激光冲击强化和热处理对Ti-6Al-4V表面硬度的影响

Liming Yuan, Wentai Ouyang, X. Qin, Wenwu Zhang, Pengkai Liu, Hongyu Quan, Tianrun Zhang
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摘要

Ti-6Al-4V (TC4)钛合金以其良好的综合力学性能在航空领域得到了广泛的应用。但TC4硬度低,耐磨性差,不能满足航空航天日益严格的工作环境要求。因此,有必要通过后处理来提高其性能。激光冲击强化(LSP)是一种利用超高塑性应变提高金属材料硬度和疲劳寿命的先进表面处理技术。然而,激光冲击强化在提高工件表面硬度方面存在一定的局限性。热处理可以有效地提高钛合金的性能。因此,采用热处理与激光冲击强化相结合的方法来提高TC4的表面硬度。在本研究中,Ti-6Al-4V (TC4)样品分别受到一次和两次LSP的影响。对已经受一次冲击的试样进行热处理,其中一个热处理试样再经受一次冲击。用维氏硬度计测定表面硬度。用扫描电镜(SEM)观察断口形貌,用x射线衍射仪(XRD)测定断口物相特征。实验研究了激光冲击强化和热处理对TC4试样表面硬度的影响。结果表明,处理后试样的最大表面硬度比原始试样提高了56.8%。因此,激光冲击强化与热处理相结合,可以大大提高TC4的表面硬度。
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Effect of laser shock peening and heat‑treated on surface hardness of Ti–6Al–4V
Ti-6Al-4V (TC4) titanium alloys have been extensively used in aviation due to their good comprehensive mechanical properties. However, TC4 has low hardness and poor wear resistance, which cannot meet the increasingly stringent working environment requirements of aerospace. Thus, it is necessary to enhance their performance by posttreatment. Laser shock peening (LSP) is an advanced surface treatment technology that improve the hardness and fatigue life of the metal material by ultra-high plastic strain. However, laser shock peening has limits to improve the surface hardness of workpiece. And heat treatment can effectively improve the performance of titanium alloys. Therefore, the combination of heat treatment and laser shock peening is used to improve the surface hardness of TC4. In this study, the Ti-6Al-4V (TC4) samples were subjected to one and two LSP impacts, respectively. Heat treatment was performed on the sample that has been subjected to one impact, and one of the heat-treated samples was subjected to one impact again. The surface hardness was measured by a Vickers hardness tester meter. The fracture morphologies were observed by scanning electron microscope (SEM) and phase characterization was measured by X-ray diffractometer (XRD). The effect of laser shock peening and heat treatment on the surface hardness of TC4 samples was experimentally investigated. The results showed that the maximum surface hardness of the treated sample was increased by 56.8% compared with original sample. Therefore, the combination of laser shock peening and heat treatment can greatly increase the surface hardness of the TC4.
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