点火载荷下翼柱型装药结构完整性数值分析

针对固体火箭发动机翼柱型装药在点火载荷下结构完整性问题,提出了一种考虑三维损伤黏弹性本构性的数值模拟方法.基于商业有限元软件的二次开发平台,编写用户子程序,展开有限元数值计算,获取翼柱型装药在固化降温、点火载荷下装药结构的应力、应变与位移场分布.结果表明,在温度载荷与点火载荷下,药柱内表面变形模式是不同的.然而,不管在...     

液体推进剂液滴高压蒸发研究

本文改进了现有的液体推进剂液滴高压蒸发模型,提出了一个计算高压下液滴蒸发时环境介质气体在液滴中溶解的子模型,该模型中采用了改进的R-K气体状态方程。利用本模型对丙烷在氮气中的高压蒸发进行了计算。结果表明在高压下液滴蒸发时间随压力和环境温度的增加而减小,当压力超过某临界值时,液滴将达到超临界状态。高压下环境介质气体在液滴中的溶解是非常明显的,并且压力愈高溶解性愈大,因此在推进剂高压燃烧中必须考虑溶解性对于液滴蒸发的影响。     

Microcrack- and microvoid-related impact damage and ignition responses for HMX-based polymer-bonded explosives at high temperature

Investigating the damage and ignition behaviors of polymer-bonded explosive (PBX) under a coupled impact and high-temperature loading condition is required for the safe use of charged PBXs. An improved combined microcrack and microvoid model (CMM) was developed for better describing the thermal effects of deformation, damage, and ignition responses of PBXs. The main features of the model under typical dynamic loadings (i.e. uniaxial tension and compression, and lateral confinement) at different initial temperature were first studied. And then the effects of temperature on impact-shear sensitivity of HMX-based PBXs were investigated. The results showed that the ignition threshold velocity of shear-crack hotspots exhibits an increase from 260 to 270 to 315–325 m/s when initial temperature increases from 301 to 348 K; and then the threshold velocity decreases to 290–300 m/s with the initial temperature continually increasing to 378 K. The predicted ignition threshold velocity level of the explosives under coupled impact and high temperature loading conditions were consistent with the experimental data.     

Thermodynamics and performance of Al/CuO nanothermite with different storage time

The storage stability of energetic materials is important for its application. Here, the storage stability of Al/CuO nanothermite, which was prepared by electrospray method and stored with different storage time, was systematically researched. The activation energy of Al/CuO nanothermite was calculated by differential scanning calorimetry (DSC). The ignition temperature and the curve pressure history of Al/CuO nanothermite was measured using ignition temperature measuring device and constant-volume pressurization tests, respectively. Further, the thermites were characterized by X-ray Diffractometer (XRD), X-ray photoelectron spectroscopy (XPS), scanning electron microscope (SEM) and Transmission electron microscopy (TEM). The results show that the morphology of the thermites did not change significantly. The activation energy was decreased from 254.1 kJ/mol to 181.8 kJ/mol after storage for 13 months. When stored for 0, 7 and 13 months, the peak pressures of Al/CuO nanothermite were 685.8 kPa, 626.3 kPa and 625.5 kPa, respectively. In addition to the ignition temperature, it was 775 ℃, 739 ℃ and 754 ℃, respectively. This result indicated that the ignition and combustion properties of Al/CuO nano-thermite are obviously reduced when stored for a long time, at room temperature.     

可压缩流大涡模拟耦合概率密度函数方法中的滤波压力模型

亚格子组分-温度关联项显著影响反应流大涡模拟精度。利用概率密度函数方法中概率等效的特点,发展一种新的滤波压力模型,可以良好封闭亚格子组分-温度关联项。介绍概率密度函数及其耦合求解方法,在已有模型基础上推导建立新的滤波压力模型,并在三维超声速氢气/空气时间发展反应混合层中对不同的滤波压力模型进行数值测试。结果表明,与传统的滤波压力模型相比,新的滤波压力模型可以明显改善反应混合层的模拟准确度。特别地,基于新的滤波压力模型,大涡模拟耦合概率密度函数方法可以较好地模拟链式反应中间微小组分如超氧化氢基等,有望更有效地再现自点火等复杂现象。     

煤油超音速燃烧的试验研究

在地面直连式试车台上,研究了煤油碳氢燃料超燃冲压发动机的点火燃烧性能。通过测量模型发动机壁面压力分布,比较了不同工况下的煤油点火燃烧性能。试验结果表明,在当量比为0.27～1.46的大范围内,煤油在超燃冲压模型发动机中能够成功点火,支板和凹腔对煤油在超声速气流中的点火及稳定燃烧有重要作用,少量氢气的喷入对煤油的点火燃烧有良好的促进作用。太厚的支板、过高的当量比、模型发动机第一级燃烧室加入燃料过多会使发动机壅塞,影响隔离段的正常工作,进而影响加热器喷管工作。     

热壁条件下油气热着火关键因素探究

设计了受限空间内高温热壁条件下的油气热着火的实验系统.基于系统的实验和分析,探究了受限空间环境温度、湿度、压力、热壁温度对油气热着火发生的影响.实验发现:油气热着火概率随着热壁温度和环境温度的升高、湿度的减小而增加;油气混合物在汽油自燃点附近开始快速化学反应,油气热着火的最低临界温度为783 K;油气热着火存在三角形的着火压力半岛,且着火压力下限随热壁温度升高而降低,着火压力上限随温度升高而提高.     

温升热源条件油气热着火关键因素探究

通过对影响油气受热着火的关键因素进行研究,为发展主动防护技术提供理论依据。基于系统的实验和分析,探究了快速氧化现象、热源加热速度、热源面积与爆燃空间比例对热着火发生时临界浓度、着火概率和着火延迟期的影响,提出了温升热源条件受限空间能否发生热着火的综合判据。该判据认为：如果油气体积分数低于2.4％,受限空间体积与热源面积比值小于0．64m,那么即使温度达到873K,湿度降低到18％～21％,着火也不会发生。     

一种高能点火药吸湿性的研究

在特定恒湿恒温条件下对5个药剂样品进行吸湿试验。由试验结果可以看出,该高能点火药的吸湿与硝酸钾、炭粉和药剂密度有很大关系,同时由于镁粉、铝粉等活泼金属的加入,增强了药剂的吸湿性,从而使药剂在吸湿试验干燥后其剩余增加量较大。     

围压下固体推进剂的破坏机理分析

贴壁浇筑的固体发动机推进剂药柱在点火状态下处于三向围压状态,而环向承受拉应变,亟待对围压下推进剂的破坏机理展开研究。基于自研的围压加载试验系统,通过开展推进剂在不同围压、温度和应变率下的单轴拉伸试验来研究围压、温度和应变率的耦合作用对推进剂力学行为的影响。针对围压下推进剂的力学响应特征,通过细观力学仿真进一步研究围压下推进剂的破坏形式,同时借助电镜扫描试验分析推进剂试样断面的形貌特征,通过试验和仿真相结合的手段分析了围压下推进剂的破坏机理。研究结果表明,围压下推进剂的损伤界面显著减少,且随着围压载荷的逐渐增加,推进剂的损伤形式从以颗粒脱湿为主转变为以颗粒破碎为主。     

Pressure relief of underground ammunition storage under missile accidental ignition

Safety of underground ammunition storage is an important issue, especially during the accidental ignition of missiles. This work investigates the pressure and temperature distribution of the multi-layer underground ammunition storage with a pressure relief duct during the accidental ignition process of the missile. A large-scale experiment was carried out using a multi-layered restricted space with a pressure relief duct to simulate the underground ammunition store and a solid rocket motor to simulate the accidental ignition of the missile. The results show that when the motor gas mass flow increased by 5.6 times, the maximum pressure of the ammunition storage increased by 5.87 times. At a certain motor flow rate, when the pressure relief exhaust area at the end of the relief duct was reduced by 1/2, the maximum pressure on the first layer did not change. But the rate of pressure relief was reduced and the time delayed for the pressure of ammunition store to drop to zero. In this experiment, when the motor ignition position was located in to the third layer ammunition chamber, the maximum pressure was reduced by 32.9％ and also reduced the rate of change of pressure. In addition, for the experimental conditions, the theoretical analysis of the pressure relief of the ammunition storage is given by a simplified model. Based on the findings, some suggestions to the safety protection design of ammunition store are proposed.     

燃烧室压力对潜入式喷管喉衬热应力的影响

为了研究燃烧室压力对固体火箭发动机潜入式喷管热应力影响规律的问题,采用商业流体软件,基于压力求解器,求解了喷管纯气相的流场,确定了燃气温度、压力、壁面对流换热系数;采用有限元软件,依据流场计算的非均布壁面压力与非均布对流换热,求解了燃烧室压力为6 MPa下的潜入式喷管热结构问题;通过地面点火试验验证了仿真模型与数值方法的有效性与准确性;采用相同计算模型与数值方法,求解了在燃烧室压力为9 MPa、12 MPa下的喷管热结构问题,揭示了燃烧室压力对喉衬热应力的影响规律。结果表明:整个工作过程,喉衬环向应力最大值为103.9 MPa,位于内表面,且随时间增大,先增大后减小;喉衬环向拉应力也随时间先增大后减小;随压力增大,对流换热系数增大,喉衬温度升高,喉衬环向拉应力增大,喉衬环向压应力减小。     

利用OH发射谱进行的高温低浓度甲烷着火研究

采用激波管进行低浓度甲烷和空气混合气的着火实验,通过测量压力和OH发射光谱,得到不同工况下的着火延迟,并与甲烷的详细反应机理计算结果作比较。结果表明:不同浓度下甲烷着火延迟的对数与温度倒数呈线性关系,着火延迟随甲烷浓度的降低而减少;贫燃条件下,采用详细动力学机理计算的表观活化能与实验数据拟合较好。     

Controllable combustion behaviors of the laser-controlled solid propellant

Microsatellites have been widely applied in the fields of communication,remote sensing,navigation and science exploration due to its characteristics of low cost,flexible launch mode and short development period.However,conventional solid-propellant have difficulties in starting and interrupting combustion because combustion is autonomously sustained after ignition.Herein,we proposed a new type of solid-propellant named laser-controlled solid propellant,which is sensitive to laser irradiation and can be started or interrupted by switching on/off the continuous wave laser.To demonstrate the feasibility and investigate the controllable combustion behaviors under different laser on/off conditions,the combus-tion parameters including burning rate,ignition delay time and platform pressure were tested using pressure sensor,high-speed camera and thermographic camera.The results showed that the increase of laser-on or laser-off duration both will lead to the decrease of propellant combustion performance during re-ignition and re-combustion process.This is mainly attributed to the laser attenuation caused by the accumulation of combustion residue and the change of chamber ambient temperature.Simultaneously,the multiple ignition tests revealed that the increased chamber ambient temperature after combustion can make up for the energy loss of laser attenuation and expansion of chamber cavity.However,the laser-controlled combustion performance of solid propellant displayed a decrease trend with the addi-tion of ignition times.Nevertheless,the results still exhibited good laser-controlled agility of laser-controlled solid propellant and manifested its inspiring potential in many aspects of space missions.     

环境温度对导弹发动机点火时机的影响及控制策略

针对埋入式进气道在发动机点火时刻对导弹飞行攻角的严格限制,提出了攻角点火窗口的概念;以助推器在低温、常温和高温下的推力数据为基础,分别计算了导弹飞行攻角进入攻角点火窗口的时刻,并对时刻差异进行动力学分析;为消除环境温度变化对点火指令发出时机的影响,引入伪攻角信号,设计攻角控制律。半实物仿真结果表明,该控制方法能有效消除环境温度变化对导弹飞行攻角进入攻角点火窗口时刻的影响,且能够使导弹攻角在发动机点火过程中保持稳定,具有一定的工程实用价值。     

Effect of tongue clearance on hydraulic performance of double support vortex pump

In order to study influence of tongue clearance on the hydraulic performance of double support vortex pump, three dimensional flow model with symmetric variable size tongue clearance was established by changing section parameter of tongue clearance, and applied to numerically simulate the steady inner flow in a vortex pump based on fixed working conditions and impeller through ANSYS FLUENT. The numerical results show the influence of tongue channel with two sections (non-uniform and uniform sections) on flow field characteristics in vortex pump. Firstly, the variation of tongue channel section changes the vortex structure distribution in circumferential flow channel. Specifically the spiral forward vortex structure in the circumferential direction shifts to large radius side with increasing tongue width. Secondly, the circumferential velocity gradient and axial pressure gradient both diminish with the increase of the tongue section, and the inlet/outlet pressure difference and velocity distribution also reduce with increasing tongue channel section. Finally, for vortex pump with non-uniform section of tongue channel, the head diminishes and the efficiency remains constant approximately with the increase of the tongue width, while the head and the efficiency both diminish for uniform section of tongue channel.     

Hazard evaluation of ignition sensitivity and explosion severity for three typical MH2 (M＝Mg,Ti, Zr) of energetic materials

MgH2, TiH2, and ZrH2 are three typical metal hydrides that have been gradually applied to composite explosives and propellants as additives in recent years. To evaluate ignition sensitivity and explosion severity, the Hartmann device and spherical pressure vessel were used to test ignition energy and ex-plosion pressure, respectively. The results showed that the ignition sensitivity of ZrH2, TiH2 and MgH2 gradually increased. When the concentration of MgH2 is 83.0 g/m3 in Hartmann device, the ignition energy attained a minimum of 10.0 mJ. The explosion pressure of MgH2 were 1.44 times and 1.76 times that of TiH2 and ZrH2, respectively, and the explosion pressure rising rate were 3.97 times and 9.96 times that of TiH2 and ZrH2, respectively, through the spherical pressure vessel. It indicated that the reaction reactivity and reaction rate of MgH2 were higher than that of TiH2 and ZrH2. In addition, to conduct in-depth theoretical analysis of ignition sensitivity and explosion severity, gas production and combus-tion heat per unit mass of ZrH2, TiH2 and MgH2 were tested by mercury manometer and oxygen bomb calorimetry. The experimental results revealed that MgH2 had a relatively high gas production per unit mass (5.15 mL/g), while TiH2 and ZrH2 both had a gas production of less than 2.0 mL/g. Their thermal stability gradually increased, leading to a gradual increase in ignition energy. Furthermore, compared with theoretical combustion heat, the combustion ratio of MgH2, TiH2 and ZrH2 was more than 96.0%, with combustion heat value of 29.96, 20.94 and 12.22 MJ/kg, respectively, which was consistent with the explosion pressure and explosion severity test results.     

Shock initiation performance of NTO-based polymer bonded explosive

3-nitro-1,2,4-tri-azol-5-one (NTO) is a high energy insensitive explosive. To study the shock initiation process of NTO-based polymer bonded explosive JEOL-1 (32%octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine (HMX), 32% NTO, 28% Al and 8% binder system), the cylinder test, the gap experiments and numerical simulation were carried out. Firstly, we got the detonation velocity (7746 m/s) and the parameters of Jones-Wilkins-Lee (JWL) equation of state (EOS) for detonation product by cylinder test and numerical simulation. Secondly, the Hugoniot curve of unreacted explosive for JEOL-1 was obtained calculating the data of pressure and time at different Lagrangian positions. Then the JWL EOS of unreacted explosive was obtained by utilizing the Hugoniot curve as the reference curve. Finally, we got the pressure growth history of JEOL-1 under shock wave stimulation and the parameters of the ignition and growth reaction rate equation were obtained by the pressure-time curves measured by the shock-initiation gap experiment and numerical simulation. The determined trinomial ignition and growth model (IG model) parameters can be applied to subsequently simulation analysis and design of insensitive ammunition with NTO-based polymer bonded explosive.     

用坐标空间重正化群(PSRG)方法求解二维正方格子铁磁系统的临界指数

本文采用坐标空间重正化群方法(PSRG),对二维正方形点阵最近邻伊辛模型铁磁系统,求解了五个自旋组成块体的临界指数,在块体哈密顿量中保留到的量级。将本文结果与伊辛模型严格计算的理论值、各种临界指数的实验值、以及二维三角点阵三个自旋组成块体的临界指数计算值相比较,可以看到,本文的计算结果均比三角点阵三自旋组成块体的计算值有所改进。     

铝导线短路熔珠对固体可燃物引燃能力实验研究

在模拟试验平台上进行了铝导线短路熔珠引燃棉布、聚氨酯泡沫塑料和纸张的试验，得到了不同材料的临界加栽电压值和引燃规律。初步分析了加栽电压与短路熔珠粒径及引燃能力的关系。结果表明，随着短路电压增大，导线熔珠的粒径逐渐增大，熔珠对固体材料的引燃能力逐渐增强，氧指数越低、表面粗糙、易蓄热的材料越容易被点燃。棉布、聚氨酯泡沫塑料和纸屑被引燃的短路临界电压分别为50V、35V和45V。