Constitutive model of viscoelastic dynamic damage for the material of gas obturator in modular-charge howitzer

IF 5 Q1 ENGINEERING, MULTIDISCIPLINARY
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Abstract

In order to investigate the mechanical response behavior of the gas obturator of the breech mechanism, made of polychloroprene rubber (PCR), uniaxial compression experiments were carried out by using a universal testing machine and a split Hopkinson pressure bar (SHPB), obtaining stress-strain responses at different temperatures and strain rates. The results revealed that, in comparison to other polymers, the gas obturator material exhibited inconspicuous strain softening and hardening effects; meanwhile, the mechanical response was more affected by the strain rate than by temperature. Subsequently, a succinct viscoelastic damage constitutive model was developed based on the ZWT model, including ten undetermined parameters, formulated with incorporating three parallel components to capture the viscoelastic response at high strain rate and further enhanced by integrating a three-parameter Weibull function to describe the damage. Compared to the ZWT model, the modified model could effectively describe the mechanical response behavior of the gas obturator material at high strain rates. This research laid a theoretical foundation for further investigation into the influence of chamber sealing issues on artillery firing.

模块化装药榴弹炮气体钝器材料粘弹性动态损伤的构成模型
为了研究由聚氯丁二烯橡胶(PCR)制成的后膛机构气体闭塞器的机械响应行为,使用万能试验机和分体式霍普金森压力棒(SHPB)进行了单轴压缩实验,获得了不同温度和应变速率下的应力-应变响应。结果表明,与其他聚合物相比,气体钝化剂材料表现出不明显的应变软化和硬化效应;同时,机械响应受应变速率的影响比受温度的影响更大。随后,在 ZWT 模型的基础上建立了一个简洁的粘弹性损伤构成模型,该模型包括 10 个未确定的参数,通过加入三个平行分量来捕捉高应变速率下的粘弹性响应,并通过集成一个三参数 Weibull 函数来进一步增强对损伤的描述。与 ZWT 模型相比,改进后的模型能有效地描述气体封堵器材料在高应变速率下的机械响应行为。这项研究为进一步研究炮膛密封问题对火炮发射的影响奠定了理论基础。
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来源期刊
Defence Technology(防务技术)
Defence Technology(防务技术) Mechanical Engineering, Control and Systems Engineering, Industrial and Manufacturing Engineering
CiteScore
8.70
自引率
0.00%
发文量
728
审稿时长
25 days
期刊介绍: Defence Technology, a peer reviewed journal, is published monthly and aims to become the best international academic exchange platform for the research related to defence technology. It publishes original research papers having direct bearing on defence, with a balanced coverage on analytical, experimental, numerical simulation and applied investigations. It covers various disciplines of science, technology and engineering.
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