激光热处理对X100管线钢摩擦磨损性能的影响
Effect of Laser Heat Treatment on Friction and Wear Properties of X100 Pipeline Steel
- 2023年53卷第5期 页码:59-63
DOI: 10.7512/j.issn.1001-2303.2023.05.08
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顾正家,严春妍,吴晨,等.激光热处理对X100管线钢摩擦磨损性能的影响[J].电焊机,2023,53(5):59-63.
GU Zhengjia, YAN Chunyan, WU Chen, et al.Effect of Laser Heat Treatment on Friction and Wear Properties of X100 Pipeline Steel[J].Electric Welding Machine, 2023, 53(5): 59-63.
激光热处理可以改善高强管线钢的表面耐磨性,以避免产生管壁减薄、表面凹坑等缺陷。采用不同激光功率对X100管线钢板进行了激光热处理试验,并对激光热处理后的试样进行了干式滑动摩擦磨损试验。分析了激光热处理后试样的显微组织,研究了激光热处理对X100管线钢摩擦磨损性能的影响。结果表明,激光功率为1 000~1 400 W时,激光热处理可导致X100管线钢表面形成细小的马氏体组织,硬化层硬度相对母材大幅提升;激光热处理后试样的干式滑动摩擦系数小于母材;随着激光功率增大,激光硬化层的深度和平均硬度逐渐增大,失重率减小,耐摩擦磨损性能提升。
Laser heat treatment (LHT) can improve the surface wear resistance of high-strength pipeline steel to avoid defects such as pipe wall thinning and surface pits. Laser heat treatment (LHT) tests were carried out with different laser power on X100 pipeline steel plates. Dry sliding friction wear tests were conducted on the LHT samples. The microstructures of LHT plates were analyzed. The effect of laser heat treatment on the friction and wear properties of X100 pipeline steel was studied as well. The results show that laser heat treatment can induce extremely fine martensite on the surface of X100 pipeline steel with laser power in the range of 1 000~1 400 W, and the hardness of hardened zone increases considerably compared with that of base metal. The dry sliding friction coefficients of LHT samples are smaller than that of base metal without LHT. The depth and average hardness of hardened zone gradually increases with rising laser power level. With increasing laser power, the weight loss rate declines and the friction and wear resistance improves.
激光热处理X100管线钢摩擦磨损性能马氏体
laser heat treatmentX100 pipeline steelfriction and wear propertiesmartensite
Turichin G, Kuznetsov M, Sokolov M, et al. Hybrid laser arc welding of X80 steel: influence of welding speed and preheating on the microstructure and mechanical properties[J].Physics Procedia,2015,78:35-44.
严春妍,元媛,张可召,等. X100管线钢焊接冷裂纹感性[J]. 焊接学报, 2019,40(12):41-46.
YAN C Y, YUAN Y, ZHANG K Z, et al. X100 pipeline steel welding cold crack susceptibility[J]. Journal of Welding, 2019,40(12):41-46.
Chen C, Li C J, Reniers G, et al. Safety and security of oil and gas pipeline transportation: A systematic analysis of research trends and future needs using WoS[J]. Journal of Cleaner Production, 2021,279:123583.
Liu K X, Xiao A F, Zhang P, et al. Study on mechanical response of steel pipe jacking considering the effect of pipe sticking[J]. Tunnelling and Underground Space Technology, 2022,127:104617.
李宇佳, 孙志鹏, 张雷, 等. 金刚石钎涂技术在过流部件上的应用研究[J]. 电焊机, 2021,51(10):19-23.
LI Y J, SUN Z P, ZHANG L, et al. Study on the Application of Diamond Brazing Technology in Flow passage Parts[J]. Electric Welding Machine, 2021, 51(10):19-23.
Guan Z W, Wu D F, Cheng Q, et al. Friction and Wear characteristics of CF/PEEK against 431 stainless steel under high hydrostatic pressure water lubrication[J]. Materials & Design, 2020, 196109057.
Lapouge P, Dirrenberger J, Coste F, et al. Laser heat treatment of martensitic steel and dual-phase steel with high martensite content[J]. Materials Science and Engineering: A, 2019,752:128-135.
Wang K, Wei A P, Shi Z M, et al. The preparation and performance of grain size gradient TWIP steel fabricated by laser heat treatment[J]. Materials Science and Engineering: A, 2019,743:294-300.
Mullo J L, Ramos-Grez J A, Barrionuevo G O. Effect of Laser Heat Treatment on the Mechanical Performance and Microstructural Evolution of AISI 1045 Steel-2017-T4 Aluminum Alloy Joints during Rotary Friction Welding[J]. Journal of Materials Engineering and Performance, 2021,30(4):2617-2631.
Luo C, Cao Y, Zhao L, et al. Laser Heat Treatment of Low-Alloy Ultrahigh-Strength Steel Laser-Welded Joints[J]. Welding Journal, 2019(8):98.
Farshidianfar M H, Khajepouhor A, Gerlich A. Real-time monitoring and prediction of martensite formation and hardening depth during laser heat treatment[J]. Surface and Coatings Technology, 2017, 315326-334.
CHEN J, WANG J Z, YAN F Y, et al. Corrosion wear synergistic behavior of Hastelloy C276 alloy in artificial seawater[J]. Transactions of Nonferrous Metals Society of China, 2015,25(2):661-668.
靳娟,纪秀林,段峻,等. 冷热循环处理对Fe基块体非晶合金摩擦磨损性能的影响[J]. 摩擦学学报, 2022, 42(04): 690-699.
JIN J, JI X L, DUAN J, et al. Effect of Cryogenic-Thermal Cycling Treatment on the Tribological Properties of Fe-Based Bulk Amorphous Alloy[J]. Journal of Tribology, 2022, 42(04): 690-699.
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