Effect of rolling process on fatigue performance of stir zone of AA6061‐T6 doube‐side friction stir welding joint

Du, Chengchao; Pan, Qiu-Hong; Chen, Shujin; Tian, Shuai

doi:10.1111/ffe.13391

Cited by 5 publications

(2 citation statements)

References 51 publications

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“…Subsequent studies delved into fatigue performance [14][15][16], with Takao et al [14] analyzing the fatigue life of non-through cracks in friction stir welded AA2024-T3 joints, noting the influence of welding conditions on fracture locations. As research progressed, fatigue crack growth (FCG) behavior became a prominent topic [17][18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Quasi-In Situ Observation of the Microstructural Response during Fatigue Crack Growth of Friction Stir Welded AA2024-T4 Joint

Yang,

Chen,

Zhao

et al. 2024

Materials

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The reliability of friction stir welded joints is a critical concern, particularly given their potential applications in the aerospace manufacturing industry. This study offers a quasi-in situ observation of the microstructural response during fatigue crack growth (FCG) of a friction stir welded AA2024-T4 joint, aiming to correlate fatigue crack growth behavior with mechanical properties investigated using electron backscatter diffraction (EBSD). Notched compact tension (CT) specimens corresponding to the morphology of the stir zone (SZ), advancing side (AS), and retreating side (RS) were meticulously designed. The findings indicate that the welding process enhances the joint’s resistance to fatigue crack growth, with the base metal exhibiting a shorter fatigue life (i.e., ~105 cycles) compared to the welding zones (SZ ~ 3.5 × 105 cycles, AS ~ 2.5 × 105 cycles, and RS ~ 3.0 × 105 cycles). Crack propagation occurs within the stir zone, traversing refined grains, which primarily contribute to the highest fatigue life and lowest FCG rate. Additionally, cracks initiate in AS and RS, subsequently expanding into the base metal. Moreover, the study reveals a significant release of residual strain at the joint, particularly notable in the Structural-CT-RS (Str-CT-RS) sample compared to the Str-CT-AS sample during the FCG process. Consequently, the FCG rate of Str-CT-AS is higher than that of Str-CT-RS. These findings have significant implications for improving the reliability and performance of aerospace components.

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Section: Introductionmentioning

confidence: 99%

Quasi-In Situ Observation of the Microstructural Response during Fatigue Crack Growth of Friction Stir Welded AA2024-T4 Joint

Yang,

Chen,

Zhao

et al. 2024

Materials

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“…Hence, it can be very useful to test, on a huge number of configurations, the influence of different parameters like material single crystal elastic constants, crystallographic misorientation, crystal volume fraction, interface inclination, amount of plastic deformation or loading type (Gemperlová et al 1989;Richeton and Berbenni 2013;Richeton et al 2015). In the same way, explicit analytical models for N-phase laminates are very useful to investigate the influence of the previously mentioned parameters in problems involving several parallel interfaces, like in thin films (e.g., Welzel et al 2003;Abadias et al 2018), in electronics packaging (e.g., Wong and Lim 2008), in nanolaminated materials (e.g., Mukhopadhyay et al 2017;Wang et al 2017) or in materials with welding joints which are classically modelled as a base metal, a heat affected zone and a weld metal (e.g., Du et al 2020). Actually, laminated materials are widely used in the industry because of the relative ease to control their properties from the choice of the materials combination,…”

Section: Introductionmentioning

confidence: 99%

Stress partitioning and effective behavior of N-phase laminates in anisotropic elasticity from a fast explicit method

Richeton

2022

Journal of Theoretical, Computational and Applied Mechanics

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In this work, a fast explicit method, easy to implement numerically, is proposed in order to compute the effective behavior and the distribution of stresses in a general N-phase laminate made of parallel, planar and perfectly bonded interfaces. The solutions are exact for a homogeneous far-field loading and work for an arbitrary number of phases, a general linear anisotropic elasticity, as well as different uniform thermal and plastic strains in the phases. A simple direct analytical formula is also derived to compute the stress in a given phase once the effective behavior of the laminate is known. Moreover, the correctness of the proposed method is checked by comparisons with finite element simulation results on a same boundary value problem, showing excellent agreements. An application of the method is performed for a near-β titanium alloy with elongated grains, by comparing the level of internal stresses for different elastic loadings within a N-phase laminate made of 100,000 orientations and a 2-phase laminate of equal volume fraction with maximal elastic contrast. Interestingly, the maximum von Mises stress of the 2-phase laminate is always the lowest, which is explained by a volume fraction effect. Finally, comparisons with elastic self-consistent models considering oblate spheroidal grains of different aspect ratios are performed.

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Simultaneously increased strength and plasticity of TIG-welded 7075-T6 aluminum alloy joints via a novel post-weld composite treatment process

Wang

Zhang

Cheng

et al. 2023

Journal of Materials Research and Technology

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Effect of rolling process on fatigue performance of stir zone of AA6061‐T6 doube‐side friction stir welding joint

Cited by 5 publications

References 51 publications

Quasi-In Situ Observation of the Microstructural Response during Fatigue Crack Growth of Friction Stir Welded AA2024-T4 Joint

Quasi-In Situ Observation of the Microstructural Response during Fatigue Crack Growth of Friction Stir Welded AA2024-T4 Joint

Stress partitioning and effective behavior of N-phase laminates in anisotropic elasticity from a fast explicit method

Simultaneously increased strength and plasticity of TIG-welded 7075-T6 aluminum alloy joints via a novel post-weld composite treatment process

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