激光辐照对微纳米层钛合金性能的影响

H. Hebatalrahman
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摘要

本文研究了一种激光辐照Ti6Al4VELI合金的新技术,该合金为α - β结构,在室温正常气氛下进行辐照,无外界介质,用能量色散x射线“EDX”技术记录了激光辐照前后合金的化学成分等对Ti6Al4VELI合金的影响。激光辐照技术的影响区(厚度)仅限于微观到纳米尺度的表面。通过测定不同波长激光照射下的最大载荷下的模量和硬度变化,测量了不同波长激光照射下的力学性能变化。在5000脉冲激光照射前后测量了Ti6Al4VELI的磨损率,在所有波长下硬度都有最大的改善,在目前的研究中,它改善了表面力学特性。采用扫描电镜研究了激光辐照对结构的影响,并对不同辐照条件下的影响进行了定量分析。激光治疗既适用于野外作业,也适用于工业。机械性能的提高是由于微观结构的改变,而化学成分没有显著变化。提高了合金的效率和寿命,该工作已在埃及专利局注册为专利号24014。
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The Effect of Laser Irradiation on The Properties of Micro to Nanolayer Titanium Alloy
In this work, a new technique for Laser irradiation of Ti6Al4VELI was developed, this alloy is an alpha-beta structure, the irradiation was done at room temperature in the normal atmosphere without any external media, the effects of laser irradiation on the Ti6Al4VELI such as the chemical composition of the alloy before and after laser irradiation were recorded by Energy dispersive X-ray “EDX” technique. the affected zone (thickness) of the laser irradiation technique was limited to the surface in micro to the nanoscale. The variation in mechanical properties due to laser irradiation at different wavelengths was measured by the determination of the variation of modulus and hardness at maximum load with a number of pulses. The wear rate was measured for the Ti6Al4VELI before and after laser irradiation at 5000 pulses where the maximum improvement in the hardness occurs at all wavelengths, in the current study, it improves surface mechanical characteristics. The effect of laser irradiation on the structures was studied by SEM, the quantitative analysis was done at all irradiation conditions. Laser treatment is suitable for both field works and industry. The improvement in mechanical properties occurs due to microstructure changes without significant changes in chemical composition. the efficiency and lifetime of the alloys were increased, the work is registered as patent number 24014 in the Egyptian patent office.
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