2022
DOI: 10.1016/j.matdes.2022.110849
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Microstructure evolution, mechanical property response and strengthening mechanism induced by compositional effects in Al–6 Mg alloys

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Cited by 40 publications
(9 citation statements)
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“…[ 47 ] Meanwhile, the dislocation is entangled with nano carbides forming dislocation tangles, which prevent the dislocation movement and enhance the material performance. [ 55 ] According to the Orowan strengthening mechanism [ 56 ] Δσor=0.84MGbλd$$\Delta \left(\sigma\right)_{\text{or}} = 0.84 M \frac{G b}{\left(\lambda\right)_{\text{d}}}$$where M , G , and b are the mean orientation factor, shear modulus, and Burger's vector of HSS, respectively. λ d is the mean distance between nano‐sized phases.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…[ 47 ] Meanwhile, the dislocation is entangled with nano carbides forming dislocation tangles, which prevent the dislocation movement and enhance the material performance. [ 55 ] According to the Orowan strengthening mechanism [ 56 ] Δσor=0.84MGbλd$$\Delta \left(\sigma\right)_{\text{or}} = 0.84 M \frac{G b}{\left(\lambda\right)_{\text{d}}}$$where M , G , and b are the mean orientation factor, shear modulus, and Burger's vector of HSS, respectively. λ d is the mean distance between nano‐sized phases.…”
Section: Resultsmentioning
confidence: 99%
“…[22] Therefore, the decrease in λ d after DCT results in a highstrengthening effect. [56,57] Figure 8a-d shows the EBSD orientation maps of different heat-treated samples. The boundaries of initial austenite grains are indicated by white-dashed lines.…”
Section: Dislocation and Boundarymentioning
confidence: 99%
“…In addition, owing to the strong pinning effect of the dispersoids with large grain boundary areas, grain boundary strengthening contributed significantly to the YS increment. [42] In the LHT samples, the highest contribution to the YS was from the Mn-dispersoids (90.1 MPa), followed by the Mg solid solution (45.7 MPa) and the grain boundary (40)(41)(42) in both hot rolling and cold rolling. For the HTH samples, owing to the lower number density and larger size of the dispersoids, the importance of the Mn-dispersoid contribution decreased; the YS increments from the Mn-dispersoid and Mg solid solution were at a similar level (46-47 MPa), whereas the YS increment from the grain boundary was lower.…”
Section: Strengthening Mechanisms After Hot and Cold Rollingmentioning
confidence: 99%
“…Control of microstructure is essential based on the understanding of solidification behavior in liquid metal processing to obtain high strength and good ductility 1 3 . The solidification behavior of liquid metal is influenced by various factors, such as composition, heat flow in the solidifying system, and quality of liquid metal.…”
Section: Introductionmentioning
confidence: 99%