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氮化硼含量对现场混装乳化炸药爆炸性能的影响OA

Effect of Boron Nitride Content on the Explosion Performance of On-Site Mixed Emulsion Explosives

中文摘要英文摘要

为研究氮化硼(BN)含量对现场混装乳化炸药爆炸性能的影响,通过透射电镜和光学显微镜表征、铁板实验测试、空中爆炸测试、探针法和铅柱压缩法,观测了炸药的微观形貌,测定了含 BN 现场混装乳化炸药的热感度、冲击波参数、爆速及猛度,结合理论计算,系统研究了BN 含量对炸药微观结构、热感度和爆炸性能的影响.测试结果表明,BN 的加入未显著影响内相液滴的稳定性.在240℃下,炸药样品的爆发延滞期从114.28 s(空白样品)延长至173.95 s(含 1.2%h-BN).随着 BN 的质量分数从零增至 1.6%,爆速、猛度、峰值超压、比冲量均呈现先增后减的变化趋势:爆速由 3 850.45 m/s 增至 4 724.89 m/s 随后降至 3 903.20 m/s,最大增幅为 22.71%;猛度由 13.86 mm 增至 19.87 mm 后降至 17.18 mm,最大增幅为 43.36%;峰值超压由 136.44 kPa 增至 318.33 kPa 后降至 285.41 kPa,最大增幅为 133.31%;比冲量由 9.23 Pa·s 增至 33.98 Pa·s后降至 31.99 Pa·s,最大增幅为 268.15%.研究表明,引入适量 BN 可显著提升现场混装乳化炸药的爆炸性能.

To investigate the effect of boron nitride(BN)content on the explosion performance of on-site mixed emulsion explosives,the microstructure of BN-containing on-site mixed emulsion explosives were characterized by transmission electron microscopy and optical microscopy,and the thermal sensitivity,shock wave parameters,detonation velocity,and brisance of explosives were measured through steel plate tests,air explosion tests,the probe method,and lead cylinder compression tests.Combined with theoretical calculations,the influence of BN content on the microstructure,thermal sensitivity,and explosion perfor-mance of explosives was systematically studied.The test results indicate that the addition of BN does not significantly affect the stability of the internal phase droplets.At 240℃,the explosion delay time of the explosive samples increased from 114.28 s(blank sample)to 173.95 s(1.2%h-BN).As the mass fraction of BN increased from 0 to 1.6%,the detonation velocity,brisance,peak overpressure and specific impulse exhibited a trend of increase followed by decrease.The detonation velocity increased from 3 850.45 m/s to 4 724.89 m/s,and then decreased to 3 903.20 m/s,with a maximum increase of 22.71%;the brisance first increased from 13.86 mm to 19.87 mm,and then decreased to 17.18 mm,with a maximum increase of 43.36%;the peak overpressure increased from 136.44 kPa to 318.33 kPa,and then decreased to 285.41 kPa,with a maximum increase of 133.31%;the specific impulse increased from 9.23 Pa·s to 33.98 Pa·s,and then decreased to 31.99 Pa·s,with a maximum increase of 268.15%.The study demonstrates that the incorporation of an appropriate amount of BN can significantly enhance the explosion performance of site-mixed emulsion explosives.

符家坤;刘锋;朱正德;陈传彬

安徽理工大学化工与爆破学院,安徽 淮南 232001安徽理工大学化工与爆破学院,安徽 淮南 232001安徽理工大学化工与爆破学院,安徽 淮南 232001安徽理工大学化工与爆破学院,安徽 淮南 232001

数理科学

现场混装乳化炸药氮化硼爆速猛度空中爆炸

on-site mixed emulsion explosivesboron nitridedetonation velocitybrisanceair blast

《高压物理学报》 2026 (5)

94-111,18

国家自然科学基金(51134012)

10.11858/gywlxb.20251223

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