船用核动力装置可靠性与安全性分析的关系探讨

以船用核动力装置为对象,探讨其可靠性与安全性分析的发展及现状,对二者关系进行分析,从概念、方法和工程背景角度提出作者的观点.     

电磁发射用脉冲电抗器应力分析及结构设计

基于对电磁力以及热应力的解析计算公式的推导,运用ANSYS有限元仿真软件对固定电抗器顶底端面情况下的铜箔进行电磁-温度-结构耦合分析,分别得出热应力及所受总应力与应变的分布情况。进一步对电抗器的结构进行优化,综合考虑其结构强度要求与连发温度要求,确定电抗器的最优设计结构,最终通过试验验证出仿真与设计方案真实可信。     

Dynamic institutionalization: the foundations of Japan’s radioactive problem

Many have suggested that the true purpose behind Japan’s development of a closed nuclear-fuel cycle is to maintain the technical potential to develop nuclear weapons. However, closer examination of the development of Japan’s nuclear industry shows that, although Japan possesses advanced nuclear technologies, there has been no deliberate strategy to create a nuclear-weapon option. There is no “nuclear hedge.” To illustrate this point, this article presents a framework called “dynamic institutionalization” to explain the origins of Japan’s nuclear policies and the different sets of institutionalized pressures and constraints that have perpetuated these policies over time. Japan’s continued development of closed fuel-cycle technologies is primarily driven by domestic politics and the lack of a permanent spent-fuel management solution. On the other hand, Japan’s institutionalized nuclear forbearance is driven by the calculation that, as long as US extended deterrence remains credible, Japan’s security is best guaranteed through reliance on the US nuclear umbrella. By analytically untangling the policy of closed fuel-cycle development from the rationale for nuclear forbearance, this article provides a more nuanced view of the relationships between the domestic and international variables shaping Japan’s nuclear policies.     

有温度反馈时中子动力学方程的新解法

当引入大阶跃反应性时 ,应用去耦合法求解中子动力学方程 ,导出了堆功率新的响应表达式 .与老的表达式相比 ,该表达式的应用范围更广 ,适用于初始功率为任意值     

弹道导弹防御中多目标拦截的策略

多目标拦截是弹道导弹防御的重大难题,也是目前美国导弹防御系统所遇到的最大的技术难点。在将多目标问题分为单弹头攻击和多弹头攻击2类问题的基础上,结合美国的相关研究计划,分别针对核爆炸防御、助推段防御、先进的目标识别器和多拦截器防御等多目标拦截策略进行了分析研究。     

水下制氢反应室动态过程数值分析

为研究水下制氢反应室的动态过程规律,基于化学反应动力学和单液滴运动学得到合金/水反应转化率,并在最小自由能法计算得到生成物各组分摩尔数的基础上利用质量守恒方程得到室内各物质质量变化规律。在建立非线性移动边界螺旋管动态模型的前提下,利用能量守恒方程得到室内热力参数变化规律,进而完成制氢反应室动态过程详尽模型的建立。利用该模型编写计算程序,完成某水下制氢反应室动态过程仿真。结果表明,各仿真曲线较好地反映了对应参数的动态变化规律,验证了模型建立与仿真的正确性;合金/水反应转化率决定了反应室的物质质量变化规律及其能量释放特性。该模型可以作为制氢反应室动态特性分析及其过程控制研究的基础模型。     

核试验地震核查的模糊逻辑推理综合识别方法

建立了一种增强性模糊推理方法,用来满足综合地震事件识别判据的需求。利用这种推理方法进行了地震事件模糊逻辑推理综合识别方法研究,给出了方法的框架。实例研究表明这种综合识别方法在核试验地震监测中有减少可疑事件数量的能力。     

导航级微型核磁共振陀螺仪技术综述

导航级微型核磁共振陀螺仪是美国国防高级研究项目局为了克服全球定位系统(GPS)在受到强干扰或GPS星座受损而失效的潜在威胁而开发的,其技术特点是通过微制造技术将所有必须的组件封装成为一个小型、低功耗、片式、高精度的惯性测量组合。从核磁共振原理、核磁共振陀螺仪原理、发展现状以及关键技术等方面对核磁共振陀螺仪进行了介绍。     

The Chinese and Asian impact on Russian nuclear policy

Asia, where nuclear powers already interact (including North Korea), exerts a growing influence on the thinking and policy underlying Russia's current and future nuclear (and overall defense) posture. China's rise is forcing Russia into a greater reliance on strategic offensive weapons and tactical nuclear weapons. These in turn will reinforce its opposition to US missile defenses, not only in Europe but also in Asia. Russia must now entertain the possibility of nuclear use in regional conflicts that would otherwise remain purely conventional. It cannot be postulated blindly that nuclear weapons serve no discernible purpose other than to deter nuclear attacks by other nuclear powers. The strategic equation in Asia and in the Russian Far East convincingly demonstrates the falsity of this approach. Nuclear weapons will be the essential component of Russia's regional defense policy if not of its overall policies – and this also includes contingencies in Europe.