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兵工学报 ›› 2022, Vol. 43 ›› Issue (12): 3221-3227.doi: 10.12382/bgxb.2021.0720

• 论文 • 上一篇    下一篇

不同组织Ti6321钛合金在低温高应变速率下的变形和断裂行为

李严星1, 王琳1,2,3, 闫志维1, 安瑞1, 周哲1, 宁子轩1, 程焕武1,2, 程兴旺1,2   

  1. (1.北京理工大学 材料学院, 北京 100081; 2.北京理工大学 冲击环境材料技术国家级重点实验室, 北京 100081;3.北京理工大学 爆炸科学与技术国家重点实验室, 北京 100081)
  • 上线日期:2022-05-20
  • 作者简介:李严星(1996—), 男, 硕士研究生。 E-mail: 1322174159@qq.com
  • 基金资助:
    爆炸科学与技术国家重点实验室基金项目(YBKT-17-06)

Deformation and Fracture Behaviors of Ti6321 Titanium Alloy with Different Microstructures at Low Temperature and HighStrain Rate Conditions

LI Yanxing1, WANG Lin1,2,3, YAN Zhiwei1, AN Rui1, ZHOU Zhe1, NING Zixuan1, CHENG Huanwu1,2, CHENG Xingwang1,2   

  1. (1.School of Materials Science and Engineering, Beijing Institute of Technology, Beijing 100081, China;2.National Key Laboratory of Technology on Materials under Shock and Impact, Beijing Institute of Technology, Beijing 100081, China; 3.State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China)
  • Online:2022-05-20

摘要: 针对目前关于船用钛合金在低温和高应变率速率下的研究不足的问题,通过热处理获得3种组织的Ti6321钛合金,研究不同组织在温度-80~25 ℃、应变速率2 500 s-1及3 500 s-1左右的变形和断裂行为。采用低温分离式霍普金森压杆实验装置进行加载,通过光学显微镜和扫描电子显微镜等表征方法,对其微观组织演化进行观察分析。研究结果表明:随着温度的降低,Ti6321钛合金强度增加,塑性减小;在室温下,双态组织具有较好的强塑性匹配;随着温度的降低,等轴组织具有较高的强度和较好的低温塑性变形能力,表现出良好的低温动态压缩性能。断裂机制研究表明等轴组织和双态组织表现出典型的韧性断裂特征;魏氏组织断口出现高低不平的解理面,表现出明显的脆性断裂倾向。

关键词: Ti6321钛合金, 低温, 高应变速率, 微观组织, 断裂行为

Abstract: To close the research gap on marine titanium alloys at low temperatures and high strain rate rates, Ti6321 titanium alloys with three structures are prepared through heat treatment. The deformation and fracture behaviors of the three alloy samples within the temperature range of -80-25 ℃ and strain rate range of 2 500-3 500 s-1 are studied. A low-temperature split Hopkinson pressure bar is used for loading. The evolution of the microstructure is observed and analyzed by an optical microscope and scanning electron microscope. The results show that the strength of Ti6321 titanium alloy increases and the plasticity decreases as the temperature declines. The bimodal structure has good strength and plasticity matching at room temperature. With the decrease of temperature, the equiaxed structure has higher strength and better low-temperature plastic deformation capability, and shows good low-temperature dynamic compression properties. The study of the alloy's fracture mechanism shows that the equiaxed and bimodal structures exhibit typical ductile fracture characteristics. The fracture of Widmanstatten structure is an uneven cleavage surface, which has an evident tendency to brittle fracture.

Key words: Ti6321titaniumalloy, lowtemperature, highstrainrate, microstructure, fracturebehavior

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