32nd Joint Propulsion Conference and Exhibit 1996
DOI: 10.2514/6.1996-3019
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The processing, properties and use of the pyrotechnic mixture-titanium subhydride/potassium perchlorate

Abstract: The processing, properties and use of the static insensitive pyrotechnic, titanium subhydride/potassium perchlorate are discussed. Development of this pyrotechnic occurred because of the need for a static insensitive material to meet personnel safety requirements and related system safety issues in nuclear weapon energetic material component designs. Titanium subhydride materials are made by the thermal dehydriding of commercial titanium hydride powder to the desired equivalent hydrogen composition in the tita… Show more

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Cited by 13 publications
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“…Keywords: Laser ignition · Pyrotechnics · Thermal ignition theory · Emission spectroscopy bustion. This delay mixture is knowna sagas-less composition [5,7].…”
Section: R Esults and Discussionmentioning
confidence: 99%
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“…Keywords: Laser ignition · Pyrotechnics · Thermal ignition theory · Emission spectroscopy bustion. This delay mixture is knowna sagas-less composition [5,7].…”
Section: R Esults and Discussionmentioning
confidence: 99%
“…Av ariety of pyrotechnic materials have beenu sed as ignition compositions in the past [2].O ft heseo nly as pecific mixture of boron and potassium nitrate( B/KNO 3 )c an be used without interruption of the pyrotechnic chain, according to MilStd1901. This is mainly due to the inherenti nsensitivity of the powder [3].H owever,n ew compositions are continually being investigated.S ome offer higher performance, and may in the future be foundt ob ea ss afe as, or even safer than B/KNO 3 .O ne example is am ixture of titanium sub hydride and potassium perchlorate with af lame temperature of about 3500 K [ 4] comparedt o 2800 Kp roducedb yB /KNO 3 .T he electro-static sensitivity of titanium sub-hydride composition has also been studied [5] and found to be less sensitivet han the NSI (NASA Standard Initiator)w hich employs ac omposition of zirconium and potassium perchlorate.…”
Section: Introductionmentioning
confidence: 99%
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“…Historically, titanium potassium perchlorate (Ti/KClO 4 ) (Massis, 1996) and titanium hydride potassium perchlorate (TiH 2 /KClO 4 ) (Sorensen et al, 2006;Massis et al, 1975) have been extensively studied. More recently, titanium subhydrides (TiH x ) with equivalent hydrogen concentrations of 0.45 < x <1.9 have been used in more applications (Massis, 1996;Collins et al, 1980).…”
Section: Introductionmentioning
confidence: 99%
“…Historically, titanium potassium perchlorate (Ti/KClO 4 ) (Massis, 1996) and titanium hydride potassium perchlorate (TiH 2 /KClO 4 ) (Sorensen et al, 2006;Massis et al, 1975) have been extensively studied. More recently, titanium subhydrides (TiH x ) with equivalent hydrogen concentrations of 0.45 < x <1.9 have been used in more applications (Massis, 1996;Collins et al, 1980). During the late 1980's and coinciding with the powder characterization activities on these subhydrides (Erickson et al, 1986(Erickson et al, , 1989Erickson, 1984;Rogers, Jr. et al, 8 89;Begeal and Stanton, 1982;Baer and Shepherd, 1983), the majority of the burn rate studies on TiH x /KClO 4 were carried out by two sets of researchers.…”
Section: Introductionmentioning
confidence: 99%