This report discusses the construction techniques, testing methods, and explosion test data collected for the pumpable cementitious seals; the seal, stopping, and overcast designs for the Australian program; and the Packsetter preloaded solid-concrete-block seal.
This report discusses the construction techniques, testing methods, and explosion test data collected for the pumpable cementitious seals; the seal, s...
Eric S. Weiss Kenneth L. Cashdollar Samuel P. Hartei
The National Institute for Occupational Safety and Health (NIOSH) and the Mine Safety and Health Administration (MSHA) conducted joint research to evaluate explosion blast effects on typical U.S. mine ventilation stoppings in the NIOSH Pittsburgh Research Laboratory's (PRL) Lake Lynn Experimental Mine (LLEM). An innovative Australian-designed brattice stopping was also evaluated. NIOSH findings and recommendations are detailed.
The National Institute for Occupational Safety and Health (NIOSH) and the Mine Safety and Health Administration (MSHA) conducted joint research to eva...
The National Mining Association and the Mine safety and Health Administration requested that the National Institute for Occupational Safety and Health (NIOSH) conduct full-scale evaluations of a recently developed carbon fiber-reinforced polymer (CFRP) reinforcement technique for upgrading existing mine ventilation seals to withstand an explosion pressure of 50 psi or greater. The evaluation was conducted in the NIOSH Pittsburgh Research Laboratory's Lake Lynn Experimental Mine (LLEM). The purpose of the evaluation was to determine the blast resistance of the CFRP reinforcement technique,...
The National Mining Association and the Mine safety and Health Administration requested that the National Institute for Occupational Safety and Health...
This report presents nearly all structural data available from explosion tests of 20-psi mine ventilation seals and concrete-block ventilation stoppings that were conducted by the NIOSH during 1997-2008. Although the seals tested were designed to meet the former federal 20-psi pressure design standard, the structural information contained herein on these seal tests will facilitate the analysis and design of coal mine seals that meet the new explosion pressure criteria of 50 and 120 psi as set forth in the Mine safety and health Administration's final rule on "Sealing of Abandoned Areas."
This report presents nearly all structural data available from explosion tests of 20-psi mine ventilation seals and concrete-block ventilation stoppin...
Kenneth L. Cashdollar Eric S. Weiss Samuel P. Harteis
At the request of the Mine safety and Health Administration (MSHA) and the West Virginia Office of Miners' Health, Safety, and Training, the NIOSH's Pittsburgh Research Laboratory evaluated the effects of explosions on specific mine ventilation seals at its Lake Lynn Experimental Mine to assist the agencies in their investigations of the explosion at the Sago Mine in West Virginia, which occurred on January 2, 2006. Six full-scale explosion tests were conducted to help answer questions regarding possible scenarios for the Sago explosion. NIOSH's findings and recommendations are documented...
At the request of the Mine safety and Health Administration (MSHA) and the West Virginia Office of Miners' Health, Safety, and Training, the NIOSH's P...
