Surface characterization of fiber laser texturing on Hastelloy C-276 at different temperatures

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-09-18 DOI:10.1016/j.optlastec.2024.111809
A. Sen , D. Pramanik , N. Banerjee , N. Roy , S. Biswas , T.K. Ghosh , R. Biswas
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Abstract

Laser systems have demonstrated the potential to create micro-features that significantly influence the friction and wear characteristics of challenging-to-machine workpiece surfaces. This study examines the potential benefits of laser texturing the surface at high temperatures to make the Hastelloy C-276 superalloy more resistant to wear and reduce friction, which is commonly used in high-temperature applications in industries such as aerospace, automotive, semiconductor, and nuclear. A total of 72 laser textured surfaces are produced using a 50 W nanosecond pulsed fiber laser, with the aim of improving the overall efficiency and reliability of Hastelloy C-276. The research aims to study the influence of laser power, pulse frequency, and scan speed on the surface properties of Hastelloy C-276 at various temperatures, including room temperature, 100 °C, and 200 °C. A simultaneous heating apparatus is developed for elevated-temperature surface texturing, and the surface topography is evaluated using parameters such as Ra, Rsk, Rku, and Rz. Additionally, micro-structural analysis is performed using scanning electron microscopy and atomic force microscopy. The findings indicate that modifying the scan speed and pulse frequency leads to enhanced surface properties when using fiber laser technology to generate surface textures on Hastelloy alloy while applying concurrent heating. Furthermore, the influence of laser power on the properties of the surface at elevated temperatures is found to be negligible. This study contributes to the understanding of the influence of laser parameters on laser-textured surfaces of Hastelloy C-276, particularly at elevated temperatures, thereby providing valuable insights for improving the performance of this superalloy in high-temperature applications.

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不同温度下光纤激光对哈氏合金 C-276 制纹的表面特性分析
激光系统已经证明了其创造微特征的潜力,这种微特征能够显著影响具有挑战性的机加工工件表面的摩擦和磨损特性。哈氏合金 C-276 超合金常用于航空航天、汽车、半导体和核能等行业的高温应用中,本研究探讨了在高温条件下对其表面进行激光纹理加工的潜在益处,以提高其耐磨性并减少摩擦。利用 50 W 纳秒脉冲光纤激光器共制作了 72 个激光纹理表面,目的是提高哈氏合金 C-276 的整体效率和可靠性。研究旨在研究激光功率、脉冲频率和扫描速度对不同温度(包括室温、100 ℃ 和 200 ℃)下哈氏合金 C-276 表面特性的影响。开发了一种用于高温表面纹理加工的同步加热装置,并使用 Ra、Rsk、Rku 和 Rz 等参数对表面形貌进行了评估。此外,还使用扫描电子显微镜和原子力显微镜进行了微观结构分析。研究结果表明,当使用光纤激光技术在哈氏合金上产生表面纹理并同时进行加热时,改变扫描速度和脉冲频率可提高表面特性。此外,研究还发现激光功率对高温下表面特性的影响微乎其微。这项研究有助于了解激光参数对激光纹理哈氏合金 C-276 表面的影响,尤其是在高温条件下的影响,从而为提高这种超级合金在高温应用中的性能提供有价值的见解。
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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