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造型技术是CAD/CAM的核心技术。本文较详细地介绍了几何造型、壳体造型及特征造型的理论与算法,分析了各种造型方法及形体表示方法的优缺点,最后探讨了造型技术的发展趋势。 相似文献
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《防务技术》2020,16(2):487-492
A well-known ternary plastic explosive, Czech Semtex 1H, contains a mixture of PETN and RDX softened by SBR. In this work, BCHMX was used to replace PETN in Semtex 1H to form Sem-BC+RDX. In addition, another mixture based on BCHMX and HMX as energetic fillers bonded by the polymeric matrix of Semtex 1H (Sem-BC+HMX) was studied. The particle size distribution of each individual explosive was determined to obtain the optimum mixing conditions. Friction and impact sensitivities were determined. The velocity of detonation was reported practically and the detonation properties were calculated by EXPLO5 code. The explosive strength of each sample was measured by the ballistic mortar test. The conclusion confirms that the velocity of detonation of Sem-BC+HMX was the highest in comparison with the prepared samples. Sem-BC+RDX has the least impact and frictions sensitivities. Sem-BC+RDX has higher detonation velocity, detonation properties and explosive strength than Semtex 1H. Addition of BCHMX in Semtex 1H as a replacement for PETN is the candidate to produce a high performance advanced Czech plastic explosive. 相似文献
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根据固体推进剂的细观结构特征,采用等圆最优装载方式生成代表性体积单元(Representative Volume Element,RVE)模型,并结合Voronoi单元有限元方法(Voronoi Cell Finite Element Method,VCFEM)和均匀化方法,发展了一种可预示固体推进剂等效力学性能的数值分析方法,从而得到体分比和组分材料对等效模量和等效泊松比的影响规律。为证明该方法的有效性,设计一个对称数值模型,通过对该方法和传统有限元方法的节点位移结果的比较,发现两者之间的相对误差小于5%,且VCFEM用少量单元就完成了分析,提高了计算效率。通过对不同细观结构下推进剂RVE模型的计算,发现随着夹杂体分比的增大,夹杂的颗粒增强效应越明显,基体材料的变化比夹杂材料对等效力学性能有着更加显著的影响。 相似文献
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复合固体推进剂作为固体火箭发动机的重要能量来源,其力学性能一直是工程领域所关注的重点。聚焦推进剂力学性能表征中的宏观本构模型和细观力学模型,系统梳理了两类模型的发展脉络,明确了模型之间的差异,指出了各种模型的适用条件,分析了现阶段宏、细观力学模型在推进剂力学性能表征中的困难和挑战。以跨尺度力学模型为代表的力学模型的提出,将助力推进剂力学性能表征问题的解决。未来推进剂力学表征建模中的关键是复杂条件下试验研究,重点是发展高精度与高性能的多尺度数值计算方法,以及将以人工智能技术为代表的数据驱动技术融入模型创新中。 相似文献
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《防务技术》2022,18(9):1679-1687
Boron is a very promising and highly attractive fuel because of high calorific value. However, the practical applications in explosives and propellants of boron have been limited by long ignition delay time and low combustion efficiency. Herein, nano-Al and graphene fluoride (GF) as surface activated materials are employed to coat boron (B) particles to improve ignition and combustion performance. The reaction heat of nano-Al coated B/KNO3 and GF coated B/KNO3 are 1116.83 J/g and 862.69 J/g, respectively, which are higher than that of pure B/KNO3 (823.39 J/g). The ignition delay time of B/KNO3 could be reduced through nano-Al coating. The shortest ignition delay time is only 75 ms for B coated with nano-Al of 8 wt%, which is much shorter than that of pure B/KNO3 (109 ms). However, the ignition delay time of B/KNO3 coated with GF has been increased from 109 to 187 ms. B coated with GF and nano-Al shown significantly influence on the pressure output and flame structure of B/KNO3. Furthermore, the effects of B/O ratios on the pressure output and ignition delay time have been further fully studied. For B/KNO3 coated with nano-Al and GF, the highest pressures are 88 KPa and 59 KPa for B/O ratio of 4:6, and the minimum ignition delay time are 94 ms and 148 ms for B/O ratio of 7:3. Based on the above results, the reaction process of boron coated with GF and nano-Al has been proposed to understand combustion mechanism. 相似文献
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分析机械撞击载荷作用下复合固体推进剂内部裂纹摩擦形成热点过程。研究在压应力与剪切应力作用下闭合裂纹滑移、扩展、摩擦生热、热扩散、推进剂热分解及与气相产物相互作用。利用断裂力学、热传导、推进剂热分解动力学方法,建立裂纹摩擦热点细观模型。通过模型数值计算,探讨推进剂裂纹摩擦产生高温热点的过程和条件。分析计算表明裂纹摩擦和扩展可导致推进剂形成高温热点。 相似文献
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《防务技术》2019,15(4):488-494
Information about the forty nine nitraminic plastic bonded explosives (PBXs) and different nitramines were collected. Fillers of these PBXs are nitramines 1,3,5-trinitro-1,3,5-triazinane (RDX) and β-1,3,5,7-tetranitro-1,3,5-tetrazocane (β-HMX), cis-1,3,4,6-tetranitro-octahydroimidazo-[4,5-d]imidazole (bicyclo-HMX, BCHMX) and ε-2,4,6,8,10,12-hexanitro-2,4,6,8,10,12-hexaazaisowurtzitane (ε-HNIW, CL-20) which are bonded by polyfluoro-elastomers, polydimethyl-siloxane, poly-glycidyl azide, polyisobutylene, polystyrene-butadiene, poly-acrylonitrile-butadiene and hydroxyl-terminated polybutadiene in addition to a melt cast compositions based on 2,4,6-trinitrotoluene. For thirty two of these PBXs the relationships are specified and analyzed between heats of their combustion and relative explosive strengths; by means of these relationships it might be possible to estimate, which groupings in the macromolecule of binder could be liable to their primary fission in the PBXs initiation. Similarly, for forty two of these explosives, the relationships are described and analyzed between their enthalpies of formation and impact sensitivities; here is especially attention paid to PBXs filled by BCHMX. Specific rate constants from Vacuum Stability Test (VST) of four nitramines and twenty PBXs are introduced into relationships with their enthalpies of formation. Regarding to all the mentioned cases, increasing of energy content of the studied explosives leads to increase of the relative explosive strength or initiation reactivity, respectively. Exception with the opposite trend, the outputs of VST are for BCHMX, where in PBXs are matrices with the esteric plasticizers or the energetic poly-glycidyl azide. Admixture of RDX or HMX, respectively, into the BCHX PBXs gives ternary PBXs whose thermal stability, in the sense of applied VST, is higher comparing to the original binary explosives. 相似文献
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姿态角单次调整的固体运载火箭耗尽关机能量管理方法 总被引:1,自引:0,他引:1
固体运载火箭传统耗尽关机制导方法姿态角调整次数过多,不利于控制系统设计。提出了姿态角单次调整的耗尽关机能量管理策略:以火箭的待增视速度方向为基准,通过计算火箭所需耗费的视速度,优化选取火箭的初、末姿态角;火箭以恒定角速率从初姿态角变为末姿态角,达到末姿态角时保持恒定,直至耗尽关机。仿真结果表明,新方法在满足火箭的终端速度约束条件下,视速度模量耗费百分比超过30%,且姿态角单向调整,有利于控制系统的工程设计。 相似文献
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推力调节是整体式固液火箭冲压发动机研究的一项关键技术.基于发动机推力调节工作原理,推导了一种推力调节方法,数字仿真结果证明了该方法的可行性. 相似文献