ISO 9886:2004. Ergonomics. Evaluation of thermal strain by physiological measurements. International Organisation for Standardisation Organisation, Geneva, 2004.
2.
EpsteinYMoranDS. Thermal comfort and the heat stress indices. Ind Health2006; 44: 388–398.
3.
ParsonsK. Human thermal environments, 2nd ed. London: Taylor & Francis, 2003.
4.
BrakeDJBatesGP. A valid method for comparing rational and empirical heat stress indices. Ann Occup Hyg2002; 46: 165–174.
5.
ACGIH (American Conference of Governmental Industrial Hygienists). 2013 TLVs® and BEIs®: based on the documentation of the threshold limit values for chemical substances and physical agents & biological exposure indices, Cincinnati, OH: ACGIH, 2013.
6.
ChanAPCYamMCHChungJWYYiW. Developing a heat stress model for construction workers. J Facil Manage2012; 10: 59–74.
7.
ChanAPCYiWChanDWMWongDP. Using the Thermal Work Limit (TWL) as an environmental determinant of heat stress for construction workers. J Manage Eng2013; 29: 414–423.
8.
Yi W, Chan APC, Wang X and Wang J. Development of an early-warning system for site work in hot and humid environment. Autom Constr 2016; 62: 101--103. DOI: 10.1016/j.autcon.2015.11.003.
Chan APC, Guo YP, Wong FKW, Li Y, Sun S and Han X. The development of anti-heat stress clothing for construction workers in hot and humid weather. Ergonomics 2015. Published online 3 November 2015. DOI: 10.1080/00140139.2015.1098733.
11.
YazdiMMSheikhzadehM. Personal cooling garments: a review. J Text Inst2014; 105: 1231–1250.
