A., & Tunstall, H. (2004). Effects of sock type on foot skin temperature and thermal demand during exercise. Ergonomics, 47, 1657–1668. doi:10.1080/00140130412331290880
- Sadıkoğlu, T. G., Berkalp, Ö. B., & Turan, G. (2011). Disposable underarm pad design. Tekstil ve Konfeksiyon, 21, 217–224.
- Yao, L., (2008). Effects of clothing on skin physiology ( PhD thesis). The Hong Kong Polytechnic University, Hong Kong.