Base Hydrolysis of HMX and HMX-Based Plastic-Bonded Explosives with Sodium Hydroxide between 100 and 155 °C

Bishop, Robert L.; Flesner, R.L.; Dell`Orco, P.C.; Spontarelli, T.; Larson, S.A.; Bell, David A.

doi:10.1021/ie980522b

Cited by 15 publications

(20 citation statements)

References 11 publications

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“…Hoffsommer and co-workers (16) reported that RDX degradation in alkaline medium was initiated by a single denitration step to first form pentahydro-3,5-dinitro-1,3,5-triazacyclohex-1-ene (II), which then hydrolyzed further leading to rapid ring cleavage and decomposition. While only a few studies have been conducted with HMX, it has been shown that HMX undergoes alkaline hydrolysis at a slower rate than RDX (17,18), to give a product distribution (NO2 -, N2O, NH3, N2, and HCOOH) similar to that obtained with RDX (19). The polycyclic nitramine 2,4,6,8,-10,12-hexanitro-2,4,6,8,10,12-hexaazaisowurtzitane (CL- 20) has only recently been synthesized (20,21).…”

Section: Introductionmentioning

confidence: 93%

“…Therefore, if other cyclic nitramines such as MNX (hexahydro-1-nitroso-3,5-dinitro-1,3,5-triazine), HMX, and CL-20 produce end products similar to those of RDX, then their decomposition mechanisms should also be similar (18,19). Hence, our objective in the present study was to provide additional insight into the degradation pathways of these cyclic nitramines by first determining whether RDX, HMX, MNX, and CL-20 hydrolyzed in aqueous, alkaline (pH 10) conditions to produce similar end products.…”

Section: Introductionmentioning

confidence: 99%

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Alkaline Hydrolysis of the Cyclic Nitramine Explosives RDX, HMX, and CL-20: New Insights into Degradation Pathways Obtained by the Observation of Novel Intermediates

Balakrishnan

Halasz

Hawari

2003

Environ. Sci. Technol.

177

192

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Hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX, I) and octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine (HMX) hydrolyze at pH > 10 to form end products including NO2-, HCHO, HCOOH, NH3, and N2O, but little information is available on intermediates, apart from the tentatively identified pentahydro-3,5-dinitro-1,3,5-triazacyclohex-1-ene (II). Despite suggestions that RDX and HMX contaminated groundwater could be economically treated via alkaline hydrolysis, the optimization of such a process requires more detailed knowledge of intermediates and degradation pathways. In this study, we hydrolyzed the monocyclic nitramines RDX, MNX (hexahydro-1-nitroso-3,5-dinitro-1,3,5-triazine), and HMX in aqueous solution (pH 10-12.3) and found that nitramine removal was accompanied by formation of 1 molar equiv of nitrite and the accumulation of the key ring cleavage product 4-nitro-2,4-diazabutanal (4-NDAB, O2NNHCH2NHCHO). Most of the remaining C and N content of RDX, MNX, and HMX was found in HCHO, N2O, HCOOH, and NH3. Consequently, we selected RDX as a model compound and hydrolyzed it in aqueous acetonitrile solutions (pH 12.3) in the presence and absence of hydroxypropyl-beta-cyclodextrin (HP-beta-CD) to explore other early intermediates in more detail. We observed a transient LC-MS peak with a [M-H] at 192 Da that was tentatively identified as 4,6-dinitro-2,4,6-triaza-hexanal (O2NNHCH2NNO2CH2NHCHO, III) considered as the hydrolyzed product of II. In addition, we detected another novel intermediate with a [M-H] at 148 Da that was tentatively identified as a hydrolyzed product of III, namely, 5-hydroxy-4-nitro-2,4-diaza-pentanal (HOCH2NNO2CH2NHCHO, IV). Both III and IV can act as precursors to 4-NDAB. In the case of the polycyclic nitramine 2,4,6,8,10,12-hexanitro-2,4,6,8,10,12-hexaazaisowurtzitane (CL-20), denitration (two NO2-) also led to the formation of HCOOH, NH3, and N2O, but neither HCHO nor 4-NDAB were detected. The results provide strong evidence that initial denitration of cyclic nitramines in water is sufficient to cause ring cleavage followed by spontaneous decomposition to form the final products.

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Section: Introductionmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Alkaline Hydrolysis of the Cyclic Nitramine Explosives RDX, HMX, and CL-20: New Insights into Degradation Pathways Obtained by the Observation of Novel Intermediates

Balakrishnan

Halasz

Hawari

2003

Environ. Sci. Technol.

177

192

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“…4,6-Dinitro-2,4,6-triazahexanal and 5-hydroxy-4-nitro-2,4-diaza-pentanal were identified as by-products leading to the formation of the ring cleavage product 4-nitro-2,4-diazabutanal. The efficacy of alkaline hydrolysis may be enhanced with an increase in reaction temperature [51][52][53][54], however, thermal runaway may occur at temperatures greater then 120 °C [53].…”

Section: Hydrolysismentioning

confidence: 99%

Soils contaminated with explosives: Environmental fate and evaluation of state-of-the-art remediation processes (IUPAC Technical Report)

Kalderis

Juhasz

Boopathy

et al. 2011

Pure and Applied Chemistry

154

143

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An explosion occurs when a large amount of energy is suddenly released. This energy may come from an over-pressurized steam boiler, from the products of a chemical reaction involving explosive materials, or from a nuclear reaction that is uncontrolled. In order for an explosion to occur, there must be a local accumulation of energy at the site of the explosion, which is suddenly released. This release of energy can be dissipated as blast waves, propulsion of debris, or by the emission of thermal and ionizing radiation.Modern explosives or energetic materials are nitrogen-containing organic compounds with the potential for self-oxidation to small gaseous molecules (N 2 , H 2 O, and CO 2 ). Explosives are classified as primary or secondary based on their susceptibility of initiation. Primary explosives are highly susceptible to initiation and are often used to ignite secondary explosives, such as TNT (2,4,6-trinitrotoluene), RDX (1,3,5-trinitroperhydro-1,3,5-triazine), HMX (1,3,5,7-tetranitro-1,3,5,7-tetrazocane), and tetryl (N-methyl-N-2,4,6-tetranitroaniline).

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“…The by-products resulting from the alkaline hydrolysis of energetic materials could possibly be disposed of directly [8] or can be further treated biologically [10]. Several researchers have investigated the kinetics of the alkaline hydrolysis of nitrated energetic compounds such as RDX, HMX, TNT and nitrocellulose [11][12][13][14][15][16][17]. To date there have been no studies on the kinetics of the alkaline hydrolysis of CL-20.…”

Section: Hniwmentioning

confidence: 99%

Aqueous solubility and alkaline hydrolysis of the novel high explosive hexanitrohexaazaisowurtzitane (CL-20)

Karakaya

Sidhoum

Christodoulatos

et al. 2005

Journal of Hazardous Materials

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Base Hydrolysis of HMX and HMX-Based Plastic-Bonded Explosives with Sodium Hydroxide between 100 and 155 °C

Cited by 15 publications

References 11 publications

Alkaline Hydrolysis of the Cyclic Nitramine Explosives RDX, HMX, and CL-20: New Insights into Degradation Pathways Obtained by the Observation of Novel Intermediates

Alkaline Hydrolysis of the Cyclic Nitramine Explosives RDX, HMX, and CL-20: New Insights into Degradation Pathways Obtained by the Observation of Novel Intermediates

Soils contaminated with explosives: Environmental fate and evaluation of state-of-the-art remediation processes (IUPAC Technical Report)

Aqueous solubility and alkaline hydrolysis of the novel high explosive hexanitrohexaazaisowurtzitane (CL-20)

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