@inproceedings{nagavalli_hummel_akyildiz_morton-aslanis_barker_2016, title={Advanced layering system and design for the increased thermal protection of wildland fire shelters}, volume={1593}, DOI={10.1520/stp159320160014}, booktitle={American society for testing and materials special technical}, author={Nagavalli, A. and Hummel, A. and Akyildiz, H. I. and Morton-Aslanis, J. and Barker, R.}, year={2016}, pages={102–116} }
 @misc{mcquerry_denhartog_barker_hummel_2016, title={Alternative Methodologies for Determining the Impact of Clothing Ventilation in Structural Firefighter Turnout Suits}, volume={1593}, ISBN={["978-0-8031-7631-7"]}, ISSN={["0066-0558"]}, url={http://dx.doi.org/10.1520/STP159320160003}, DOI={10.1520/stp159320160003}, journal={Performance of Protective Clothing and Equipment: 10<sup>th</sup>Volume, Risk Reduction Through Research and Testing}, publisher={ASTM International}, author={McQuerry, Meredith and DenHartog, Emiel and Barker, Roger and Hummel, Alex}, year={2016}, month={Sep}, pages={313–330} }
 @article{hummel_watson_barker_2016, title={Comparisons of Two Test Methods for Evaluating the Radiant Protective Performance of Wildland Firefighter Protective Clothing Materials}, volume={1593}, ISBN={["978-0-8031-7631-7"]}, ISSN={["0066-0558"]}, DOI={10.1520/stp159320160012}, journal={PERFORMANCE OF PROTECTIVE CLOTHING AND EQUIPMENT, 10TH VOL: RISK REDUCTION THROUGH RESEARCH AND TESTING}, author={Hummel, Alex and Watson, Kyle and Barker, Roger}, year={2016}, pages={178–194} }
 @article{hummel_barker_lyons_2014, title={Skin Burn Translation Model for Evaluating Hand Protection in Flash Fire Exposures}, volume={50}, ISSN={["1572-8099"]}, DOI={10.1007/s10694-013-0336-7}, number={5}, journal={FIRE TECHNOLOGY}, author={Hummel, Alexander and Barker, Roger and Lyons, Kevin}, year={2014}, month={Sep}, pages={1285–1299} }
 @article{hummel_barker_lyons_deaton_morton-aslanis_2012, title={Developing a Thermal Sensor for Use in the Fingers of the PyroHands Fire Test System}, volume={1544}, ISSN={["0066-0558"]}, DOI={10.1520/stp104207}, abstractNote={This paper describes a thermal sensor developed for use in the fingers of the PyroHands Fire Test System. The PyroHands Fire Test System measures the thermal protective performance of gloves in laboratory controlled flash fire exposures. The development of the finger sensor presented several challenges; the first was that it required that a small thermal sensor fit into the finger of an anthropometrically designed hand. It was also important to ensure that the thermal sensor accurately measured heat flux incident on the finger. This required showing that the unidirectional heat flux measured by the sensor was unaffected by heat impinging on the sides and back of the finger. An experimental study was conducted in order to investigate the effects of lateral heating on sensor operation. Additional verification of the thermal sensor was provided via the use of computer-aided design models to predict the temperature rise beneath gloves during PyroHands tests.}, journal={PERFORMANCE OF PROTECTIVE CLOTHING AND EQUIPMENT, 9TH VOL: EMERGING ISSUES AND TECHNOLOGIES}, author={Hummel, Alexander and Barker, Roger and Lyons, Kevin and Deaton, A. Shawn and Morton-Aslanis, John}, year={2012}, pages={176–187} }
 @article{hummel_barker_lyons_deaton_morton-aslanis_2011, title={Development of Instrumented Manikin Hands for Characterizing the Thermal Protective Performance of Gloves in Flash Fire Exposures}, volume={47}, ISSN={["0015-2684"]}, DOI={10.1007/s10694-010-0190-9}, number={3}, journal={FIRE TECHNOLOGY}, author={Hummel, Alexander and Barker, Roger and Lyons, Kevin and Deaton, A. Shawn and Morton-Aslanis, John}, year={2011}, month={Jul}, pages={615–629} }