59式57mm高射炮炮管疲劳寿命的工程分析

本文应用Schmitt-Keim方法对59式-57mm高射炮炮管内壁表面裂纹的疲劳寿命进行计算,并对计算结果进行回归分析,得出计算该炮管各种裂纹疲劳寿命的近似公式。结果表明当内壁具有常见的短而浅的裂纹时,其疲劳寿命大于磨损寿命。     

半椭圆形表面裂纹疲劳寿命的一种工程算法

本文根据张开型半椭圆表面裂纹趋于“平衡’,的规律,划分了工程中常见的半椭圆形表面裂纹的种类。通过计算得出曲线。根据初始裂纹的类型,从图中查得疲劳寿命,从而简化了工程实用计算。     

四参数寿命分布S(α,β,λ,μ)

本文提出一个具有密度函数 (α>0,β≠0,λ>0,μ≥0)的四参数寿命分布S(α,β,λ,μ),然后证明了它的一些基本性质,据形状参数对(α,β)的不同取值,找出了失效率λ(t)关于时间t的五种变化规律:不变;递减;递增;先增后减;先减后增,并显示出不变失效率是其余四种失效率当(α,β)→(1,1)时的极限。     

线膛火炮后期寿命分析

弹带削光是火炮寿命终结的标志,通过分析弹带削光的过程和机理,建立炮弹在严重磨损炮膛内的运动模型,提出了为延长火炮后期寿命,在进行弹带和身管内膛设计时应注意的一些问题。     

椭圆状裂纹应力强度因子确定及抽油杆疲劳寿命预测

借助实验数据和公式逼近得到了带有椭圆状裂纹,承受拉-拉载荷的抽油杆的应力强度因子。将此应力强度因子代入Paris公式,即可预测抽油杆的剩余疲劳寿命。计算表明,当抽油杆上初始裂纹尺寸α_0<1.90mm时,预测疲劳寿命与实验值可较好地吻合。     

Development of multi-physics numerical simulation model to investigate thermo-mechanical fatigue crack propagation in an autofrettaged gun barrel

In this research, a detailed multi-physics study has been carried out by numerically simulating a solid fractured gun barrel for 20 thermo-mechanical cycles. The numerical model is based on thermal effects, mechanical stress fields and fatigue crack mechanics. Elastic-plastic material data of modified AISI 4340 at temperatures ranging from 25 to 1200 °C and at strain rates of 4, 16, 32 and 48 s⁻¹ was acquired from high-temperature compression tests. This was used as material property data in the simulation model. The boundary conditions applied are kept similar to the working gun barrel during continuous firing. A methodology has been provided to define thermo-mechanically active surface-to-surface type interface between the crack faces for a better approximation of stresses at the crack tip. Comparison of results from non-autofrettaged and autofrettaged simulation models provide useful information about the evolution of strains and stresses in the barrel at different points under combined thermo-mechanical loading cycles in both cases. The effect of thermal fatigue under already induced compressive yield due to autofrettage and the progressive degradation of the accumulated stresses due to thermo-mechanical cyclic loads on the internal surface of the gun barrel (mimicking the continuous firing scenario) has been analyzed. Comparison between energy release rate at tips of varying crack lengths due to cyclic thermo-mechanical loading in the non-autofrettaged and autofrettaged gun has been carried out.     

宽频带随机振动环境的疲劳强度强化机理

全轴随机振动环境的疲劳强化机理问题是可靠性强化试验研究的关键技术之一。针对该振动环境的宽带特性对疲劳失效的强化作用进行了讨论,首先研究影响随机应力疲劳强化效能的相关统计参数,然后分析随机应力的频谱带宽如何影响这些统计参数,最后得到频谱带宽对疲劳强化效能的影响,由此揭示全轴随机振动环境宽频带特性的疲劳强化机理。     

基于神经网络的材料非稳态疲劳损伤可靠性研究

疲劳累积损伤是一个非稳态能耗过程,可以用遗传算法优化后的3层2 7 1BP神经网络来描述疲劳损伤的非线关系,经仿真验证表明,该神经网络具有较高的精度和泛化能力.通过对材料疲劳损伤临界值和载荷的分散性的分析研究,建立了疲劳失效动态准则,并运用蒙特卡罗随机抽样法对材料疲劳寿命的可靠性进行了仿真验证;对调质45号钢在随机载荷和2级载荷作用下,进行了疲劳寿命可靠性仿真计算,仿真结果与实验结果和理论分析比较吻合.     

军用飞机综合效能/费用评估方法

军用飞机的效能与费用是两个相互制约的因素,对两者进行科学合理的综合评估,对于军用飞机的发展和使用有着很重要的意义。在分析综合效能/费用的基本评估指标基础上,提出了在军用飞机全寿命周期综合效能/费用评估指标,重点对作战使用阶段的最佳效能/费用进行评估分析,最后给出结论。     

Statistical equivalency and optimality of simple step‐stress accelerated test plans for the exponential distribution

Accelerated life testing (ALT) is commonly used to obtain reliability information about a product in a timely manner. Several stress loading designs have been proposed and recent research interests have emerged concerning the development of equivalent ALT plans. Step‐stress ALT (SSALT) is one of the most commonly used stress loadings because it usually shortens the test duration and reduces the number of required test units. This article considers two fundamental questions when designing a SSALT and provides formal proofs in answer to each. Namely: (1) can a simple SSALT be designed so that it is equivalent to other stress loading designs? (2) when optimizing a multilevel SSALT, does it degenerate to a simple SSALT plan? The answers to both queries, under certain reasonable model assumptions, are shown to be a qualified YES. In addition, we provide an argument to support the rationale of a common practice in designing a SSALT, that is, setting the higher stress level as high as possible in a SSALT plan. © 2012 Wiley Periodicals, Inc. Naval Research Logistics, 2013