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High-velocity impact responses of 2618 aluminum plates for engine containment systems under combined actions of projectile form and oblique angle 被引量:2
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作者 Cunxian WANG Tao SUO +2 位作者 Yulong LI Pu XUE Zhongbin TANG 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2019年第6期1428-1441,共14页
Ballistic impact tests were carried out with examined projectiles of the Ti-6Al-4V titanium alloy to investigate the impact response of the 2618 aluminum plates at a nominal velocity of 210 m/s. The influence of proje... Ballistic impact tests were carried out with examined projectiles of the Ti-6Al-4V titanium alloy to investigate the impact response of the 2618 aluminum plates at a nominal velocity of 210 m/s. The influence of projectile forms and oblique angles on damage formation was particularly discussed by applying different loading conditions such as multiple projectile forms and oblique angles. Additionally, the numerical simulation method was employed to provide further insight into the characteristics of damage and target responses. The Johnson-Cook(J-C)constitutive model with revised failure parameters was used to support the simulations to assess target responses and characteristics of the damage created from different impact conditions. Results show that there is a significant transition in the deformation mode as changes of the projectile form are applied. Moreover, the cracks on the back of the 2618 aluminum alloy plates impacted by the solid plate projectile and the hollow blade projectile tend to locate at different positions, which are supposed to be influenced by local bending and stretching. The work in this paper may provide guidance for the design of fan blade containment systems. 展开更多
关键词 2618 aluminum plate Damage CHARACTERISTIC HIGH-VELOCITY impact Johnson-Cook(J-C) PROJECTILE FORMS
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在高应变率拉伸/压缩-扭转载荷下TC17钛合金的屈服和塑性流动行为
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作者 杨学 赵敬凡 +2 位作者 杜冰 郭亚洲 李玉龙 《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2024年第4期185-198,共14页
金属材料经常暴露在高应变率和复杂的应力条件下.研究这些材料的动态力学行为对工程设计和工业应用至关重要.本文研究了TC17钛合金在压缩/拉伸-扭转作用下的动态塑性流动行为.研究了TC17钛合金在准静态和动态载荷下的初始屈服行为,并采... 金属材料经常暴露在高应变率和复杂的应力条件下.研究这些材料的动态力学行为对工程设计和工业应用至关重要.本文研究了TC17钛合金在压缩/拉伸-扭转作用下的动态塑性流动行为.研究了TC17钛合金在准静态和动态载荷下的初始屈服行为,并采用杨、郭和李提出的动态不对称屈服准则(DAYC)来表征动态初始屈服行为.根据不同应力状态下的硬化特性,提出了一种修正的动态硬化规律(MDHL)来拟合加载面.研究了TC17钛合金在准静态和动态载荷作用下的塑性流动方向.结果表明,塑性势函数基本符合相关联流动法则.总之,本文系统性的研究了TC17钛合金的屈服性能,应变硬化规律和塑性流动规律,并利用DAYC和MDHL对其进行了表征. 展开更多
关键词 TC17钛合金 金属材料 塑性流动 高应变率 扭转载荷 动态力学行为 应变硬化 屈服准则
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