5/23/2025, 1:16:56 AM 星期五
Home > Archive>Volume 48, Issue 4, 2021 >21-28. DOI:10.12143/j.ztgc.2021.04.003
PDF HTML XML Export Cite reminder
Effect of laser texture on wettability of Fe-based amorphous alloy coating
CSTR:
[cstr]
Author:
Affiliation:

1.School of Engineering and Technology, China University of Geosciences, Beijing 100083, China;2.Zhengzhou Institute, China University of Geosciences (Beijing) , Zhengzhou Henan 451283, China;3.Institute of Exploration Techniques, CAGS, Langfang Hebei 065000, China;4.Zhengzhou Institute of Multipurpose Utilization of Mineral Resources, CAGS, Zhengzhou Henan 450006, China

Clc Number:

P634.4+1;TE921+.1

  • Article
    • | |
  • Metrics
    • |
  • Reference [27]
    • |
  • Related
    • | | |
  • Comments
    Abstract:

    In order to improve wear resistance and anti-balling of the drill bit during shale oil and gas drilling, Fe48Cr15Mo14C15B6Y2 amorphous alloy coatings were prepared on 35CrMo steel substrates by cold spraying (CS) and high velocity air fuel (HVAF) spraying with the hydrophobic surface of coatings made by UV laser. The microstructure and mechanical properties of the coatings were analyzed by scanning electron microscopy (SEM), X-ray energy spectrometer (EDS) and X-ray diffractometer (XRD), a contact angle meter was used to characterize the wettability of the coating, and the wetting mechanism was analyzed. The results showed that the Fe-based amorphous alloy coating prepared by CS technology had a denser microstructure and better thermal stability with the amorphous mass fraction up to 90%. The melt in the laser process rapidly cooled on the surface of the coating to form nano-sized condensation and agglomerates to form a micro-nano composite structure. With 7 laser scans, the CS coating had the highest water contact angle on the surface, which represented good hydrophobicity.

    Reference
    [1] 李梦,苏义脑,孙友宏,等.高胎体仿生异型齿孕镶金刚石钻头 [J].吉林大学学报(工学版),2016,46(5):1540-1545.LI Meng, SU Yinao, SUN Youhong, et al. High matrix bionic abnormal shape impregnated diamond bit[J]. Journal of Jilin University(Engineering and Technology Edition), 2016,46(5):1540-1545.
    [2] 王达,赵国隆,左汝强,等.地质钻探工程的发展历程与展望——回顾探矿工程事业70年[J].探矿工程(岩土钻掘工程),2019,46(9):1-31.WANG Da, ZHAO Guolong, ZUO Ruqiang, et al. The development and outlook of geological drilling engineering—To review the 70th anniversity of exploration engineering[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2019,46(9):1-31.
    [3] 王彦祺,龙志平.隆页2HF页岩气水平井钻井技术研究与实践[J].探矿工程(岩土钻掘工程),2018,45(7):30-33.WANG Yanqi, LONG Zhiping. Research and practice on drilling technology of Horizontal Shale Gas Well Longye 2HF[J].Exploration Engineering (Rock & Soil Drilling and Tunneling), 2018,45(7):30-33.
    [4] 孙举,李晓岚,刘明华,等.涪陵页岩气水平井油基钻井液技术 [J].探矿工程(岩土钻掘工程),2016,43(7):14-18.SUN Ju, LI Xiaolan, LIU Minghua, et al. Oil-based drilling fluids used for Fuling horizontal shale gas well[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2016,43(7):14-18.
    [5] 刘宝林,彭鹏,高德利,等.油气钻探技术中耐磨材料的研究进展[J].硅酸盐通报,2009,28(3):553-557.LIU Baolin, PENG Peng, GAO Deli, et al. Research progress of wear resistant materials in oil and gas drilling technology[J]. Bulletin of the Chinese Ceramic Society, 2009,28(3):553-557.
    [6] 周永宽,康嘉杰,岳文,等.超音速火焰喷涂金属陶瓷复合涂层的耐磨性能研究[J].探矿工程(岩土钻掘工程),2020,47(4):72-79.ZHOU Yongkuan, KANG Jiajie, YUE Wen, et al. Study on wear resistance of HVOF metal ceramic composite coating[J]. Exploration Engineering( Rock & Soil Drilling and Tunneling), 2020,47(4):72-79.
    [7] 袁青松,汪超,刘艳杰,等.中牟页岩气区块泥页岩井壁稳定影响因素分析及技术对策[J].探矿工程(岩土钻掘工程),2018,45(11):12-18.YUAN Qingsong, WANG Chao, LIU Yanjie, et al. Analysis on the influence factors to mud shale borehole stability in Zhongmu Shale Gas Block and the technical countermeasures[J]. Exploration Engineering(Rock & Soil Drilling and Tunneling), 2018,45(11):12-18.
    [8] 徐滨士,朱绍华,刘士参,等.表面工程的理论与技术[M].北京:国防工业出版社,2010.XU Binshi, ZHU Shaohua, LIU Shican, et al. Theories and technologies on surface engineering[M]. Beijing: National Defense Industry Press, 2010.
    [9] Su J, Kang J J, Yue W, et al. Comparison of tribological behavior of Fe-based metallic glass coatings fabricated by cold spraying and high velocity air fuel spraying[J]. Journal of Non-crystalline Solids, 2019,522.
    [10] Su J, Kang J J, Yue W, et al. Review of cold spraying and its use for metallic glass coatings[J]. Materials Science and Technology, 2019,35(16):1908-1923.
    [11] Williams E, Lavery N. Laser processing of bulk metallic glass: A review[J]. Journal of Materials Processing Technology, 2017,247:73-91.
    [12] Zhang L, Huang H. Micro machining of bulk metallic glasses: A review[J]. International Journal of Advanced Manufacturing Technology, 2019,100(1-4):637-661.
    [13] Zhang C, Wu Y, Liu L. Robust hydrophobic Fe-based amorphous coating by thermal spraying[J]. Applied Physics Letters , 2012,101(12).
    [14] Qiao J H, Jin X, Qin J H, et al. A super-hard superhydrophobic Fe-based amorphous alloy coating[J]. Surface & Coatings Technology, 2018,334:286-291.
    [15] Fornell J, Pellicer E, Garcia-Lecina E, et al. Structural and mechanical modifications induced on Cu47.5Zr47.5Al5 metallic glass by surface laser treatments[J]. Applied Surface Science, 2014,290:188-193.
    [16] Jiao Y, Brousseau E, Shen X J, et al. Investigations in the fabrication of surface patterns for wettability modification on a Zr-based bulk metallic glass by nanosecond laser surface texturing [J]. Journal of Materials Processing Technology, 2020,283.
    [17] Huang H, Yan J W. Surface patterning of Zr-based metallic glass by laser irradiation induced selective thermoplastic extrusion in nitrogen gas[J]. Journal of Micromechanics and Microengineering, 2017,27(7).
    [18] Gao C F, Xiao Z Y, Zou H P, et al. Characterization of spherical AlSi10Mg powder produced by double-nozzle gas atomization using different parameters[J]. Transactions of Nonferrous Metals Society of China, 2019,29(2):374-384.
    [19] Rokni M R, Nutt S R, Widener C A, et al. Review of relationship between particle deformation, coating microstructure, and properties in high-pressure cold spray[J]. Journal of Thermal Spray Technology, 2017,26(6):1308-1355.
    [20] Piao Z Y, Zhou Z Y, Xu J, et al. Use of X-ray computed tomography to investigate rolling contact cracks in plasma sprayed Fe-Cr-B-Si coating[J].Tribology Letters, 2019,67(1).
    [21] Zhang S D, Zhang W L, Wang S G, et al. Characterisation of three-dimensional porosity in an Fe-based amorphous coating and its correlation with corrosion behavior[J]. Corrosion Science, 2015,93:211-221.
    [22] Zhang C, Guo R Q, Yang Y, et al. Influence of the size of spraying powders on the microstructure and corrosion resistance of Fe-based amorphous coating[J]. Electrochimica Acta, 2013,56(18):6380-6388.
    [23] Wenzel R N. Resistance of solid surfaces to wetting by water [J]. Industrial & Engineering Chemistry, 1936,28:988-994.
    [24] Cassie A, Baxter S. Wettability of porous surfaces[J]. Transactions of the Faraday Society, 1944,40:546-551.
    [25] Yang Z R, Zhu C C, Zheng N, et al. Superhydrophobic surface preparation and wettability transition of titanium alloy with micro/nano hierarchical texture[J]. Materials, 2020,11(11):2210.
    [26] Jung L, Joon L, Multiphase static droplet simulations in hierarchically structured super-hydrophobic surfaces[J]. Journal of Mechanical Science and Technology, 2016,30(8):3741-3747.
    [27] Li Z, Zheng Y, Zhao J, et al. Wettability of atmospheric plasma sprayed Fe, Ni, Cr and their mixture coatings[J]. Journal of Thermal Spray Technology, 2012,21(2):255-262.
    Related
    Cited by
Get Citation

Copy
Share
Article Metrics
  • Abstract:
  • PDF:
  • HTML:
  • Cited by:
History
  • Received:October 22,2020
  • Revised:January 27,2021
  • Adopted:February 01,2021
  • Online: April 10,2021
  • Published: April 10,2021
Article QR Code
Today's visits:1057 Total visits:273520   津ICP备19010518号-1  

津公网安备12011002024030号
Address:No.77 Jinguang District, Langfang City, Hebei Province Post Code:065000 Phone:0316-2096324
URL:http://www.tkgc.net/ E-mail:tkgc@mail.cgs.gov.cn
Drilling Engineering ® 2025 All Rights ReservedSupported by:Beijing E-Tiller Technology Development Co., Ltd.