Development of composite materials for non-leaded glove for use in radiological hand protection

Doodoo-Amoo, David Nii.

January 2002

Thesis (Ph. D.)--University of Texas at Austin, 2002. / Vita. Includes bibliographical references. Available also from UMI Company.

Design and Evaluation of Workwear for Protection Against Steam and Hot Water

Yu, Sihong

Unknown Date

No description available.

protective clothing

design process

steam and hot water

Footwear for cold environments : thermal properties, performance and testing /

Kuklane, Kalev.

January 1900

Diss. (sammanfattning) Luleå : Univ., 2000. / Härtill 10 uppsatser.

Development of an instrumented dynamic mannequin test to rate the protection provided by protective clothing

Sipe, Joel Edwards.

January 2004

Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: Navy Clothing and Textile Research Facility; firefighers clothing; fire protection. Includes bibliographical references (p. 105-109).

The analysis and evaluation of nuclear decay schemes for use in radiation shielding and other applications

Evangelides, George

January 1988

No description available.

613

Use of physiological and perceptual dimensions of clothing comfort to evaluate nonwoven protective fabrics through wear testing of limited-use coveralls

Hennessey, Ann M.

12 November 1999

The purpose of this research was to identify nonwoven protective fabrics designed to have improved comfort properties over a fabric currently used in limited-use chemical protective clothing by using physiological and perceptual dimensions of comfort. Fabrics that are both waterproof and breathable have potential for use in chemical protective clothing by repelling liquid while allowing the diffusion of moisture vapor from the body. Microporous laminated fabrics used in chemical protective clothing allow moisture to evaporate from the body and move through the fabric while preventing liquid chemicals from coming in contact with the skin. Five fabric types were evaluated by wear testing coveralls and measuring selected physiological and perceptual responses of five subjects performing moderate-intensity exercise in thermoneutral and hot, humid environments. Physiological responses included skin temperature, body temperature, heart rate, sweat rate, and fluid loss. Perceptual responses included moisture sensation, thermal sensation, Rating of Perceived Exertion, and overall comfort. In the thermoneutral environment, results show heart rate to be the only variable affected by the different fabric types, while time effect was significant within all dependent variables. In the hot, humid environment, skin and body temperatures were significantly affected by fabric type, while time effect was significant within all variables except skin temperature. The environment effect was significant within all dependent variables except RPE and heart rate. Based on the statistical insignificance of subjects' overall comfort responses in both environments, it can be said that the differences in the physical characteristics of the fabrics may not be great enough to affect the wearer's comfort level. However, two of the four fabrics were determined to have potential for further investigation. Further research comparing experimental fabrics with fabrics used widely in industry will continue the effort of improving the comfort of limited-use protective clothing. / Master of Science

Fabric

Clothing comfort

Heat Stress

Protective clothing

An Investigation into the Effects of Chemical Protective Clothing on Team Process Performance

Grugle, Nancy Lynn

12 May 2001

Chemical protective clothing is designed to protect the worker by providing a barrier between the individual and the contaminated environment. Unfortunately, the same equipment that is designed to help can often cause heat stress, reduced task efficiency, and reduced range-of-motion for the worker. Teams as well as individuals suffer from these effects resulting in difficulty communicating, increased task completion time, and reduced productivity. Studies investigating the effects of protective clothing generally focus on individuals; however, the military has produced research related to the effects of Mission Oriented Protective Posture (MOPP) on team performance outcomes in an attempt to understand how protective clothing might affect military teams and squads. Previous research has indicated a degradation of team performance as shown by increased task completion time; however, a comprehensive team performance measurement system studies not only the performance outcomes, but also the processes behind the outcomes. In order to provide a more complete understanding of the performance effects of protective clothing and equipment, this investigation focused on the effects of MOPP on the behavioral processes underlying team performance to include adaptability, communication, and coordination. It also attempted to validate previous studies on performance outcomes. Ten subjects formed five, two-member teams. Subjects were certified EMT's from local rescue squads and were required to perform CPR and spinal injury management (SIM). They performed each task twice-once in their duty uniform and once in MOPP level 4. Team performance was measured using the TARGETS methodology, and event-based team process performance measurement technique. A team performance index score (TPI) was calculated for each team for all four tasks and then used as the dependent measure for the analyses to compare team performance in a duty uniform versus performance in MOPP 4. Three hypotheses were tested in this study. They were as follows: team process performance will be degraded by MOPP, task completion time will increase as a result of wearing MOPP, and errors will increase as a result of wearing MOPP. Results of six primary analyses indicated that team process performance was not degraded and the number of errors did not increase when teams were wearing MOPP 4. Results did show, however, that task completion time was significantly longer when teams were wearing MOPP 4. The implications of these results are discussed in the thesis and design changes are put forth. / Master of Science

chemical protective clothing

MOPP

team process performance

Laboratory evaluation of a water ice vest

Yang, Shiuan Kuang

January 2011

Typescript (photocopy). / Digitized by Kansas Correctional Industries

Body temperature--Regulation

Temperature--Physiological effect

Protective clothing

Experimental Analysis of Self-injury With and Without Protective Equipment

Le, Duy D. (Duy Dang)

12 1900

Outcomes of experimental analyses during which protective equipment (PE) was placed on three participants were compared to those during which PE was not provided to them. Experimental analysis conditions were presented using a multielement format, and the effects of PE were evaluated using a withdrawal design. Results of experimental analysis without PE suggested that self-injurious behavior (SIB) was maintained by negative reinforcement for two participants and nonsocial mechanisms for the third participant. However, SIB was eliminated either immediately or eventually for all participants when PE was provided during experimental analysis. Thus, outcomes of assessments with PE did not match those without PE, and no conclusion about variables associated with SIB could be drawn from experimental analyses with PE alone. Therefore, the present findings do not support the use of PE as an alternative to standard methods for conducting experimental analysis (i.e., without PE).

protective equipment

self-injury

Self-injurious behavior.

Protective clothing.

Thermal insulation values and permeability indexes of selected work clothing worn in hot industrial environments

Blakeslee, Emily J

January 2011

Typescript (photocopy). / Digitized by Kansas Correctional Industries

Work clothes

Protective clothing