T. P. Liddiard scite author profile

Samples of triaminotrinitrobenzene (TATB), a well-known explosive, were taken to the brink of ignition by either underwater shock or impact and were investigated for the generation of hot spots. SEM was used for detecting, locating, and measuring the size of the hot spot remnants. These were found to be tiny ragged holes in the explosive with a fine deposit of debris near them. By use of XPS, a specially surface-sensitive technique, it was found that the debris consisted of furoxan and furazan derivatives of TATB produced from its decomposition. The furoxans are far more sensitive than TATB and constitute sensitization centers where reaction can easily restart during handling of the explosive. The hot spot sites were of micron size for the impacted samples and an order of magnitude smaller for the underwater-shocked samples.

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Compaction of Porous Beds

Sandusky

Elban

Liddiard

1984

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Hugoniot Equations of State of Several Unreacted Explosives

Coleburn¹,

Liddiard²

1966

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The Small Scale Gap Test: Calibration and Comparison With the Large Scale Gap Test

Price¹,

Liddiard²

1966

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The Shock-to-Detonation Transition in Solid Explosives

Jacobs¹,

Liddiard²,

Drimmer³

1963

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T. P. Liddiard

The physical and chemical nature of sensitization centers left from hot spots caused in triaminotrinitrobenzene by shock or impact

Compaction of Porous Beds

Hugoniot Equations of State of Several Unreacted Explosives

The Small Scale Gap Test: Calibration and Comparison With the Large Scale Gap Test

The Shock-to-Detonation Transition in Solid Explosives

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