期刊,防务技术 2024年卷8期_国家学术搜索

期刊信息/Journal information

防务技术

主　　编：朱荣桂

出版周期：季刊

国际刊号：2214-9147

电子邮箱：bgxbywk@tom.com

电　　话：010-68963060

邮政编码：100089

地　　址：北京市海淀区车道沟10号（北京2431信箱）

防务技术/Journal Defence TechnologyCSCDCSTPCD北大核心EISCI

查看更多>>本刊以反映我国兵工战线科学技术的最新成果为主要特色，主要内容为兵器科学技术基础理论研究、试验技术与研究、工程制造技术与研究等。

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Synthesis and characterization of a 1,3-dibutylimidazolium azide([BBIm][N3]):A promising green energetic ionic liquid

Nawel MatmatAmir AbdelazizDjalal TracheAchour Sabrina...

1-15页

查看更多>>摘要：In the pursuit of advancing imidazolium-based energetic ionic liquids(EILs),the current study is devoted to the synthesis and characterization of 1,3-dibutyl-imidazolium azide([BBIm][N3]),as a novel member in this ionic liquids class.The chemical structure of this EIL was rigorously characterized and confirmed using FTIR spectroscopy,1D,and 2D-NMR analyses.The thermal behavior assessment was conducted through DSC and TGA experiments.DSC analysis revealed an endothermic glass transition at Tg=-61 ℃,followed by an exothermic degradation event at Tonset=311 ℃.Similarly,TGA thermograms exhibited a one-stage decomposition process resulting in 100％mass loss of the sample.Furthermore,the short-term thermal stability of the azide EIL was investigated by combining the non-isothermal TGA data with the TAS,it-KAS,and VYA/CE isoconversional kinetic approaches.Consequently,the Arrhenius parameters(Ea=154 kJ·mol-1,Log(A/s-1))=11.8)and the most probable reaction model g(a)were determined.The observed high decomposition temperatures and the significantly elevated activation energy affirm the enhanced thermal stability of the modified EIL.These findings revealed that[BBIm][N3]EIL can be a promising candidate for advanced energetic material application.

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Multifunctional HDPE/Cu biocidal nanocomposites for MEX additive manufactured parts:Perspectives for the defense industry

Nectarios VidakisNikolaos MichailidisMarkos PetousisNektarios K.Nasikas...

16-32页

查看更多>>摘要：In this study,we investigated the performance improvement caused by the addition of copper(Cu)nanoparticles to high-density polyethylene(HDPE)matrix material.Composite materials,with filler percentages of 0.0,2.0,4.0,6.0,8.0,and 10.0 wt％were synthesized through the material extrusion(MEX)3D printing technique.The synthesized nanocomposite filaments were utilized for the manufacturing of specimens suitable for the experimental procedure that followed.Hence,we were able to systematically investigate their tensile,flexural,impact,and microhardness properties through various mechanical tests that were conducted according to the corresponding standards.Broadband Dielectric Spectroscopy was used to investigate the electrical/dielectric properties of the composites.Moreover,by employing means of Raman spectroscopy and thermogravimetric analysis(TGA)we were also able to further investigate their vibrational,structural,and thermal properties.Concomitantly,means of scanning electron micro-scopy(SEM),as well as atomic force microscopy(AFM),were used for the examination of the morphological and structural characteristics of the synthesized specimens,while energy-dispersive X-ray spectroscopy(EDS)was also performed in order to receive a more detailed picture on the structural characteristics of the various synthesized composites.The corresponding nanomaterials were also assessed for their antibacterial properties regarding Staphylococcus aureus(S.aureus)and Escheiichia coli(E.coli)with the assistance of a method named screening agar well diffusion.The results showed that the mechanical properties of HDPE benefited from the utilization of Cu as a filler,as they showed a notable improvement.The specimen of HDPE/Cu 4.0 wt％was the one that presented the highest levels of reinforcement in four out of the seven tested mechanical properties(for example,it exhibited a 36.7％improvement in the flexural strength,compared to the pure matrix).At the same time,the nano-composites were efficient against the S.aureus bacterium and less efficient against the E.coli bacterium.The use of such multi-functional,robust nanocomposites in MEX 3D printing is positively impacting applications in various fields,most notably in the defense and security sectors.The latter becomes increasingly important if one takes into account that most firearms encompass various polymeric parts that require robustness and improved mechanical properties,while at the same time keeping the risk of spreading various infectious microorganisms at a bare minimum.

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A review of ultra-high temperature heat-resistant energetic materials

Rongzheng ZhangYuangang XuFeng YangPengcheng Wang...

33-57页

查看更多>>摘要：Heat-resistant energetic materials refer to a type of energetic materials that possess a high melting point,high stability and operational safety.By studying the structures of these energetic materials has showed that the thermal stability can be enhanced by introducing amino groups to form intra/inter-molecular hydrogen bonds,constructing conjugate systems and designing symmetrical structures.This article aims to review the physical and chemical properties of ultra-high temperature heat-resistant energetic compounds and provide valuable theoretical insights for the preparation of ultra-high temperature heat-resistant energetic materials.We also analyze the selected 20 heat-resistant energetic materials with decomposition temperatures higher than 350 ℃,serving as templates for the synthesis of various high-performance heat-resistant energetic materials.

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Fluorinated semi-interpenetrating polymer networks for enhancing the mechanical performance and storage stability of polymer-bonded explosives by controlling curing and phase separation rates

Chao DengHuihui LiuYongping BaiZhen Hu...

58-66页

查看更多>>摘要：Herein,the effect of fluoropolymer binders on the properties of polymer-bonded explosives(PBXs)was comprehensively investigated.To this end,fluorinated semi-interpenetrating polymer networks(semi-IPNs)were prepared using different catalyst amounts(denoted as F23-CLF-30-D).The involved curing and phase separation processes were monitored using Fourier-transform infrared spectroscopy,differ-ential scanning calorimetry,a haze meter and a rheometer.Curing rate constant and activation energy were calculated using a theoretical model and numerical method,respectively.Results revealed that owing to its co-continuous micro-phase separation structure,the F23-CLF-30-D3 semi-IPN exhibited considerably higher tensile strength and elongation at break than pure fluororubber F2314 and the F23-CLF-30-DO semi-IPN because the phase separation and curing rates matched in the initial stage of curing.An arc Brazilian test revealed that F23-CLF-30-D-based composites used as mock materials for PBXs exhibited excellent mechanical performance and storage stability.Thus,the matched curing and phase separation rates play a crucial role during the fabrication of high-performance semi-IPNs;these factors can be feasibly controlled using an appropriate catalyst amount.

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Preparation and combustion properties of laminated sticks of B-CuO and B-Bi2O3

Haoyu SongChenyang LiFubing GaoChongwei An...

67-74页

查看更多>>摘要：To explore the composite process of B-CuO and B-Bi2O3 two-component laminated sticks,obtain the corresponding sticks with good printing effect,and explore the energy release behavior.In this study,boron,copper oxide,and bismuth trioxide powders were dispersed in the dispersed phase(DMF)using F2602 as a binder,and the construction of two-component B-CuO,B-Bi2O3,three-component micro-composite,and three-component macro-composite sticks were realized with the help of double nozzle direct ink writing(DIW)technique respectively.The resulting sticks were ignited by a nichrome wire energized with a direct current,and a high-speed camera system was used to record the combustion behavior of the sticks,mark the flame position,and calculate the rate of ignition.The results showed that the B-CuO stick burning rate(42.11 mm·s-1)was much higher than that of B-Bi2O3(17.84 mm·s-1).The formulation with the highest CuO content(ωCuO=58.7％)in the microscale composite of the sticks also had the fastest burning rate of 60.59 mm·s-1,as the CuO content decreased(ωCuO=43.5％,29.3％),its burning rate decreased to 34.78 mm·s-1,37.97 mm·s-1.The stick with the highest copper oxide content(ωCuO=60％)also possessed the highest burning rate(48.84 mm·s-1)in the macro-composite sticks,and the burning rates of the macro-composite sticks with component spacing of 0.1 mm,0.2 mm,and 0.5 mm were 43.34 mm·s-1,48.84 mm·s-1,and 40.76 mm·s-1.

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Programming molecular switches in water and ethanol via thermo-sensitive polymers for phase control in energetic crystals

Xinru YangYushi WenCongmei LinFeiyan Gong...

75-88页

查看更多>>摘要：The practical application of energetic materials,particularly 2,4,6,8,10,12-hexanitro-2,4,6,8,10,12-hexaazaisowurtzitane(CL-20),is frequently impeded by phase transition challenges.In this study,we propose a novel strategy to enhance the stability of CL-20 by employing a thermo-sensitive polymer,poly(N-isopropylacrylamide)(PNIPAM),to modulate its phase transitions.Our approach involves the use of an in-situ polymerized polydopamine(PDA)shell as a platform for surface grafting through atom transfer radical polymerization,yielding a core-shell structured CL-20@PDA-PNIPAM.Through comprehensive characterization,the successful grafting of PNIPAM is confirmed,significantly enhanced the phase stability of CL-20.Notably,our core-shell structure exhibits a 13 ℃ increase in phase transition temperature compared to raw CL-20,thereby delaying the ε→α phase transition by over 80 min under combined thermal and solvent conditions.The enhanced stability is attributed to the hydrophobic nature of PNIPAM above its low critical solution temperature in water,which effectively shields the CL-20 crystal.These findings provide new insights into enhancing the stability and safety of energetic mate-rials in complex environments,highlighting the potential of our molecular switch mechanism.

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High-speed tracked vehicle model order reduction for static and dynamic simulations

Luca DimauroSimone VenturiniAntonio TotaEnrico Galvagno...

89-110页

查看更多>>摘要：In this paper,a model order reduction strategy is adopted for the static and dynamic behaviour simu-lation of a high-speed tracked vehicle.The total number of degree of freedom of the structure is condensed through a selection of interface degrees of freedom and significant global mode shapes,for an approximated description of vehicle dynamic behaviour.The methodology is implemented in a cus-tomised open-source software to reduce the computational efforts.The modelled tracked vehicle in-cludes the sprung mass,the unsprung masses,connected by means of torsional bars,and all the track assemblies,composing the track chain.The proposed research activity presents a comprehensive investigation of the influence of the track chain,combined with longitudinal vehicle speed,on statics and vehicle dynamics,focusing on vertical dynamics.The vehicle response has been investigated both in frequency and time domain.In this last case road-wheel displacements are assumed as inputs for the model,under different working conditions,hence considering several road profiles with different am-plitudes and characteristic excitation frequencies.Simulation results have proven a high fidelity in model order reduction approach and a significant contribution of the track chain in the global dynamic behaviour of the tracked vehicle.

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维普

Determination method of mesh size for numerical simulation of blast load in near-ground detonation

Doudou SiZuanfeng PanHaipeng Zhang

111-125页

查看更多>>摘要：In order to improve the overall resilience of the urban infrastructures,it is required to conduct blast resistant design for important building structures in the city.For complex terrain in the city,it is rec-ommended to determine the blast load on the structures via numerical simulation.Since the mesh size of the numerical model highly depends on the explosion scenario,there is no generally applicable approach for the mesh size selection.An efficient method to determine the mesh size of the numerical model of near-ground detonation based on explosion scenarios is proposed in this study.The effect of mesh size on the propagation of blast wave under different explosive weights was studied,and the correlations between the mesh size effect and the charge weight or the scaled distance was described.Based on the principle of the finite element method and Hopkinson-Cranz scaling law,a mesh size measurement unit related to the explosive weight was proposed as the criterion for determining the mesh size in the numerical simulation.Finally,the applicability of the method proposed in this paper was verified by comparing the results from numerical simulation and the explosion tests and was verified in AUTODYN.

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维普

Selection of shaped charges parameters for producing aluminum particles with velocities in the range of 2.5-16 km/s

Vladimir I.KolpakovSergey V.FedorovEkaterina P.VinogradovaIrina A.Bolotina...

126-135页

查看更多>>摘要：Testing rocket and space technology objects in ground conditions for resistance to the impact of me-teoroids and fragments of space debris can be carried out using shaped charges.To substantiate the design parameters of shaped charges that ensure the formation of aluminum particles in a wide velocity range(from 2.5 to 16 km/s),numerical modeling of the formation process was carried out within the framework of a two-dimensional axisymmetric problem of continuum mechanics using three different computing codes to increase the reliability of the results.The calculations consider shaped charges with a diameter of 20-100 mm with aluminum liners of various shapes.It is shown that the formation of particles with velocities close to the lower limit of the considered range is ensured by gently sloping segmental liners of degressive thickness.To form higher-velocity particles with velocities over 5 km/s,it is proposed to use combined liners,the jet-forming part of which has the shape of a hemisphere of constant thickness or the shape of a semi-ellipsoid or semi-superellipsoid of rotation of degressive thickness.

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Kinematic-mapping-model-guided analysis and optimization of 2-PSS&1-RR circular-rail parallel mechanism for fully steerable phased array antennas

Guodong TanXiangfei MengXuechao DuanLulu Cheng...

136-154页

查看更多>>摘要：This paper presents a systematic methodology for analyzing and optimizing an innovative antenna mount designed for phased array antennas,implemented through a novel 2-PSS&1-RR circular-rail parallel mechanism.Initially,a comparative motion analysis between the 3D model of the mount and its full-scale prototype is conducted to validate effectiveness.Given the inherent complexity,a kinematic mapping model is established between the mount and the crank-slider linkage,providing a guiding framework for subsequent analysis and optimization.Guided by this model,feasible inverse and forward solutions are derived,enabling precise identification of stiffness singularities.The concept of singularity distance is thus introduced to reflect the structural stiffness of the mount.Subsequently,also guided by the mapping model,a heuristic algorithm incorporating two backtracking procedures is developed to reduce the mount's mass.Additionally,a parametric finite-element model is employed to explore the relation between singularity distance and structural stiffness.The results indicate a significant reduction(about 16％)in the antenna mount's mass through the developed algorithm,while highlighting the singularity distance as an effective stiffness indicator for this type of antenna mount.

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万方数据
维普