Influence of Void Configurations on Hot Spot Temperature in PBXs under Impact Loading

Li, Chun; Ou, Zhuo-Cheng; Duan, Zongshuan; Feng, Hao

doi:10.1002/prep.202000268

Cited by 2 publications

(4 citation statements)

References 35 publications

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“…To obtain the upper and lower limits of the hotspot ignition reaction rate, two extreme cases of voids in explosives are considered: 1) The voids generating the maximum hotspot energy with the same volume; 2) The voids generating the minimum hotspot energy with the same volume. For these two kinds of voids, the hotspot temperatures generated by their collapse under dynamic loading are respectively as [19, 20]:

true T_{h s}^{(1)} = 226 + 4.85 \times 10^{- 8} P_{s} + 0.04 P_{s}^{0.74} S^{0.25},

true T_{h s}^{(2)} = 226 + 4.85 \times 10^{- 8} P_{s} + 3.61 \times 10^{- 3} P_{s}^{0.69} S^{0.16} .

…”

Section: Resultsmentioning

confidence: 99%

“…In the previous analysis [19, 20], we have obtained that, under the same shock strength P s and the same void area S , the hotspot temperature generated by the elliptical void (the elongated state λ =4 and the inclination angle θ =90°) is the smallest, so it can be used as the position parameter T 0 , which can be expressed as:

true T_{0} = 226 + 4.85 \times 10^{- 8} P_{s} + 3.61 \times 10^{- 3} P_{s}^{0.69} S^{0.16} .

…”

Section: Ubiquitiform Model Of Hotspot Intensitymentioning

confidence: 99%

“…Many studies show a clear correlation between internal defects and initiation sensitivity [8–20]. These studies mainly involve the influence of void size and shape on the formation of hotspots.…”

Section: Introductionmentioning

confidence: 99%

“…On the one hand, void size has a strong influence on sensitivity, where larger voids require lower shock pressures to form hotspots [8–14]. On the other hand, void shape and orientation can also have strong effects on initiation sensitivity [15–20], which indicates that the void volume alone does not seem reasonable to characterize the impact sensitivity of PBXs well.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Ubiquitiform Hotspot Ignition Model of PBX for Shock Initiation

Chun

Duan

et al. 2021

Propellants Explo Pyrotec

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In this study, a ubiquitiform hotspot ignition model with cross‐scale characteristics is proposed to describe the ignition stage of PBX, which can account for heterogeneous effects. Firstly, a ubiquitiform model of hotspot intensity is obtained. The model can describe the hotspot information after PBX is impacted. In which, a hotspot distribution model based on the nested ubiquitiform model of explosives is used to characterize geometric properties of hotspot, including the size and location of hotspot; and the Weibull statistical distribution function is used to describe the distribution of hotspot intensity. Then, combining the ubiquitiform model of hotspot intensity with Arrhenius model, the ubiquitiform hotspot ignition model is developed to characterize the ignition stage of PBX. Finally, it is found that the equivalent reaction rate constants calculated by our ignition model are in good agreement with the previous experimental data.

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