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[HTML][HTML] A critical review: Crystal structure, evolution and interaction mechanism with dislocations of nano precipitates in Al-Li alloys
X Zhao, W Liu, D ** a new generation of materials
for aeronautic applications. The driving force behind this effort is the reduction of costs, by …
for aeronautic applications. The driving force behind this effort is the reduction of costs, by …
[HTML][HTML] Quantification of the influence of increased pre-stretching on microstructure-strength relationships in the Al–Cu–Li alloy AA2195
BI Rodgers, PB Prangnell - Acta Materialia, 2016 - Elsevier
The effect of increasing pre-stretching to higher levels, than are currently used in industrial
practice, has been investigated on the strength, microstructure, and precipitation kinetics …
practice, has been investigated on the strength, microstructure, and precipitation kinetics …
Strain hardening in Fe–16Mn–10Al–0.86 C–5Ni high specific strength steel
MX Yang, FP Yuan, QG **e, YD Wang… - Heterostructured …, 2021 - taylorfrancis.com
This chapter report a detailed study of the strain hardening behavior of a Fe-16Mn-10Al-0.86
C-5Ni high specific strength steel (HSSS) during uniaxial tensile deformation. The tensile …
C-5Ni high specific strength steel (HSSS) during uniaxial tensile deformation. The tensile …
Dynamic evolution of the T1 phase and its effect on continuous dynamic recrystallization in Al–Cu–Li alloys
The T 1 phase is the highest density and most prominent strengthening effect precipitate in
Al–Cu–Li alloys, and it undergoes a complex dynamic evolution during hot deformation …
Al–Cu–Li alloys, and it undergoes a complex dynamic evolution during hot deformation …
Superposed hardening from precipitates and dislocations enhances strength-ductility balance in Al-Cu alloy
J Yang, C Liu, P Ma, L Chen, L Zhan, N Yan - International Journal of …, 2022 - Elsevier
The age hardening response and tensile properties in an Al-Cu alloy pre-deformed by 20-
80% and post-aged at 120-165° C have been examined to study the effect of mixed …
80% and post-aged at 120-165° C have been examined to study the effect of mixed …
Quantification and modelling of the microstructure/strength relationship by tailoring the morphological parameters of the T1 phase in an Al–Cu–Li alloy
We present a systematic study of the relationship between precipitate microstructure and
resulting yield strength in an Al–Cu–Li alloy. By varying the thermomechanical ageing …
resulting yield strength in an Al–Cu–Li alloy. By varying the thermomechanical ageing …
The influence of precipitation on plastic deformation in a high Mg-containing AlMgZn-based crossover alloy: Slip localization and strain hardening
X Zhang, C Yang, L Meng, Z Chen, W Gong… - International Journal of …, 2024 - Elsevier
The distribution and partitioning of solute atoms in age-hardenable aluminum (Al) alloys
markedly impact strength, ductility and failure of alloy materials, thus rendering the …
markedly impact strength, ductility and failure of alloy materials, thus rendering the …
Regulation of precipitation behavior among T1, S', and θ'phases in Al–Cu–Li-(Mg–Ag) alloys by optimizing Ag/Mg ratios
X Xu, G Wu, L Zhang, X Tong, F Qi, Y Guo, L Li… - Materials Science and …, 2023 - Elsevier
Abstract In third-generation Al–Cu–Li alloys, T 1, S', and θ'precipitates are the primary
strengthening phases, and the strength-ductility synergy of the alloys depends strongly on …
strengthening phases, and the strength-ductility synergy of the alloys depends strongly on …
A novel GP-Li precursor and the correlated precipitation behaviors in Al-Cu-Li alloys with different Cu/Li ratio
J Ma, X Liu, D Yan, L Rong - Acta Materialia, 2023 - Elsevier
Abstract Aluminum-lithium (Al–Li) alloys have become an essential material for aircraft skin
in the aerospace industry owing to their high strength and low density. An optimized …
in the aerospace industry owing to their high strength and low density. An optimized …