The influence of high-temperature oxidation resistant titanium aluminide coating on low-cycle fatigue behaviour of titanium alloy IMI 834 at 600 °C

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The influence of high-temperature oxidation resistant titanium aluminide coating on low-cycle fatigue behaviour of titanium alloy IMI 834 at 600 °C

机译：高温抗氧化铝化钛涂层对600°C下钛合金IMI 834的低周疲劳行为的影响

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The low-cycle fatigue behaviour of titanium alloy IMI 834 was comparatively studied in bare condition and with titanium aluminide (Al₂Ti) coating at 600 °C in air. Results revealed that at higher values of total strain amplitudes (Δε _t/2), Al₂Ti-coated IMI 834 alloy has longer fatigue life (N _f) compared to the bare IMI 834 alloy, which appears to be due to load shifting to the coat. At lower values of Δε _t/2, Al₂Ti coating on IMI 834 alloy seems to have no effect on N _f. Higher values of cyclic strength coefficient (K′) and cyclic hardening exponent (n′) for coated IMI 834 alloy indicate that coating offers resistance to cyclic plastic deformation at 600 °C in air, and hence it is beneficial. The coating adheres well to the substrate and is also fairly resistant to high-temperature corrosion in sea water atmosphere at 600 °C.

机译：钛合金IMI 834的低周疲劳行为在裸露条件下和在空气中600°C的铝化钛（Al _{2 Ti）涂层下进行了比较研究。结果表明，在较高的总应变幅度值（Δε_{t / 2）下，Al _{2 Ti涂层的IMI 834合金具有更长的疲劳寿命（N _{f < / sub>）与裸IMI 834合金相比，后者似乎是由于载荷转移到了涂层上。在较低的Δε_{t / 2值下，IMI 834合金上的Al _{2 Ti涂层似乎对N _{f 没有影响。涂层的IMI 834合金的循环强度系数（K'）和循环硬化指数（n'）较高，表明涂层可抵抗空气在600°C下的循环塑性变形，因此是有益的。该涂层很好地粘附到基材上，并且在600°C的海水环境中也相当耐高温腐蚀。}}}}}}}

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《Journal of Materials Design and Applications》 |2012年第1期|p.34-41|共8页
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National Metallurgical Laboratory (CSIR), Jamshedpur, India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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入库时间 2022-08-18 01:04:13

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1. The influence of high-temperature oxidation resistant titanium aluminide coating on low-cycle fatigue behaviour of titanium alloy IMI 834 at 600℃ [J] . J K Sahu, K K Sahu, A K Ray Proceedings of the institution of mechanical engineers . 2012,第L1期

机译：高温抗氧化铝化钛涂层对600℃下钛合金IMI 834的低周疲劳行为的影响
2. High Cycle Fatigue and Cyclic Plastic Deformation Behaviour of High Temperature Oxidation Resistant Titanium Aluminide Coated IMI 834 Alloy at 873 K [J] . Ashok Kumar Ray, Prabir Kumar Roy High temperature materials and processes . 2012,第6期

机译：高温抗氧化铝化钛涂层IMI 834合金在873 K时的高循环疲劳和循环塑性变形行为
3. High Cycle Fatigue and Cyclic Plastic Deformation Behaviour of High Temperature Oxidation Resistant Titanium Aluminide Coated IMI?834 Alloy at 873?K [J] . Ashok Kumar Ray, Prabir Kumar Roy High temperature materials and processes . 2012,第6期

机译：耐高温抗氧化铝化钛涂层IMI？834合金在873？K的高循环疲劳和循环塑性变形行为
4. CYCLIC STRESS-STRAIN RESPONSE OF HIGH-TEMPERATURE TITANIUM ALLOY IMI 834 UNDER THERMOMECHANICAL FATIGUE CONDITIONS [C] . H.J. MAIER, S. HARDT, P. POTOTZKY, Titanium'99: Science and Technology . 2000

机译：热力学疲劳条件下高温钛合金IMI 834的循环应力-应变响应
5. The low-cycle fatigue behavior of an alpha-two + beta titanium aluminide alloy. [D] . Stevens, Katherine Anne. 2002

机译：α-2+β铝化钛合金的低周疲劳行为。
6. Zn- or Cu-Containing CaP-Based Coatings Formed by Micro-arc Oxidation on Titanium and Ti-40Nb Alloy: Part I—Microstructure Composition and Properties [O] . Ekaterina G. Komarova, Yurii P. Sharkeev, Mariya B. Sedelnikova, 2020

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7. Oxidation behaviour of the near a-titanium alloy IMI 834 [O] . K V Sai Srinadh, Vakil Singh 2004

机译：近钛合金ImI 834的氧化行为
8. An Oxidation-Resistant Coating Alloy for Gamma Titanium Aluminides [R] . Brady, Michael P., Smialek, James L., Brindley, William J. 1997

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The influence of high-temperature oxidation resistant titanium aluminide coating on low-cycle fatigue behaviour of titanium alloy IMI 834 at 600 °C

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