. . . "Using of the probit analysis for sensitivity tests - sensitivity curve and reliability" . "Univerzita Pardubice" . . . . "978-80-7395-390-4" . "Using of the probit analysis for sensitivity tests - sensitivity curve and reliability"@en . . . "Musil, Tom\u00E1\u0161" . . "Maty\u00E1\u0161, Robert" . . . "Using of the probit analysis for sensitivity tests - sensitivity curve and reliability" . "lead azide; TATP; safety; friction; sensitivity; probit analysis"@en . . "25310" . . "Using of the probit analysis for sensitivity tests - sensitivity curve and reliability"@en . "RIV/00216275:25310/11:39892596" . "[C822243EB824]" . "RIV/00216275:25310/11:39892596!RIV12-MSM-25310___" . "3"^^ . . . . "Proceedings of the 14th Seminar New Trends of Research of Energetic Materials" . . . "3"^^ . . . "\u0160ele\u0161ovsk\u00FD, Jakub" . "The sensitivity of energetic materials is usually evaluated by using a value of initiating stimulus causing the initiation with 50% probability. The better approach is to express the sensitivity in the form of a sensitivity curve. One method of sensitivity curve calculation is a probit analysis. The friction sensitivities of crystalline and dextrinated lead azide are used to explain why is the sensitivity curve better than a single point. Crossing of the obtained sensitivity curves implys the relative sensitivity of these two samples is opposite in different regions of applied friction forces. The reliability of probit analysis is demonstrated for the case of sensitivity of TATP to friction. The same sample was measured by several different operators and the resulting sensitivity curves are in a very narrow interval."@en . "237396" . "2011-04-13+02:00"^^ . "S, Z(MSM0021627501)" . "Pardubice" . . "Pardubice" . . "5"^^ . "The sensitivity of energetic materials is usually evaluated by using a value of initiating stimulus causing the initiation with 50% probability. The better approach is to express the sensitivity in the form of a sensitivity curve. One method of sensitivity curve calculation is a probit analysis. The friction sensitivities of crystalline and dextrinated lead azide are used to explain why is the sensitivity curve better than a single point. Crossing of the obtained sensitivity curves implys the relative sensitivity of these two samples is opposite in different regions of applied friction forces. The reliability of probit analysis is demonstrated for the case of sensitivity of TATP to friction. The same sample was measured by several different operators and the resulting sensitivity curves are in a very narrow interval." . .