Volume 1,Issue 6
Fall 2024
钛合金钻杆:从组织性能到加工工艺的综合研究
复杂恶劣的钻井环境对未来的钻井工具提出了更高的要求和标准。与其他钻杆相比,钛合金钻杆具有比强度高、密
度低、耐腐蚀、抗疲劳、非磁性等一系列特点,已成为非常规深井、深海等恶劣环境下油气钻井的首选材料。本文
综述了钛合金钻杆的发展现状、显微组织、力学性能、耐腐蚀性、耐磨性能、抗疲劳性能,并对其热处理方式及加
工工艺进行了概述。结合钛合金钻杆的应用和发展,对钛合金钻杆在深井、超深井等非常规钻井作业中的发展和应
用前景进行了展望,为促进钛合金钻头在油田的应用和发展提供支持。
[1] Mou Y, Lian Z, Li W, et al. The effect of friction welding on the mechanical
properties and corrosion fatigue resistance of titanium alloy drill pipe [J]. Fatigue and
Fracture of Engineering Materials and Structures, 2022, 45(2): 466-481.
[2] 鲜宁, 荣明, 李天雷, 等. 钛合金在高温高压酸性油气井的应用研究进展 [J]. 天然气
与石油, 2020, 38(05): 101-107.
[3] 吕祥鸿, 舒滢, 赵国仙, 等. 钛合金石油管材的研究和应用进展 [J]. 稀有金属材料与
工程, 2014, 43(6): 1518-1524.
[4] Feng C, Li R, Liu Y, et al. Aging treatment effect on microstructure and
mechanical properties of Ti-5Al-3V-1.5 Mo-2Zr titanium alloy drill pipe[J]. Journal
of Materials Engineering and Performance, 2020, 29: 7011-7025.
[5] P´erez-Mora R, Palin-Luc T, Bathias C, et al. Very high cycle fatigue of a high
strength steel under sea water corrosion: a strong corrosion and mechanical damage
cou-pling [J]. International Journal of Fatigue, 2015, 74: 156-165.
[6] Wu J, Li Y, Liu H, et al. Comparative Analysis of Friction and Wear Properties
of Titanium Alloy Drill Pipe and Steel Drill Pipe [C]. Journal of Physics: Conference
Series. 2023, 2587(1): 012001.
[7] Smith J E, Chandler R B, Boster P L. Titanium drill pipe for ultra-deep and deep
directional drilling [C]. Drilling Conference and Exhibition. SPE, 2001: SPE-67722-MS.
[8] Zhang W, Feng C, Zhang K, et al. Research Progress on High Temperature
Resistance of Titanium Alloy Material for Oil Drill Pipe [C]. Journal of Physics:
Conference Series, 2025, 2956(1): 012040.
[9] Zhang W, Huang Y, Wu J, et al. Performance Test of Weld Zone of Rotary
Friction Welding of Titanium Alloy Drill Pipe [C]. Journal of Physics: Conference
Series, 2023, 2587(1): 012002.