1 |
Born, D. P., Holmberg, H. C., Goernert, F., & Sperlich, B. (2014). A novel compression garment with adhesive silicone stripes improves repeated sprint performance-a multi-experimental approach on the underlying mechanisms. BMC Sports Science, Medicine and Rehabilitation, 6(1), 21. doi:10.1186/2052-1847-6-21
DOI
|
2 |
Chou, C., Tochihara, Y., & Kim, T. G. (2008). Physiological and subjective responses to cooling devices on firefighting protective clothing. European Journal of Applied Physiology, 104(2), 369-374. doi:10.1007/s00421-007-0665-7
DOI
|
3 |
Doan, B. K., Kwon, Y. H., & Newton, R. U. (2003). Evaluation of a lower-body compression garment. Journal of Sport Sciences, 21(8), 601-610. doi:10.1080/0264041031000101971
DOI
|
4 |
Eglin, C. M., Coles, S., & Tipton, M. J. (2004). Physiological responses of fire-fighter instructors during training exercises. Ergonomics, 47(5), 483-494. doi:10.1080/0014013031000107568
DOI
|
5 |
Graveling, R., & Hanson, M. (2000). Design of UK firefighter clothing. In: Kuklane, K., Holmer, I (Ed.). Proceedings of Nokobetef, European conference on protective clothing (pp. 277-280). Stockholm : Arbetslivsinstitutet.
|
6 |
Gregory, D. E., Narula, S., Howarth, S. J., Russell, C., & Callaghan J. P. (2008). The effect of fatigue on trunk muscle activation patterns and spine postures during simulated firefighting tasks. Ergonomics, 51(7), 1032-1041. doi:10.1080/00140130701813178
DOI
|
7 |
Holmer, I. (1995). Protective clothing and heat stress. Applied Ergonomics, 38(1), 166-182. doi:10.1080/00140139508925093
DOI
|
8 |
Hooper, A. J., Crawford, J. O., & Thomas, D. (2001). An evaluation of physiological demands and comfort between the use of conventional and lightweight self-contained breathing apparatus. Applied Ergonomics, 32(4), 399-406.
DOI
|
9 |
Im, M. J., Seo, M. J., Park, J. Y., & Kim, Y. I. (2011). Development of the design prototype for funtional men's outdoor-wear jacket. Journal of the Korean Society of Costume, 61(4), 152-168.
|
10 |
Huck. J. (1991). Restriction to movement in firefighter protective clothing: Evaluation of alternative sleeves and liners. Applied Ergonomics, 22(2), 91-100.
DOI
|
11 |
Ishiigaki, M., & Inomata, M. (2007). Evaluation of motion adaptability during dressing/undressing by emg-friction between materials in layered wearing as a factor. Japan Society of Home Economics, 58(9), 569-577. doi:10.11428/jhej.58.569
|
12 |
Iwasaki, K., Oizumi, Y., Fujita, K., & Hiokawa, T. (2006). Relationship between clothes wearing feeling and clothes pressure of aged woman's jacket. Bulletin of the Tokyo Metropolitan Industrial Technology Research Institute, 1, 6-9.
|
13 |
Kim, Y. H. (2002). A functional design of firefighter coveralls. Journal of the Korean Society of Clothing and Textiles, 26(12), 1739-1748.
|
14 |
Kim, Y. H. (2009). Differences of sleeve cap height & circumference on the improvement of arm mobility for female bodice sloperconcentration on the measurement of range-of-motion test method. Journal of the Korean Society of Clothing and Textiles, 33(8), 1181-1189. doi:10.5850/JKSCT.2009.33.8.1181
DOI
|
15 |
McCarthy, L., & Marzo, M. (2012). The application of phase change material in fire fighter protective clothing. Fire Technology, 48(4), 841-864. doi:10.1007/s10694-011-0248-3
DOI
|
16 |
Koo, Y. S. (2011). The effect of compression wear for the sport performance and muscle function. Textile Coloration and Finishing, 23(1), 60-68. doi:10.5764/TCF.2011.23.1.060
DOI
|
17 |
Kim, J. Y., & Kim, H. S. (2014). An analysis on satisfaction of protective clothing for riot policewomen. The Research Journal of the Costume Culture, 22(2), 326-338. doi:10.7741/rjcc.2014.22.2.326
DOI
|
18 |
Kwon, M. S., Shim, H. S., & Kwon, J. (2007). A study on the mechanical and comfort performances of the working uniform for a volunteer fire brigade member. Journal of the Korea Society of Costume, 57(3), 53-62.
|
19 |
Lee, J. Y., Park, J., Park, H., Coca, A., Kim, J. H., Taylor, N. A., ... & Tochihara, Y. (2015). What do firefighters desire from the next generation of personal protective equipment? Outcomes from an international survey. Industrial Health, 53(5), 434-444. doi:10.2486/indhealth.2015-0033
DOI
|
20 |
Malley, K. S., Goldstein, A. M., Aldrich, T. K., Kelly, K. J., Weiden, M., Coplan, N., ... & Prezant, D. J. (1999). Effects of fire fighting uniform (modern, modified modern, and traditional) design changes on exercise duration in New York City firefighters. Journal of Occupational and Environmental Medicine, 41(12), 1104-1115.
DOI
|
21 |
McLellan, T. M., & Selkirk, G. A. (2004). Heat stress while wearing long pants or shorts under firefighting protective clothing. Ergonomics, 47(1), 75-90. doi: 10.1080/00140130310001611125
DOI
|
22 |
Mugie, H., Midden, B. H., Mol, E., & Heus, R. (2014, November). Enprotex magazine, 11-12. https://www.ifv.nl/advieseninnovatie/Documents/Enprotex/Enprotex-Magazine-2.pdf
|
23 |
Nakahashi, M., & Yoshida, I. (1997). The new physiological clothing (2nd ed.). Tokyo: Nankodo.
|
24 |
Son, S. Y., Xia, Y., & Tochihara, Y. (2010). Evaluation of the effects of various clothing conditions on firefighter mobility and the validity of those measurements made. Journal of the Human-Environment System, 13(1), 15-24. doi:10.1618/jhes.13.15
DOI
|
25 |
Nakahashi, M., Murayama, M., Monobe, H., & Ikono, H. (2003). Relationship between wearing time period and moving time quantity of fireman's turnouts based on a scenario of fire. Japan Society of Physical Anthropology, 8(2), 39-45.
|
26 |
Park, J. Y., & Langseth-Schmidt, K. (2016). Anthropometric fit evaluation of firefighters' uniform pants: A sex composition. International Journal of Industrial Ergonomics, 56, 1-8. doi:10.1016/j.ergon.2016.08.011
DOI
|
27 |
Seok, H. J., Kim, I. S., Chung, G. S., Bae, J. H., Kwon, M. S., & Yang, M. J. (2006). A study on the development of working uniform for volunteer fire brigade members. Journal of the Korean Home Economics Association, 44(7), 63-72.
|
28 |
Shimosaka, C., Ishigak,i M., & Inomata, M., (2008a). Evaluation of motion adaptability of clothing of young and elderly women - In the case of layering with different materials. Japan Society of Home Economics, 59(12), 989-998. doi:10.11428/jhej.59.989
|
29 |
Shimosaka, C., Nakada, I., Ishigaki, M., & Inomata, M. (2008b). Ease of sleeve width and motion adaptability of blouses - evaluation by using sensory evaluation clothing pressure and EMG. Japan Society of Home Economics, 59(1), 29-35. doi:10.11428/jhej.59.29
|
30 |
Son, S. Y., Lee, J. Y., & Tochihara, Y. (2013). Occupational stress and strain in relation to personal ptrotective equipment of Japanese firefighters assessed by a questionnaire. Industrial Health, 51(2), 214-444. doi:10.2486/indhealth.2012-0075
DOI
|
31 |
Tamura, T. (2004). The science of clothing environment (1st ed.). Tokyo: Kenpakusha.
|
32 |
Yamato, Y., Kurazumi, T., Ishii, J., Fukagawa, K., Tobita, K., Matsubara, N., & Shibata, Y. (2010). The influence of ease of clothing for human body on the thermal insulation of clothing ensembles. Journal of the Japan Research Association for Textile End-uses, 51(4), 281-292. doi:10.11419/senshoshi.51.4_281
|
33 |
Tochihara, Y., Chou, C., Fujita, M., & Ogawa, T. (2005). Protective clothing-related heat stress on firefighters in Japan (pp. 137-139). In: Holmer, I., Kuklanek, K., Gao, C. (Ed.) Environmental ergonomics XI. Sweden: Lund University.
|
34 |
Troynikove, O., Nawaz, N., & Vu, S. (2012). Evaluation of surface characteristics of inner layer fabrics suitable for structural firefighters' clothing. Textile Research Journal, 82(10), 1014-1025. doi:10.1177/0040517511431312
DOI
|
35 |
Watanabe, K., Nakai, R., Okamura, A., & Ohmura T. (2009). Motion analysis of elderly women's dressing for clothing design. Japan Society of Home Economics, 60(5), 473-480. doi:10.11428/jhej.60.473
|
36 |
Watanabe, S. (2010). Research on heatproof performance of fire protective clothing. Seni Gakkaishi, 66(2), 49-55.
|
37 |
White, M. K., Hodous, T. K., & Hudnall, J. B. (1989). Physiological and subjective responses to working in disposable protective coveralls and respirators commonly used by the asbestos abatement industry. American Industrial Hygiene Association Journal, 50(6), 313-319. doi:10.1080/15298668991374723
DOI
|
38 |
Bakri, I., Lee, J. Y., Nakao, K., Wakabayashi, H., & Thochihara, Y. (2012). Effects of firefighters' self-contained breathing apparatus' weight and its harness design on the physiological and subjective responses. Ergonomics, 55(7), 782-791. doi:10.1080/00140139.2012.663506
DOI
|
39 |
Argus, C. K. (2005). Performance effects of wearing compression garment (SKINS TM) during exercise and recovery. Hamilton: Centre for Sport and Exercise Science, The Waikato Institute of Technology.
|