Gotowe bibliografie tematyczne / Lead styphnate / Artykuły w czasopismach

Artykuły w czasopismach na temat „Lead styphnate”

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Autor: Grafiati
Data publikacji: 25 lipca 2024
Data aktualizacji: 26 lipca 2024

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1

Payne, J. R. "Thermochemistry of lead styphnate". Thermochimica Acta 242 (sierpień 1994): 13–21. http://dx.doi.org/10.1016/0040-6031(94)85003-8.

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2

Fronabarger, John W., Michael D. Williams, William B. Sanborn, Damon A. Parrish i Magdy Bichay. "KDNP - A Lead Free Replacement for Lead Styphnate". Propellants, Explosives, Pyrotechnics 36, nr 5 (21.09.2011): 459–70. http://dx.doi.org/10.1002/prep.201100055.

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3

Li, Ying, Wen-Yuan Zhao, Zhen-Hao Mi, Li Yang, Zun-Ning Zhou i Tong-Lai Zhang. "Graphene-modified explosive lead styphnate composites". Journal of Thermal Analysis and Calorimetry 124, nr 2 (16.12.2015): 683–91. http://dx.doi.org/10.1007/s10973-015-5138-3.

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4

陈, 太林. "Comprehensive Treatment for Wastewater of Lead Styphnate". Water pollution and treatment 05, nr 01 (2017): 1–5. http://dx.doi.org/10.12677/wpt.2017.51001.

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5

Zhou, Mingrui, Zhimin Li, Zunning Zhou, Tonglai Zhang, Bidong Wu, Li Yang i Jianguo Zhang. "Antistatic Modification of Lead Styphnate and Lead Azide for Surfactant Applications". Propellants, Explosives, Pyrotechnics 38, nr 4 (15.04.2013): 569–76. http://dx.doi.org/10.1002/prep.201300007.

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6

Liu, Jianchao, Yutong Jiang, Wenchao Tong, Tonglai Zhang i Li Yang. "Thermal Kinetic Parameters of Lead Azide and Lead Styphnate with Antistatic Additives". Propellants, Explosives, Pyrotechnics 41, nr 2 (4.09.2015): 267–72. http://dx.doi.org/10.1002/prep.201500138.

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7

Türker, Lemi. "PM3 treatment of lead styphnate and its mono ionic forms". Journal of Molecular Structure: THEOCHEM 681, nr 1-3 (lipiec 2004): 143–47. http://dx.doi.org/10.1016/j.theochem.2004.04.052.

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8

Xue, Yan, Chang Jun Shi, Xiao Ming Ren, Lan Liu i Rui Zhen Xie. "Study of MEMS Based Micropyrotechnic Igniter". Applied Mechanics and Materials 472 (styczeń 2014): 750–55. http://dx.doi.org/10.4028/www.scientific.net/amm.472.750.

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Micro-electro-mechanical system (MEMS) have recently seen their field of application extended to military. This is mainly due to the fact that MEMS technologies present a great to reduce the mass, cost, power consumption, while improving the reliability, performance and smartness. Application of MEMS technology, the micropyrotechnic igniter are produced.The principle is based on the integration of lead styphnate (LTNR) material within a micropyrotechnic igniter, which is produced by MEMS with 3 by 3 micro-igniter. Each igniter contains three parts (the igniter chip, silicon chamber, lead styphnate). One import point is the optimization of the igniter process obtaining Ni-Cr bridges with about 13Ω, which is triggered by electrical power delivered to LTNR. The resistance of Ni-Cr bridges is used to sense the temperature on the LTNR which is in contact. The other one point is the optimization of silicon chamber process obtaining incorporate configuration of micropyrotechnic igniter. The ignition performance of micropyrotechnic igniter array are tested with ignition voltage less than 13V. The experimental results will deeply contribute to the micropyrotechnic system. This paper will discuss all these point.
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9

Lipanov, A. M., i V. D. Golovatenko. "Ignition of lead styphnate by a filament in an explosive attachment". Journal of «Almaz – Antey» Air and Space Defence Corporation, nr 4 (20.01.2021): 69–76. http://dx.doi.org/10.38013/2542-0542-2020-4-69-76.

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10

Szimhardt, Norbert, Maximilian H. H. Wurzenberger, Andreas Beringer, Lena J. Daumann i Jörg Stierstorfer. "Coordination chemistry with 1-methyl-5H-tetrazole: cocrystallization, laser-ignition, lead-free primary explosives – one ligand, three goals". Journal of Materials Chemistry A 5, nr 45 (2017): 23753–65. http://dx.doi.org/10.1039/c7ta07780g.

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Numerous energetic coordination complexes (MnII, FeII, CoII, NiII, CuII, ZnII, and AgI) using 1-methyl-tetrazole as the ligand were synthesized and tuned by different counteranions (e.g. NO3, ClO4, picrate, and styphnate). They show great potential for mechanical or optical initiation systems.
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11

Whelan, Daniel J., Branka Pletikapa i Mark Fitzgerald. "The thermal decomposition of basic lead styphnate RD 1349 at its ignition temperature". Journal of Energetic Materials 7, nr 1-2 (marzec 1989): 133–50. http://dx.doi.org/10.1080/07370658908012563.

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12

Li, Hanjian, Qing Zhou, Hui Ren, Qingjie Jiao, Shujing Du i Guili Yang. "Ignition characteristics of semiconductor bridge based on lead styphnate and lead azide charges under capacitor discharge conditions". Sensors and Actuators A: Physical 241 (kwiecień 2016): 27–33. http://dx.doi.org/10.1016/j.sna.2016.02.006.

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13

Li, Zhi-Min, Ming-Rui Zhou, Tong-Lai Zhang, Jian-Guo Zhang, Li Yang i Zun-Ning Zhou. "The facile synthesis of graphene nanoplatelet–lead styphnate composites and their depressed electrostatic hazards". Journal of Materials Chemistry A 1, nr 41 (2013): 12710. http://dx.doi.org/10.1039/c3ta13177g.

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14

Dvorovenko, N. "The disclosure of domain structure in microcrystals of lead styphnate by the means of irradiation". Solid State Ionics 101-103, nr 1-2 (listopad 1997): 293–97. http://dx.doi.org/10.1016/s0167-2738(97)00362-7.

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15

DVOROVENKO, N. "The disclosure of domain structure in microcrystals of lead styphnate by the means of irradiation". Solid State Ionics 101-103 (listopad 1997): 293–97. http://dx.doi.org/10.1016/s0167-2738(97)84045-3.

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16

Zhao, Shuangfei, Fanyuhui Yan, Peng Zhu, Yong Yang, Huanming Xia, Ruiqi Shen i Yinghua Ye. "Micro‐Segmented Flow Technology Applied for Synthesis and Shape Control of Lead Styphnate Micro‐Particles". Propellants, Explosives, Pyrotechnics 43, nr 3 (19.12.2017): 286–93. http://dx.doi.org/10.1002/prep.201700246.

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17

Ma, Peng, Lin Zhang, Shunguan Zhu, Lei Zhang i Houhe Chen. "Non-plasma ignition of lead styphnate by a semiconductor bridge and its comparison with plasma ignition". Combustion, Explosion, and Shock Waves 47, nr 1 (styczeń 2011): 103–9. http://dx.doi.org/10.1134/s001050821101014x.

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18

Ji, Fangzhou, Haoxiang Yin, Heng Zhang, Yunhong Zhang i Bo Lai. "Treatment of military primary explosives wastewater containing lead styphnate (LS) and lead azide (LA) by mFe 0 -PS-O 3 process". Journal of Cleaner Production 188 (lipiec 2018): 860–70. http://dx.doi.org/10.1016/j.jclepro.2018.04.029.

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19

Yan, Yun-Fan, Jian-Gang Xu, Fei Wen, Yu Zhang, Hong-Yi Bian, Baoyi Li, Ningning Zhang, Fa-Kun Zheng i Guo-Cong Guo. "Sensitive structural motifs separately distributed in azide-based 3D EMOFs: A primary explosive with excellent initiation ability and enhanced stability". Inorganic Chemistry Frontiers, 2022. http://dx.doi.org/10.1039/d2qi01610a.

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Azide-based energetic metal−organic frameworks (EMOFs) with remarkable initiation capability can be expected to replace lead-based primers (lead azide, LA; lead styphnate, LS). However, most of them are not stable enough...
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20

Herweyer, Darren, Jaclyn L. Brusso i Muralee Murugesu. "Modern trends in “Green” primary energetic materials". New Journal of Chemistry, 2021. http://dx.doi.org/10.1039/d1nj01227d.

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The evergrowing demand for cleaner, high-performing energetic materials (EMs) has led to a quest for replacement of currently used toxic metal-based traditional energetic compounds such as lead azide and lead styphnate.
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21

Hosseini, Seyed Ghorban, Hossein Sharifnezhad, Manoochehr Fathollahi, Abdalfarid Abotorabe i Hamid Reza Ghaenii. "Improvement of electrostatic discharge sensitivity of lead styphnate particles using some polymer coating agents". Journal of Energetic Materials, 28.05.2021, 1–12. http://dx.doi.org/10.1080/07370652.2021.1929572.

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22

Tian, Momang, Qian Yu, Yuewen Lu, Ji-Min Han i Li Yang. "Low-temperature structural deformation and fragmentation of lead styphnate by in-situ experiments and calculation". Chemical Engineering Journal, październik 2023, 147030. http://dx.doi.org/10.1016/j.cej.2023.147030.

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23

Lu, Yuewen, Qian Yu, Momang Tian i Li Yang. "Insights into accelerated aging behavior of lead styphnate based on high temperature and high humidity conditions". Journal of Thermal Analysis and Calorimetry, 24.05.2023. http://dx.doi.org/10.1007/s10973-023-12234-w.

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24

Li, Zhimin, Huisheng Huang, Tonglai Zhang, Shengtao Zhang, Jianguo Zhang i Li Yang. "First-principles study of electric field effects on the structure, decomposition mechanism, and stability of crystalline lead styphnate". Journal of Molecular Modeling 20, nr 1 (styczeń 2014). http://dx.doi.org/10.1007/s00894-014-2072-4.

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25

Endrass, Simon, Thomas Klapötke, Marcus Lommel, Joerg Stierstorfer, Martin Weidemann i Melanie Werner. "1‐ and 2‐Tetrazolylacetonitrile as Versatile Ligands for Laser Ignitable Energetic Coordination Compounds". ChemPlusChem, 4.03.2024. http://dx.doi.org/10.1002/cplu.202400031.

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Abstract: 1‐ and 2‐Tetrazolylacetonitrile (1‐ and 2‐TAN) have been synthesized by the reaction of chloroacetonitrile with 1H‐Tetrazole under basic conditions. They further were reacted with sodium azide in the presence of zinc(II) chloride to form 5‐((1H‐tetrazol‐1‐yl)methyl)‐1H‐tetrazole (1‐HTMT) and 5‐((2H‐tetrazol‐2‐yl)methyl)‐1H‐tetrazole (2‐HTMT). The nitrogen‐rich compounds have been applied as ligands for Energetic Coordination Compounds (ECCs) and show interesting coordinative behavior due to different bridging modes. The structural variability of the compounds has been proved by low‐temperature X‐ray analysis. The ECCs were analyzed for their sensitivities to provide information about the safety of handling and their capability to serve as primary explosives in detonator setups to replace the commonly used lead styphnate and azide. All colored ECCs were evaluated for their ignitability by a laser diode in translucent polycarbonate primer caps. In addition, the spin‐crossover characteristics of [Fe(1‐TAN)6](ClO4)2 were highlighted by the measurement of the temperature‐dependent susceptibility curve.
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26

Yang, Tsung‐Mao, Jia‐Tong Lai, Wen‐Hsiang Li, Cheng‐Hsiung Peng, Jin‐Shuh Li i Kai‐Tai Lu. "Study on synthesis and characterization of spherical copper(I) 5‐nitrotetrazolate (DBX‐1)". Propellants, Explosives, Pyrotechnics, 2.11.2023. http://dx.doi.org/10.1002/prep.202300226.

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AbstractTraditional primary explosives often contain heavy metals, especially toxic lead, such as lead azide (LA) and lead styphnate (LS) that can cause environmental pollution problems. Copper(I) 5‐nitrotetrazolate (DBX‐1) is a green primary explosive without toxic heavy metals, which is considered as one of the most promising alternatives to LA. DBX‐1 is usually synthesized from sodium 5‐nitrotetrazolate dihydrate (NaNT ⋅ 2H2O) and copper(I) chloride (CuCl). However, most of the synthesized products are irregular flakes with poor flowability, which affects the loadability. In this study, dextrin was used as a crystal shape modifier to improve the morphology of the synthesized product. Taguchi analysis method was used to determine the optimal experimental conditions for obtaining the spherical DBX‐1 with smaller particle size. The synthesized products were characterized by SEM, FTIR, UV‐Vis, STA TG‐DSC and VST, and their sensitivity was determined by BAM fallhammer, BAM friction tester and electrostatic spark sensitivity tester. The experiment results showed that the optimal combination of synthesis parameters was the NaNT ⋅ 2H2O concentration of 4.4 wt.%, the reaction temperature of 100 °C, the reaction time of 75 min and the additional dextrin solution of 5.0 mL. The average particle size of the synthesized spherical DBX‐1 was 33.0 μm. The decomposition activation energy was calculated by Kissinger method and Ozawa method to be 178.5 and 178.8 kJ/mol, respectively. The compound had good chemical stability. In addition, the sensitivity of spherical DBX‐1 was lower compared to that of flaky DBX‐1 and LA.
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