The origin of exceptionally large ductility in molybdenum alloys dispersed with irregular-shaped La2O3 nano-particles
Yujie Chen, Yan Fang, Pengming Cheng, Xiaoxing Ke, Manchen Zhang, Jiawei Zou, Jun Ding, Bozhao Zhang, Lin Gu, Qinghua Zhang, Gang Liu, Qian Yu

TL;DR
Molybdenum alloys with irregular-shaped La2O3 nanoparticles show improved ductility at low temperatures due to unique electronic and structural effects.
Contribution
A novel approach using rotary-swaging to shape La2O3 nanoparticles, enhancing ductility in molybdenum alloys.
Findings
Irregular-shaped La2O3 nanoparticles improve ductility in molybdenum alloys at low temperatures.
Amorphization of the oxide-matrix interface promotes dislocation plasticity and vacancy absorption.
Rotary-swaging induces multiple dislocation sources, enhancing plasticity even at reduced temperatures.
Abstract
Molybdenum and its alloys are known for their superior strength among body-centered cubic materials. However, their widespread application is hindered by a significant decrease in ductility at lower temperatures. In this study, we demonstrate the achievement of exceptional ductility in a Mo alloy containing rare-earth La2O3 nanoparticles through rotary-swaging, a rarity in Mo-based materials. Our analysis reveals that the large ductility originates from substantial variations in the electronic density of states, a characteristic intrinsic to rare-earth elements. This characteristic can accelerate the generation of oxygen vacancies, facilitating the amorphization of the oxide-matrix interface. This process promotes vacancy absorption and modification of dislocation configurations. Furthermore, by inducing irregular shapes in the La2O3 nanoparticles through rotary-swaging, incoming…
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Taxonomy
TopicsBone health and treatments · Bone and Joint Diseases · Cancer Diagnosis and Treatment
