Analysis on Fatigue Crack Propagation and Fractography of A7075 Aluminum Alloy

In this study, the fracture toughness of the multi-layered commercial pure aluminum samples (AA1050) prepared by warm accumulative roll bonding (WARB) was investigated for the first time. Based on the ASTM E561 standard, the R-curve method was utilized to measure the plane stress fracture toughness. Compact tension (CT) samples were prepared from the sheets that were processed by different ARB cycles. Mechanical properties, microstructure, and fracture surfaces of the CT samples were studied by uniaxial tensile test, electron backscatter diffraction (EBSD), and scanning electron microscopy (SEM), respectively. By increasing the number of WARB cycles, fracture toughness increased; after five cycles, 78% enhancement was observed compared to the pre-processed state. A correlation was seen between the fracture toughness variations and ultimate tensile strength (UTS). WARB enhanced UTS up to 95%, while the grain size showed a reduction from 35 to 1.8 µm. Measured fracture toughness values were compared with the room temperature ARB outcomes, and the effective parameters were analyzed. Fractography results indicated that the presence of tiny cliffs and furrows and hollow under fatigue loading zones and shear ductile rupture in the Quasi-static tensile loading zone.

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“…Moreover, some deformations may occur in grain boundary junction, which is a part of grain layer fracture [43]. Fig.…”

Section: Fractographymentioning

confidence: 99%

Improving the Fracture Toughness of Multi-Layered Commercial Pure Aluminum via Warm Accumulative Roll Bonding

Attar

Nia

Mazaheri

et al. 2021

Preprint

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show abstract

“…During this path, the resistance against crack growth increased and led to expandable difficulties. Moreover, some deformations may occur in grain boundary junction, which is a part of grain layer fracture [43]. Fig.…”

Section: Fractographymentioning

confidence: 99%

Improving the fracture toughness of multi-layered commercial pure aluminum via warm accumulative roll bonding

Attar

Nia

Mazaheri

et al. 2021

Int J Adv Manuf Technol

View full text Add to dashboard Cite

In this study, the fracture toughness of the multi-layered commercial pure aluminum samples (AA1050) prepared by warm accumulative roll bonding (WARB) was investigated for the first time. Based on the ASTM E561 standard, the R-curve method was utilized to measure the plane stress fracture toughness. Compact tension (CT) samples were prepared from the sheets that were processed by different ARB cycles. Mechanical properties, microstructure, and fracture surfaces of the CT samples were studied by uniaxial tensile test, electron backscatter diffraction (EBSD), and scanning electron microscopy (SEM), respectively. By increasing the number of WARB cycles, fracture toughness increased; after five cycles, 78% enhancement was observed compared to the pre-processed state. A correlation was seen between the fracture toughness variations and ultimate tensile strength (UTS). WARB enhanced UTS up to 95%, while the grain size showed a reduction from 35 to 1.8 μm. Measured fracture toughness values were compared with the room temperature ARB outcomes, and the effective parameters were analyzed.Fractography results indicated that the presence of tiny cliffs and furrows and hollow under fatigue loading zones and shear ductile rupture in the Quasi-static tensile loading zone.

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Influence of cryorolling and followed by annealing on high cycle fatigue behavior of ultrafine grained Al 2014 alloy

Joshi

Yogesha

Jayaganthan

2017

Materials Characterization

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Analysis on Fatigue Crack Propagation and Fractography of A7075 Aluminum Alloy

Cited by 3 publications

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Improving the Fracture Toughness of Multi-Layered Commercial Pure Aluminum via Warm Accumulative Roll Bonding

Improving the Fracture Toughness of Multi-Layered Commercial Pure Aluminum via Warm Accumulative Roll Bonding

Improving the fracture toughness of multi-layered commercial pure aluminum via warm accumulative roll bonding

Influence of cryorolling and followed by annealing on high cycle fatigue behavior of ultrafine grained Al 2014 alloy

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