Clothing air gaps in various postures in firefighters' work

Evaluation of the Station Uniform for Firefighters by Anthropometric Method on the Basis of the Physico-mechanical Properties of the Material

PDF) Investigation of the Contribution of Garment Design to Thermal Protection. Part 1: Characterizing Air Gaps using Three-dimensional Body Scanning for Women's Protective Clothing

Simon ANNAHEIM, Scientific Groupleader, PhD Human Movement Sciences, Empa - Swiss Federal Laboratories for Materials Science and Technology, Dübendorf, Empa, Laboratory for Protection and Physiology

Heat-flux profiles on skin surface with different air gaps for a 3 s

Schematic of TPP tester for flame exposure (a) with and (b) without air

Evaluation of the Station Uniform for Firefighters by Anthropometric Method on the Basis of the Physico-mechanical Properties of the Material

PDF) Potential and challenges of high-speed (4D) body scanning for mobility analysis of firefighter clothing

Outside and inside temperatures of each layer (shell, moisture barrier

Distribution of air gap thickness and spatial heterogeneity in the

Numerical simulation of the influence of fabric's motion on protective clothing performance during flash fire exposure

PDF) Impact of Clothing Size on Thermal Insulation – A Pilot Study

Outer shell, moisture barrier, and thermal liner garments tested for