A Simple Method for the Prediction of the Detonation Performances of Metal-Containing Explosives

Abstract: Accurate prediction to the detonation performances of different kinds of energetic materials has attracted significant attention in the area of high energy density materials (HEDMs). A common approach for the estimation of CHNO explosives is the Kamlet-Jacobs (K-J) equation. However, with the development of energetic materials, the components of explosives are no longer restricted to CHNO elements. In this study, we have extended the K-J equation to the calculation of certain metal-containing explosives. A new… Show more

“…The detonation pressure P and detonation velocity D of compound 1 were calculated to be 35.32 GPa and 8.47 km s À1 by means of KamletJacobs equations (Table S2, Supporting Information). [13] As hypothesized, the high strain energy fixed in the 3D MOF-based energetic materiali sr eleased as extra energy during the detonation.…”

A Highly Energetic N‐Rich Metal–Organic Framework as a New High‐Energy‐Density Material

“…The detonation pressure P and detonation velocity D of compound 1 were calculated to be 35.32 GPa and 8.47 km s À1 by means of KamletJacobs equations (Table S2, Supporting Information). [13] As hypothesized, the high strain energy fixed in the 3D MOF-based energetic materiali sr eleased as extra energy during the detonation.…”

A Highly Energetic N‐Rich Metal–Organic Framework as a New High‐Energy‐Density Material

“…. , and detonation pressure (P) are pivotal parameters for energetic CPs. On the basis of the largest exothermic principle proposed by Kamlet-Jacobs (K-J) [37], We employed a widely used empirical method [38,39] proposed by Pang and coworkers [40] to investigate the detonation properties of metal-containing energetic CPs. The detonation reactions of CP 1 and 2 are described by Equation S5, 6, and the detonation properties are calculated by K-J equations (see Supporting Information).…”

Self-assembled energetic coordination polymers based on multidentate pentazole cyclo-N5−

“…According to the order of H 2 O, CO 2 , C in forming detonation products [57], the detonation reactions of 1-6 were listed as follows: The calculated values of E det and E det are listed in Table 4. The results show that the H det of compounds 1-6 are obviously higher than that of the classic explosives, such as TNT (1.22 kcal g −1 ) and RDX (1.44 kcal g −1 ) [58].…”

A new family of insensitive energetic copolymers composed of nitro and nitrogen-rich energy components: Structure, physicochemical property and density functional theory