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APPLIED LASER, Volume. 42, Issue 11, 71(2022)

Influence of Nanosecond Laser Impact Times on Surface Strengthening and Fatigue Performance of E690 steel Used in Car

Li Huan1, Yi Hongbin2, Zhang Mingming3, and Wang Guoqiang4
Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
  • 4[in Chinese]
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    [1] [1] BAI S, LIU Z Y, ZHOU X W, et al. Strain-induced dissolution of Cu-Mg co-clusters and dynamic recrystallization near a fatigue crack tip of an underaged Al-Cu-Mg alloy during cyclic loading at ambient temperature[J]. Scripta Materialia, 2011, 64(12): 1133-1136.

    [2] [2] CHEN Y Q, PAN S P, ZHOU M Z, et al. Effects of inclusions, grain boundaries and grain orientations on the fatigue crack initiation and propagation behavior of 2524-T3 Al alloy[J]. Materials Science and Engineering: A, 2013, 580: 150-158.

    [3] [3] SCHIJVE J. Fatigue damage in aircraft structures, not wanted, but tolerated? [J]. International Journal of Fatigue, 2009, 31(6): 998-1011.

    [6] [6] IVETIC G, MENEGHIN I, TROIANI E, et al. Fatigue in laser shock peened open-hole thin aluminium specimens[J]. Materials Science and Engineering: A, 2012, 534: 573-579.

    [8] [8] ZABEEN S, PREUSS M, WITHERS P J. Evolution of a laser shock peened residual stress field locally with foreign object damage and subsequent fatigue crack growth[J]. Acta Materialia, 2015, 83: 216-226.

    [13] [13] VOROBYEV A Y, GUO C L. Metallic light absorbers produced by femtosecond laser pulses[J]. Advances in Mechanical Engineering, 2010, 2: 452749.

    [14] [14] HOSHI Y, TAYAGAKI T, KIGUCHI T, et al. Control of geometry in Si-based photonic nanostructures formed by maskless wet etching process and its impact on optical properties[J]. Thin Solid Films, 2014, 557: 338-341.

    [16] [16] WANG L Q, HU Y N, CHE Z G, et al. Fatigue performance of laser shock processed fusion welded 7075 Al alloy[J]. Acta Aeronautica et Astronautica Sinica, 2021, 42(5): 524320.

    [18] [18] LONG J Y, CAO Z, LIN C H, et al. Formation mechanism of hierarchical Micro-and nanostructures on copper induced by low-cost nanosecond lasers[J]. Applied Surface Science, 2019, 464: 412-421.

    [19] [19] WANG Y T, KE C J, WU T H, et al. Nanosecond laser texturing with hexagonal honeycomb micro-structure on Titanium for improved wettability and optical properties[J]. Optik, 2019, 192: 162953.

    [20] [20] GRABOWSKI A, SOZAN′SKA M, ADAMIAK M, et al. Laser surface texturing of Ti6Al4V alloy, stainless steel and aluminium silicon alloy[J]. Applied Surface Science, 2018, 461: 117-123.

    [21] [21] MA Q, TONG Z, WANG W, et al. Fabricating robust and repairable superhydrophobic surface on carbon steel by nanosecond laser texturing for corrosion protection[J]. Applied Surface Science, 2018, 455: 748-757.

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    Li Huan, Yi Hongbin, Zhang Mingming, Wang Guoqiang. Influence of Nanosecond Laser Impact Times on Surface Strengthening and Fatigue Performance of E690 steel Used in Car[J]. APPLIED LASER, 2022, 42(11): 71

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    Paper Information

    Received: Oct. 9, 2021

    Accepted: --

    Published Online: May. 23, 2024

    The Author Email:

    DOI:10.14128/j.cnki.al.20224211.071

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology