Nanocrystallization in the Duplex Ti-6Al-4V Alloy Processed by Multiple Laser Shock Peening

Zhou, Wangfan; Ren, Xudong; Liu, Fanfan; Ren, Yunpeng; Li, Lin

doi:10.3390/met6120297

Cited by 24 publications

(23 citation statements)

References 29 publications

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“…An example is shown here by Zhou et al [3] of microstructural modifications at the nanoscale range obtained on a Ti-6Al-4V (α + β) titanium alloy. Using the Scherrer-Wilson method for analyzing X-ray diffraction peak broadening, microstrains and average grain sizes of laser-peened diffracting zones were estimated and subjected to TEM microstructural observations.…”

Section: Lsp-induced Nano-recrystallization Effectsmentioning

confidence: 99%

“…They provide interesting insights into the beneficial effects of temperature on laser-shock-induced plastic deformations. Considering LSP temperature ranges up to 160 • C and a 6061 (Al0.9Mg0.6Si) alloy, warm laser peening (WLP) trials were carried out with 2 mm diameter impacts, a 50% overlap, and a glass confining medium [3]. Such WLP trials evidence a 20% decrease of surface compressive stresses, but deeper affected layers and large hardening effect (up to +55% HV for a WLP at 130 • C).…”

Section: Warm Laser Peening Applied To Aluminum Alloysmentioning

confidence: 99%

“…The following fields are covered in the seven selected papers: materials' behavior and phase transformations under high strain rate (Amadou et al [1]), new loading conditions with ultra-short pulses (Petronic et al [2]) surface modifications induced by laser peening including recrystallization effects (Zhou et al [3]) and warm laser peening (Huang et al [4], Chen et al [5]), and novel applications of LSP such as water droplet erosion resistance (Gujba et al [6]) or impact spot welding (Liu et al [7]). The wide variety of topics related to LSP highlights the extraordinary dynamism and enthusiasm of the growing international LSP community.…”

Section: Introduction and Scopementioning

confidence: 99%

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Laser Shock Processing on Metal

Peyre

2017

Metals

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Section: Lsp-induced Nano-recrystallization Effectsmentioning

confidence: 99%

Section: Warm Laser Peening Applied To Aluminum Alloysmentioning

confidence: 99%

Section: Introduction and Scopementioning

confidence: 99%

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Laser Shock Processing on Metal

Peyre

2017

Metals

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“…This generally results in high residual tensile stress on the surface [2,3], which is not conducive to the improvement of fatigue life. Laser shock peening at room temperature (RT-LSP) has been proved to be an effective technology to improve the fatigue resistance of materials by the high compressive residual stress (CRS) [4,5].…”

Section: Introductionmentioning

confidence: 99%

Improvement of Damping Property and Its Effects on the Vibration Fatigue in Ti6Al4V Titanium Alloy Treated by Warm Laser Shock Peening

Meng

Zhao

et al. 2019

Metals

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In order to increase the vibration life of Ti6Al4V titanium alloy, warm laser shock peening (WLSP) is used to improve the damping properties and thus decrease the vibration stress in this study. Firstly, the Ti6Al4V specimens are treated by WLSP at different treatment temperatures from 200 °C to 350 °C. Then the damping ratios of untreated and WLSPed samples are obtained by impact modal tests, and the improvement of damping properties generated byWLSP is analyzed by the microstructures in Ti6Al4V titanium alloy. Moreover, the finite element simulations are utilized to study the vibration amplitude and stress during the frequency response process. Finally, the vibration fatigue tests are carried out and the fatigue fracture morphology is observed by the scanning electron microscope. The results indicate that the damping ratios of WLSPed specimens increase with the increasing treatment temperatures. This is because elevated temperatures during WLSP can effectively increase the α phase colonies and the interphase boundaries, which can significantly increase the internal friction of materials. Moreover, due to the increasing material damping ratio, the displacement and stresses during vibration were both reduced greatly by 350 °C-WLSP, which can significantly decrease the fatigue crack growth rate and thus improve the vibration fatigue life of Ti6Al4V titanium alloy.

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“…These materials commonly exhibit excellent properties, such as high strength to weight ratio, excellent toughness, and outstanding corrosion resistance [1,2]. TC17 titanium alloy has been widely used to manufacture aero-engine fans, compressor disks, jetengine blades, and other important parts of advanced aircrafts [3,4].…”

Section: Introductionmentioning

confidence: 99%

Impact-Sliding Tribology Behavior of TC17 Alloy Treated by Laser Shock Peening

Yin

Wang

et al. 2018

Preprint

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Outer particles collision with certain dynamic object is not a pure impact wear behavior; it is typically accompanied by sliding wear phenomena. This study aimed investigating the impact-sliding wear performance of three different TC17 titanium alloys. One was untreated, and the other two were subjected to laser shock peening (LSP) by 5 and 7 J pulse energy, respectively. Wear test was performed on a novel impact-sliding wear testing rig, which can realize multiple impact-sliding motions by changing motion parameters in x and z directions. Present results showed that wear resistance of both treated samples improved compared with the untreated alloy. Given the increase in wear cycles, increment in wear rate of the untreated sample was constantly higher than those of treated samples. All results can be attributed to the increase in surface hardness of the material and residual compressive stress, which was also introduced after LSP.

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Nanocrystallization in the Duplex Ti-6Al-4V Alloy Processed by Multiple Laser Shock Peening

Cited by 24 publications

References 29 publications

Laser Shock Processing on Metal

Laser Shock Processing on Metal

Improvement of Damping Property and Its Effects on the Vibration Fatigue in Ti6Al4V Titanium Alloy Treated by Warm Laser Shock Peening

Impact-Sliding Tribology Behavior of TC17 Alloy Treated by Laser Shock Peening

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